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AGESA f14 vendorcode: Remove f10, f12 and f15 references 

Change-Id: I08ee5a6c50d7eee2c39df326a6c6acd40212f093
Signed-off-by: Kyösti Mälkki <kyosti.malkki@gmail.com>
Reviewed-on: https://review.coreboot.org/21182
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Patrick Georgi <pgeorgi@google.com>
This commit is contained in:
Kyösti Mälkki 2017-08-24 09:35:42 +03:00
parent 21c8c39e2f
commit fc72448a89
4 changed files with 0 additions and 3402 deletions
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24
src/vendorcode/amd/agesa/f14/Include/OptionCpuFamiliesInstall.h
View File

@ -284,37 +284,19 @@
/*
* Initialize all families to disabled
*/
#define OPT_F10_TABLE
#define OPT_F12_TABLE
#define OPT_F14_TABLE
#define OPT_F15_TABLE
#define OPT_F10_ID_TABLE
#define OPT_F12_ID_TABLE
#define OPT_F14_ID_TABLE
#define OPT_F15_ID_TABLE
/*
* Install family specific support
*/
#if (OPTION_FAMILY10H == TRUE)
#include "OptionFamily10hInstall.h"
#endif
#if (OPTION_FAMILY12H == TRUE)
#include "OptionFamily12hInstall.h"
#endif
#if (OPTION_FAMILY14H == TRUE)
#include "OptionFamily14hInstall.h"
#endif
#if (OPTION_FAMILY15H == TRUE)
#include "OptionFamily15hInstall.h"
#endif
/*
* Process PCI MMIO mask
*/
@ -378,10 +360,7 @@ CONST OPTIONS_CONFIG_TOPOLOGY ROMDATA TopologyConfiguration =
*/
CONST CPU_SPECIFIC_SERVICES_XLAT ROMDATA CpuSupportedFamiliesArray[] =
{
OPT_F10_TABLE
OPT_F12_TABLE
OPT_F14_TABLE
OPT_F15_TABLE
};
CONST CPU_FAMILY_SUPPORT_TABLE ROMDATA CpuSupportedFamiliesTable =
@ -393,10 +372,7 @@ CONST CPU_FAMILY_SUPPORT_TABLE ROMDATA CpuSupportedFamiliesTable =
CONST CPU_LOGICAL_ID_FAMILY_XLAT ROMDATA CpuSupportedFamilyIdArray[] =
{
OPT_F10_ID_TABLE
OPT_F12_ID_TABLE
OPT_F14_ID_TABLE
OPT_F15_ID_TABLE
};
CONST CPU_FAMILY_ID_XLAT_TABLE ROMDATA CpuSupportedFamilyIdTable =

1996
src/vendorcode/amd/agesa/f14/Include/OptionFamily10hInstall.h
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File diff suppressed because it is too large Load Diff

665
src/vendorcode/amd/agesa/f14/Include/OptionFamily12hInstall.h
View File

@ -1,665 +0,0 @@
/* $NoKeywords:$ */
/**
* @file
*
* Install of family 12h support
*
* This file generates the defaults tables for family 12h processors.
*
* @xrefitem bom "File Content Label" "Release Content"
* @e project: AGESA
* @e sub-project: Core
* @e \$Revision: 37456 $ @e \$Date: 2010-09-04 04:17:05 +0800 (Sat, 04 Sep 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.
*
* ***************************************************************************
*
*/
#ifndef _OPTION_FAMILY_12H_INSTALL_H_
#define _OPTION_FAMILY_12H_INSTALL_H_
#include "OptionFamily12hEarlySample.h"
/*
* Common Family 12h routines
*/
extern F_CPU_DISABLE_PSTATE F12DisablePstate;
extern F_CPU_TRANSITION_PSTATE F12TransitionPstate;
extern F_CPU_GET_TSC_RATE F12GetTscRate;
extern F_CPU_GET_NB_FREQ F12GetCurrentNbFrequency;
extern F_CPU_GET_NB_PSTATE_INFO F12GetNbPstateInfo;
extern F_CPU_IS_NBCOF_INIT_NEEDED F12GetNbCofVidUpdate;
extern F_CPU_AP_INITIAL_LAUNCH F12LaunchApCore;
extern F_CPU_GET_IDD_MAX F12GetProcIddMax;
extern F_CPU_AMD_GET_AP_MAILBOX_FROM_HARDWARE F12GetApMailboxFromHardware;
extern F_CPU_GET_AP_CORE_NUMBER F12GetApCoreNumber;
extern F_CORE_ID_POSITION_IN_INITIAL_APIC_ID F12CpuAmdCoreIdPositionInInitialApicId;
extern F_CPU_SET_DOWN_CORE_REGISTER F12SetDownCoreRegister;
extern F_CPU_SET_WARM_RESET_FLAG F12SetAgesaWarmResetFlag;
extern F_CPU_GET_WARM_RESET_FLAG F12GetAgesaWarmResetFlag;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF12BrandIdString1;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF12BrandIdString2;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF12CacheInfo;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF12SysPmTable;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF12WheaInitData;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetEmptyArray;
extern F_CPU_GET_PLATFORM_TYPE_SPECIFIC_INFO F12GetPlatformTypeSpecificInfo;
extern CONST REGISTER_TABLE ROMDATA F12PciRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F12PerCorePciRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F12MsrRegisterTable;
extern F_CPU_NUMBER_OF_BRANDSTRING_CORES F12GetNumberOfCoresForBrandstring;
extern F_GET_EARLY_INIT_TABLE GetCommonEarlyInitOnCoreTable;
extern F_IS_NB_PSTATE_ENABLED F12IsNbPstateEnabled;
#if OPTION_EARLY_SAMPLES == TRUE
extern CONST REGISTER_TABLE ROMDATA F12EarlySampleMsrRegisterTable;
#endif
/*
* Install family 12h model 0 support
*/
#ifdef OPTION_FAMILY12H_LN
#if OPTION_FAMILY12H_LN == TRUE
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF12LnMicroCodePatchesStruct;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF12LnMicrocodeEquivalenceTable;
#if USES_REGISTER_TABLES == TRUE
CONST REGISTER_TABLE ROMDATA *F12LnRegisterTables[] =
{
#if BASE_FAMILY_PCI == TRUE
&F12PciRegisterTable,
#endif
#if BASE_FAMILY_PCI == TRUE
&F12PerCorePciRegisterTable,
#endif
#if BASE_FAMILY_MSR == TRUE
&F12MsrRegisterTable,
#if OPTION_EARLY_SAMPLES == TRUE
&F12EarlySampleMsrRegisterTable,
#endif
#endif
// the end.
NULL
};
#endif
#if USES_REGISTER_TABLES == TRUE
CONST TABLE_ENTRY_TYPE_DESCRIPTOR ROMDATA F12LnTableEntryTypeDescriptors[] =
{
{MsrRegister, SetRegisterForMsrEntry},
{PciRegister, SetRegisterForPciEntry},
{FamSpecificWorkaround, SetRegisterForFamSpecificWorkaroundEntry},
{ProfileFixup, (PF_DO_TABLE_ENTRY)CommonVoid},
// End
{TableEntryTypeMax, (PF_DO_TABLE_ENTRY)CommonVoid}
};
#endif
CONST CPU_SPECIFIC_SERVICES ROMDATA cpuF12LnServices =
{
0,
#if DISABLE_PSTATE == TRUE
F12DisablePstate,
#else
(PF_CPU_DISABLE_PSTATE) CommonAssert,
#endif
#if TRANSITION_PSTATE == TRUE
F12TransitionPstate,
#else
(PF_CPU_TRANSITION_PSTATE) CommonAssert,
#endif
#if PROC_IDD_MAX == TRUE
F12GetProcIddMax,
#else
(PF_CPU_GET_IDD_MAX) CommonAssert,
#endif
#if GET_TSC_RATE == TRUE
F12GetTscRate,
#else
(PF_CPU_GET_TSC_RATE) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F12GetCurrentNbFrequency,
#else
(PF_CPU_GET_NB_FREQ) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F12GetNbPstateInfo,
#else
(PF_CPU_GET_NB_PSTATE_INFO) CommonAssert,
#endif
#if IS_NBCOF_INIT_NEEDED == TRUE
F12GetNbCofVidUpdate,
#else
(PF_CPU_IS_NBCOF_INIT_NEEDED) CommonAssert,
#endif
#if AP_INITIAL_LAUNCH == TRUE
F12LaunchApCore,
#else
(PF_CPU_AP_INITIAL_LAUNCH) CommonAssert,
#endif
#if (BRAND_STRING1 == TRUE) || (BRAND_STRING2 == TRUE)
F12GetNumberOfCoresForBrandstring,
#else
(PF_CPU_NUMBER_OF_BRANDSTRING_CORES) CommonAssert,
#endif
#if GET_AP_MAILBOX_FROM_HW == TRUE
F12GetApMailboxFromHardware,
#else
(PF_CPU_AMD_GET_AP_MAILBOX_FROM_HARDWARE) CommonAssert,
#endif
#if SET_AP_CORE_NUMBER == TRUE
(PF_CPU_SET_AP_CORE_NUMBER) CommonVoid,
#else
(PF_CPU_SET_AP_CORE_NUMBER) CommonAssert,
#endif
#if GET_AP_CORE_NUMBER == TRUE
F12GetApCoreNumber,
#else
(PF_CPU_GET_AP_CORE_NUMBER) CommonAssert,
#endif
#if TRANSFER_AP_CORE_NUMBER == TRUE
(PF_CPU_TRANSFER_AP_CORE_NUMBER) CommonVoid,
#else
(PF_CPU_TRANSFER_AP_CORE_NUMBER) CommonAssert,
#endif
#if ID_POSITION_INITIAL_APICID == TRUE
F12CpuAmdCoreIdPositionInInitialApicId,
#else
(PF_CORE_ID_POSITION_IN_INITIAL_APIC_ID) CommonAssert,
#endif
#if SAVE_FEATURES == TRUE
(PF_CPU_SAVE_FEATURES) CommonVoid,
#else
(PF_CPU_SAVE_FEATURES) CommonAssert,
#endif
#if WRITE_FEATURES == TRUE
(PF_CPU_WRITE_FEATURES) CommonVoid,
#else
(PF_CPU_WRITE_FEATURES) CommonAssert,
#endif
#if SET_WARM_RESET_FLAG == TRUE
F12SetAgesaWarmResetFlag,
#else
(PF_CPU_SET_WARM_RESET_FLAG) CommonAssert,
#endif
#if GET_WARM_RESET_FLAG == TRUE
F12GetAgesaWarmResetFlag,
#else
(PF_CPU_GET_WARM_RESET_FLAG) CommonAssert,
#endif
#if BRAND_STRING1 == TRUE
GetF12BrandIdString1,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if BRAND_STRING2 == TRUE
GetF12BrandIdString2,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES == TRUE
GetF12LnMicroCodePatchesStruct,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES_EQUIVALENCE_TABLE == TRUE
GetF12LnMicrocodeEquivalenceTable,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_CACHE_INFO == TRUE
GetF12CacheInfo,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_SYSTEM_PM_TABLE == TRUE
GetF12SysPmTable,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_WHEA_INIT == TRUE
GetF12WheaInitData,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PLATFORM_TYPE_SPECIFIC_INFO == TRUE
F12GetPlatformTypeSpecificInfo,
#else
(PF_CPU_GET_PLATFORM_TYPE_SPECIFIC_INFO) CommonAssert,
#endif
#if IS_NB_PSTATE_ENABLED == TRUE
F12IsNbPstateEnabled,
#else
(PF_IS_NB_PSTATE_ENABLED) CommonAssert,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
(PF_NEXT_LINK_HAS_HTFPY_FEATS) CommonReturnFalse,
#else
(PF_NEXT_LINK_HAS_HTFPY_FEATS) CommonReturnFalse,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
(PF_SET_HT_PHY_REGISTER) CommonVoid,
#else
(PF_SET_HT_PHY_REGISTER) CommonAssert,
#endif
#if BASE_FAMILY_PCI == TRUE
(PF_GET_NEXT_HT_LINK_FEATURES) CommonReturnFalse,
#else
(PF_GET_NEXT_HT_LINK_FEATURES) CommonReturnFalse,
#endif
#if USES_REGISTER_TABLES == TRUE
(REGISTER_TABLE **) F12LnRegisterTables,
#else
NULL,
#endif
#if USES_REGISTER_TABLES == TRUE
(TABLE_ENTRY_TYPE_DESCRIPTOR *) F12LnTableEntryTypeDescriptors,
#else
NULL,
#endif
#if MODEL_SPECIFIC_HT_PCI == TRUE
NULL,
#else
NULL,
#endif
NULL,
InitCacheDisabled,
#if AGESA_ENTRY_INIT_EARLY == TRUE
GetCommonEarlyInitOnCoreTable
#else
(PF_GET_EARLY_INIT_TABLE) CommonVoid
#endif
};
#define LN_SOCKETS 1
#define LN_MODULES 1
#define LN_RECOVERY_SOCKETS 1
#define LN_RECOVERY_MODULES 1
extern F_CPU_GET_SUBFAMILY_ID_ARRAY GetF12LnLogicalIdAndRev;
#define OPT_F12_LN_ID (PF_CPU_GET_SUBFAMILY_ID_ARRAY) GetF12LnLogicalIdAndRev,
#ifndef ADVCFG_PLATFORM_SOCKETS
#define ADVCFG_PLATFORM_SOCKETS LN_SOCKETS
#else
#if ADVCFG_PLATFORM_SOCKETS < LN_SOCKETS
#undef ADVCFG_PLATFORM_SOCKETS
#define ADVCFG_PLATFORM_SOCKETS LN_SOCKETS
#endif
#endif
#ifndef ADVCFG_PLATFORM_MODULES
#define ADVCFG_PLATFORM_MODULES LN_MODULES
#else
#if ADVCFG_PLATFORM_MODULES < LN_MODULES
#undef ADVCFG_PLATFORM_MODULES
#define ADVCFG_PLATFORM_MODULES LN_MODULES
#endif
#endif
#if GET_PATCHES == TRUE
#define F12_LN_UCODE_02
// If a patch is required for recovery mode to function properly, add a
// conditional for AGESA_ENTRY_INIT_RECOVERY, and pull it in.
#if AGESA_ENTRY_INIT_EARLY == TRUE
#if OPTION_EARLY_SAMPLES == TRUE
extern CONST MICROCODE_PATCHES ROMDATA CpuF12MicrocodePatch03000002;
#undef F12_LN_UCODE_02
#define F12_LN_UCODE_02 &CpuF12MicrocodePatch03000002,
#endif
#endif
CONST MICROCODE_PATCHES ROMDATA *CpuF12LnMicroCodePatchArray[] =
{
F12_LN_UCODE_02
NULL
};
CONST UINT8 ROMDATA CpuF12LnNumberOfMicrocodePatches = (UINT8) ((sizeof (CpuF12LnMicroCodePatchArray) / sizeof (CpuF12LnMicroCodePatchArray[0])) - 1);
#endif
#if OPTION_EARLY_SAMPLES == TRUE
extern F_F12_ES_NB_PSTATE_INIT F12NbPstateInitEarlySampleHook;
extern F_F12_ES_POWER_PLANE_INIT F12PowerPlaneInitEarlySampleHook;
CONST F12_ES_CORE_SUPPORT ROMDATA F12EarlySampleCoreSupport =
{
#if AGESA_ENTRY_INIT_EARLY == TRUE
F12PowerPlaneInitEarlySampleHook,
#else
(PF_F12_ES_POWER_PLANE_INIT) CommonAssert,
#endif
#if (AGESA_ENTRY_INIT_POST == TRUE) || (AGESA_ENTRY_INIT_RESUME == TRUE) || (AGESA_ENTRY_INIT_RECOVERY == TRUE)
F12NbPstateInitEarlySampleHook
#else
(PF_F12_ES_NB_PSTATE_INIT) CommonAssert
#endif
};
#else
CONST F12_ES_CORE_SUPPORT ROMDATA F12EarlySampleCoreSupport =
{
#if AGESA_ENTRY_INIT_EARLY == TRUE
(PF_F12_ES_POWER_PLANE_INIT) CommonVoid,
#else
(PF_F12_ES_POWER_PLANE_INIT) CommonAssert,
#endif
#if (AGESA_ENTRY_INIT_POST == TRUE) || (AGESA_ENTRY_INIT_RESUME == TRUE) || (AGESA_ENTRY_INIT_RECOVERY == TRUE)
(PF_F12_ES_NB_PSTATE_INIT) CommonVoid
#else
(PF_F12_ES_NB_PSTATE_INIT) CommonAssert
#endif
};
#endif
#define OPT_F12_LN_CPU {AMD_FAMILY_12_LN, &cpuF12LnServices},
#else // OPTION_FAMILY12H_LN == TRUE
#define OPT_F12_LN_CPU
#define OPT_F12_LN_ID
#endif // OPTION_FAMILY12H_LN == TRUE
#else // defined (OPTION_FAMILY12H_LN)
#define OPT_F12_LN_CPU
#define OPT_F12_LN_ID
#endif // defined (OPTION_FAMILY12H_LN)
/*
* Install unknown family 12h support
*/
#if USES_REGISTER_TABLES == TRUE
CONST REGISTER_TABLE ROMDATA *F12UnknownRegisterTables[] =
{
#if BASE_FAMILY_PCI == TRUE
&F12PciRegisterTable,
#endif
#if BASE_FAMILY_PCI == TRUE
&F12PerCorePciRegisterTable,
#endif
#if BASE_FAMILY_MSR == TRUE
&F12MsrRegisterTable,
#endif
// the end.
NULL
};
#endif
#if USES_REGISTER_TABLES == TRUE
CONST TABLE_ENTRY_TYPE_DESCRIPTOR ROMDATA F12UnknownTableEntryTypeDescriptors[] =
{
{MsrRegister, SetRegisterForMsrEntry},
{PciRegister, SetRegisterForPciEntry},
{FamSpecificWorkaround, SetRegisterForFamSpecificWorkaroundEntry},
{ProfileFixup, (PF_DO_TABLE_ENTRY)CommonVoid},
// End
{TableEntryTypeMax, (PF_DO_TABLE_ENTRY)CommonVoid}
};
#endif
CONST CPU_SPECIFIC_SERVICES ROMDATA cpuF12UnknownServices =
{
0,
#if DISABLE_PSTATE == TRUE
F12DisablePstate,
#else
(PF_CPU_DISABLE_PSTATE) CommonAssert,
#endif
#if TRANSITION_PSTATE == TRUE
F12TransitionPstate,
#else
(PF_CPU_TRANSITION_PSTATE) CommonAssert,
#endif
#if PROC_IDD_MAX == TRUE
F12GetProcIddMax,
#else
(PF_CPU_GET_IDD_MAX) CommonAssert,
#endif
#if GET_TSC_RATE == TRUE
F12GetTscRate,
#else
(PF_CPU_GET_TSC_RATE) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F12GetCurrentNbFrequency,
#else
(PF_CPU_GET_NB_FREQ) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F12GetNbPstateInfo,
#else
(PF_CPU_GET_NB_PSTATE_INFO) CommonAssert,
#endif
#if IS_NBCOF_INIT_NEEDED == TRUE
F12GetNbCofVidUpdate,
#else
(PF_CPU_IS_NBCOF_INIT_NEEDED) CommonAssert,
#endif
#if AP_INITIAL_LAUNCH == TRUE
F12LaunchApCore,
#else
(PF_CPU_AP_INITIAL_LAUNCH) CommonAssert,
#endif
#if (BRAND_STRING1 == TRUE) || (BRAND_STRING2 == TRUE)
F12GetNumberOfCoresForBrandstring,
#else
(PF_CPU_NUMBER_OF_BRANDSTRING_CORES) CommonAssert,
#endif
#if GET_AP_MAILBOX_FROM_HW == TRUE
F12GetApMailboxFromHardware,
#else
(PF_CPU_AMD_GET_AP_MAILBOX_FROM_HARDWARE) CommonAssert,
#endif
#if SET_AP_CORE_NUMBER == TRUE
(PF_CPU_SET_AP_CORE_NUMBER) CommonVoid,
#else
(PF_CPU_SET_AP_CORE_NUMBER) CommonAssert,
#endif
#if GET_AP_CORE_NUMBER == TRUE
F12GetApCoreNumber,
#else
(PF_CPU_GET_AP_CORE_NUMBER) CommonAssert,
#endif
#if TRANSFER_AP_CORE_NUMBER == TRUE
(PF_CPU_TRANSFER_AP_CORE_NUMBER) CommonVoid,
#else
(PF_CPU_TRANSFER_AP_CORE_NUMBER) CommonAssert,
#endif
#if ID_POSITION_INITIAL_APICID == TRUE
F12CpuAmdCoreIdPositionInInitialApicId,
#else
(PF_CORE_ID_POSITION_IN_INITIAL_APIC_ID) CommonAssert,
#endif
#if SAVE_FEATURES == TRUE
(PF_CPU_SAVE_FEATURES) CommonVoid,
#else
(PF_CPU_SAVE_FEATURES) CommonAssert,
#endif
#if WRITE_FEATURES == TRUE
(PF_CPU_WRITE_FEATURES) CommonVoid,
#else
(PF_CPU_WRITE_FEATURES) CommonAssert,
#endif
#if SET_WARM_RESET_FLAG == TRUE
F12SetAgesaWarmResetFlag,
#else
(PF_CPU_SET_WARM_RESET_FLAG) CommonAssert,
#endif
#if GET_WARM_RESET_FLAG == TRUE
F12GetAgesaWarmResetFlag,
#else
(PF_CPU_GET_WARM_RESET_FLAG) CommonAssert,
#endif
#if BRAND_STRING1 == TRUE
GetF12BrandIdString1,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if BRAND_STRING2 == TRUE
GetF12BrandIdString2,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES == TRUE
GetEmptyArray,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES_EQUIVALENCE_TABLE == TRUE
GetEmptyArray,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_CACHE_INFO == TRUE
GetF12CacheInfo,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_SYSTEM_PM_TABLE == TRUE
GetF12SysPmTable,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_WHEA_INIT == TRUE
GetF12WheaInitData,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PLATFORM_TYPE_SPECIFIC_INFO == TRUE
F12GetPlatformTypeSpecificInfo,
#else
(PF_CPU_GET_PLATFORM_TYPE_SPECIFIC_INFO) CommonAssert,
#endif
#if IS_NB_PSTATE_ENABLED == TRUE
F12IsNbPstateEnabled,
#else
(PF_IS_NB_PSTATE_ENABLED) CommonAssert,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
(PF_NEXT_LINK_HAS_HTFPY_FEATS) CommonReturnFalse,
#else
(PF_NEXT_LINK_HAS_HTFPY_FEATS) CommonAssert,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
(PF_SET_HT_PHY_REGISTER) CommonVoid,
#else
(PF_SET_HT_PHY_REGISTER) CommonAssert,
#endif
#if BASE_FAMILY_PCI == TRUE
(PF_GET_NEXT_HT_LINK_FEATURES) CommonReturnFalse,
#else
(PF_GET_NEXT_HT_LINK_FEATURES) CommonAssert,
#endif
#if USES_REGISTER_TABLES == TRUE
(REGISTER_TABLE **) F12UnknownRegisterTables,
#else
NULL,
#endif
#if USES_REGISTER_TABLES == TRUE
(TABLE_ENTRY_TYPE_DESCRIPTOR *) F12UnknownTableEntryTypeDescriptors,
#else
NULL,
#endif
#if MODEL_SPECIFIC_HT_PCI == TRUE
NULL,
#else
NULL,
#endif
NULL,
InitCacheDisabled,
#if AGESA_ENTRY_INIT_EARLY == TRUE
GetCommonEarlyInitOnCoreTable
#else
(PF_GET_EARLY_INIT_TABLE) CommonVoid
#endif
};
// Family 12h maximum base address is 40 bits. Limit BLDCFG to 40 bits, if appropriate.
#if (FAMILY_MMIO_BASE_MASK < 0xFFFFFF0000000000ull)
#undef FAMILY_MMIO_BASE_MASK
#define FAMILY_MMIO_BASE_MASK (0xFFFFFF0000000000ull)
#endif
#undef OPT_F12_ID_TABLE
#define OPT_F12_ID_TABLE {0x12, {AMD_FAMILY_12, AMD_F12_UNKNOWN}, F12LogicalIdTable, (sizeof (F12LogicalIdTable) / sizeof (F12LogicalIdTable[0]))},
#define OPT_F12_UNKNOWN_CPU {AMD_FAMILY_12, &cpuF12UnknownServices},
#undef OPT_F12_TABLE
#define OPT_F12_TABLE OPT_F12_LN_CPU OPT_F12_UNKNOWN_CPU
#if OPTION_FS1_SOCKET_SUPPORT == TRUE
#define F12_FS1_BRANDSTRING1 NULL,
#define F12_FS1_BRANDSTRING2 NULL,
#else
#define F12_FS1_BRANDSTRING1
#define F12_FS1_BRANDSTRING2
#endif
#if OPTION_FM1_SOCKET_SUPPORT == TRUE
#define F12_FM1_BRANDSTRING1 NULL,
#define F12_FM1_BRANDSTRING2 NULL,
#else
#define F12_FM1_BRANDSTRING1
#define F12_FM1_BRANDSTRING2
#endif
#if OPTION_FP1_SOCKET_SUPPORT == TRUE
#define F12_FP1_BRANDSTRING1 NULL,
#define F12_FP1_BRANDSTRING2 NULL,
#else
#define F12_FP1_BRANDSTRING1
#define F12_FP1_BRANDSTRING2
#endif
#if BRAND_STRING1 == TRUE
CONST CPU_BRAND_TABLE ROMDATA *F12BrandIdString1Tables[] =
{
F12_FS1_BRANDSTRING1
F12_FM1_BRANDSTRING1
F12_FP1_BRANDSTRING1
};
CONST UINT8 F12BrandIdString1TableCount = (sizeof (F12BrandIdString1Tables) / sizeof (F12BrandIdString1Tables[0]));
#endif
#if BRAND_STRING2 == TRUE
CONST CPU_BRAND_TABLE ROMDATA *F12BrandIdString2Tables[] =
{
F12_FS1_BRANDSTRING2
F12_FM1_BRANDSTRING2
F12_FP1_BRANDSTRING2
};
CONST UINT8 F12BrandIdString2TableCount = (sizeof (F12BrandIdString2Tables) / sizeof (F12BrandIdString2Tables[0]));
#endif
CONST PF_CPU_GET_SUBFAMILY_ID_ARRAY ROMDATA F12LogicalIdTable[] =
{
OPT_F12_LN_ID
};
#endif // _OPTION_FAMILY_12H_INSTALL_H_

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src/vendorcode/amd/agesa/f14/Include/OptionFamily15hInstall.h
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@ -1,717 +0,0 @@
/* $NoKeywords:$ */
/**
* @file
*
* Install of family 15h support
*
* This file generates the defaults tables for family 15h processors.
*
* @xrefitem bom "File Content Label" "Release Content"
* @e project: AGESA
* @e sub-project: Core
* @e \$Revision: 37150 $ @e \$Date: 2010-08-31 23:53:37 +0800 (Tue, 31 Aug 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.
*
* ***************************************************************************
*
*/
#ifndef _OPTION_FAMILY_15H_INSTALL_H_
#define _OPTION_FAMILY_15H_INSTALL_H_
/*
* Pull in family specific services based on entry point
*/
/*
* Common Family 15h routines
*/
extern F_GET_EARLY_INIT_TABLE GetF15EarlyInitOnCoreTable;
extern F_IS_NB_PSTATE_ENABLED F15IsNbPstateEnabled;
/*
* Install family 15h model 0 support
*/
#ifdef OPTION_FAMILY15H_OR
#if OPTION_FAMILY15H_OR == TRUE
extern F_CPU_GET_IDD_MAX F15GetProcIddMax;
extern F_CPU_GET_NB_PSTATE_INFO F15GetNbPstateInfo;
extern F_CPU_IS_NBCOF_INIT_NEEDED F15CommonGetNbCofVidUpdate;
extern F_CPU_DISABLE_PSTATE F15DisablePstate;
extern F_CPU_TRANSITION_PSTATE F15TransitionPstate;
extern F_CPU_GET_TSC_RATE F15GetTscRate;
extern F_CPU_GET_NB_FREQ F15GetCurrentNbFrequency;
extern F_CPU_AP_INITIAL_LAUNCH F15LaunchApCore;
extern F_CPU_NUMBER_OF_BRANDSTRING_CORES F15CommonGetNumberOfCoresForBrandstring;
extern F_CPU_AMD_GET_AP_MAILBOX_FROM_HARDWARE F15GetApMailboxFromHardware;
extern F_CPU_SET_AP_CORE_NUMBER F15SetApCoreNumber;
extern F_CPU_GET_AP_CORE_NUMBER F15GetApCoreNumber;
extern F_CPU_TRANSFER_AP_CORE_NUMBER F15TransferApCoreNumber;
extern F_CORE_ID_POSITION_IN_INITIAL_APIC_ID F15CpuAmdCoreIdPositionInInitialApicId;
extern F_CPU_SAVE_FEATURES F15SaveFeatures;
extern F_CPU_WRITE_FEATURES F15WriteFeatures;
extern F_CPU_SET_WARM_RESET_FLAG F15SetAgesaWarmResetFlag;
extern F_CPU_GET_WARM_RESET_FLAG F15GetAgesaWarmResetFlag;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF15CacheInfo;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF15SysPmTable;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF15WheaInitData;
extern F_CPU_SET_CFOH_REG SetF15CacheFlushOnHaltRegister;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetEmptyArray;
extern F_CPU_GET_PLATFORM_TYPE_SPECIFIC_INFO F15GetPlatformTypeSpecificInfo;
extern F_NEXT_LINK_HAS_HTFPY_FEATS F15NextLinkHasHtPhyFeats;
extern F_SET_HT_PHY_REGISTER F15SetHtPhyRegister;
extern F_GET_NEXT_HT_LINK_FEATURES F15GetNextHtLinkFeatures;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF15OrMicroCodePatchesStruct;
extern F_CPU_GET_FAMILY_SPECIFIC_ARRAY GetF15OrMicrocodeEquivalenceTable;
extern CONST REGISTER_TABLE ROMDATA F15OrPciRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15OrMsrRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15OrSharedMsrRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15OrHtPhyRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15PciRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15MsrRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15HtPhyRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15MultiLinkPciRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15SingleLinkPciRegisterTable;
extern CONST REGISTER_TABLE ROMDATA F15WorkaroundsTable;
extern CONST PACKAGE_HTLINK_MAP_ITEM ROMDATA HtFam15PackageLinkMap[];
/**
* Core Pair and core pair primary determination table.
*
* The two fields from the core pair hardware register can be used to determine whether
* even number cores are primary or all cores are primary. It can be extended if it is
* decided to have other configs as well. The other logically possible value sets are BitMapMapping,
* but they are currently not supported by the processor.
*/
CONST CORE_PAIR_MAP ROMDATA HtFam15CorePairMapping[] =
{
{1, 1, EvenCoresMapping}, ///< 1 Compute Unit with 2 cores
{3, 3, EvenCoresMapping}, ///< 2 Compute Units both with 2 Cores
{7, 7, EvenCoresMapping}, ///< 3 Compute Units all with 2 Cores
{0xF, 0xF, EvenCoresMapping}, ///< 4 Compute Units all with 2 Cores
{1, 0, AllCoresMapping}, ///< 1 Compute Unit with 1 core
{3, 0, AllCoresMapping}, ///< 2 Compute Units both with 1 Core
{7, 0, AllCoresMapping}, ///< 3 Compute Units all with 1 Core
{0xF, 0, AllCoresMapping}, ///< 4 Compute Units all with 1 Core
{HT_LIST_TERMINAL, HT_LIST_TERMINAL, MaxComputeUnitMapping} ///< End
};
#if USES_REGISTER_TABLES == TRUE
CONST REGISTER_TABLE ROMDATA *F15OrRegisterTables[] =
{
#if BASE_FAMILY_PCI == TRUE
&F15PciRegisterTable,
#endif
#if MODEL_SPECIFIC_PCI == TRUE
&F15MultiLinkPciRegisterTable,
#endif
#if MODEL_SPECIFIC_PCI == TRUE
&F15OrPciRegisterTable,
#endif
#if BASE_FAMILY_MSR == TRUE
&F15MsrRegisterTable,
#endif
#if MODEL_SPECIFIC_MSR == TRUE
&F15OrMsrRegisterTable,
#endif
#if MODEL_SPECIFIC_MSR == TRUE
&F15OrSharedMsrRegisterTable,
#endif
#if MODEL_SPECIFIC_HT_PCI == TRUE
&F15HtPhyRegisterTable,
#endif
#if MODEL_SPECIFIC_HT_PCI == TRUE
&F15OrHtPhyRegisterTable,
#endif
#if BASE_FAMILY_WORKAROUNDS == TRUE
&F15WorkaroundsTable,
#endif
// the end.
NULL
};
#endif
#if USES_REGISTER_TABLES == TRUE
CONST TABLE_ENTRY_TYPE_DESCRIPTOR ROMDATA F15OrTableEntryTypeDescriptors[] =
{
{MsrRegister, SetRegisterForMsrEntry},
{PciRegister, SetRegisterForPciEntry},
{FamSpecificWorkaround, SetRegisterForFamSpecificWorkaroundEntry},
{HtPhyRegister, SetRegisterForHtPhyEntry},
{HtPhyRangeRegister, SetRegisterForHtPhyRangeEntry},
{DeemphasisRegister, SetRegisterForDeemphasisEntry},
{HtPhyFreqRegister, SetRegisterForHtPhyFreqEntry},
{ProfileFixup, SetRegisterForPerformanceProfileEntry},
{HtHostPciRegister, SetRegisterForHtHostEntry},
{HtHostPerfPciRegister, SetRegisterForHtHostPerfEntry},
{HtTokenPciRegister, SetRegisterForHtLinkTokenEntry},
{CoreCountsPciRegister, SetRegisterForCoreCountsPerformanceEntry},
{ProcCountsPciRegister, SetRegisterForProcessorCountsEntry},
{CompUnitCountsPciRegister, SetRegisterForComputeUnitCountsEntry},
{TokenPciRegister, SetRegisterForTokenPciEntry},
{HtFeatPciRegister, SetRegisterForHtFeaturePciEntry},
{HtLinkPciRegister, SetRegisterForHtLinkPciEntry},
// End
{TableEntryTypeMax, (PF_DO_TABLE_ENTRY)CommonVoid}
};
#endif
CONST CPU_SPECIFIC_SERVICES ROMDATA cpuF15OrServices =
{
0,
#if DISABLE_PSTATE == TRUE
F15DisablePstate,
#else
(PF_CPU_DISABLE_PSTATE) CommonAssert,
#endif
#if TRANSITION_PSTATE == TRUE
F15TransitionPstate,
#else
(PF_CPU_TRANSITION_PSTATE) CommonAssert,
#endif
#if PROC_IDD_MAX == TRUE
F15GetProcIddMax,
#else
(PF_CPU_GET_IDD_MAX) CommonAssert,
#endif
#if GET_TSC_RATE == TRUE
F15GetTscRate,
#else
(PF_CPU_GET_TSC_RATE) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F15GetCurrentNbFrequency,
#else
(PF_CPU_GET_NB_FREQ) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F15GetNbPstateInfo,
#else
(PF_CPU_GET_NB_PSTATE_INFO) CommonAssert,
#endif
#if IS_NBCOF_INIT_NEEDED == TRUE
F15CommonGetNbCofVidUpdate,
#else
(PF_CPU_IS_NBCOF_INIT_NEEDED) CommonAssert,
#endif
#if AP_INITIAL_LAUNCH == TRUE
F15LaunchApCore,
#else
(PF_CPU_AP_INITIAL_LAUNCH) CommonAssert,
#endif
#if (BRAND_STRING1 == TRUE) || (BRAND_STRING2 == TRUE)
F15CommonGetNumberOfCoresForBrandstring,
#else
(PF_CPU_NUMBER_OF_BRANDSTRING_CORES) CommonAssert,
#endif
#if GET_AP_MAILBOX_FROM_HW == TRUE
F15GetApMailboxFromHardware,
#else
(PF_CPU_AMD_GET_AP_MAILBOX_FROM_HARDWARE) CommonAssert,
#endif
#if SET_AP_CORE_NUMBER == TRUE
F15SetApCoreNumber,
#else
(PF_CPU_SET_AP_CORE_NUMBER) CommonAssert,
#endif
#if GET_AP_CORE_NUMBER == TRUE
F15GetApCoreNumber,
#else
(PF_CPU_GET_AP_CORE_NUMBER) CommonAssert,
#endif
#if TRANSFER_AP_CORE_NUMBER == TRUE
F15TransferApCoreNumber,
#else
(PF_CPU_TRANSFER_AP_CORE_NUMBER) CommonAssert,
#endif
#if ID_POSITION_INITIAL_APICID == TRUE
F15CpuAmdCoreIdPositionInInitialApicId,
#else
(PF_CORE_ID_POSITION_IN_INITIAL_APIC_ID) CommonAssert,
#endif
#if SAVE_FEATURES == TRUE
// F15SaveFeatures,
(PF_CPU_SAVE_FEATURES) CommonVoid,
#else
(PF_CPU_SAVE_FEATURES) CommonAssert,
#endif
#if WRITE_FEATURES == TRUE
// F15WriteFeatures,
(PF_CPU_WRITE_FEATURES) CommonVoid,
#else
(PF_CPU_WRITE_FEATURES) CommonAssert,
#endif
#if SET_WARM_RESET_FLAG == TRUE
F15SetAgesaWarmResetFlag,
#else
(PF_CPU_SET_WARM_RESET_FLAG) CommonAssert,
#endif
#if GET_WARM_RESET_FLAG == TRUE
F15GetAgesaWarmResetFlag,
#else
(PF_CPU_GET_WARM_RESET_FLAG) CommonAssert,
#endif
#if BRAND_STRING1 == TRUE
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonVoid,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if BRAND_STRING2 == TRUE
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonVoid,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES == TRUE
GetF15OrMicroCodePatchesStruct,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES_EQUIVALENCE_TABLE == TRUE
GetF15OrMicrocodeEquivalenceTable,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_CACHE_INFO == TRUE
GetF15CacheInfo,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_SYSTEM_PM_TABLE == TRUE
GetF15SysPmTable,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_WHEA_INIT == TRUE
GetF15WheaInitData,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PLATFORM_TYPE_SPECIFIC_INFO == TRUE
F15GetPlatformTypeSpecificInfo,
#else
(PF_CPU_GET_PLATFORM_TYPE_SPECIFIC_INFO) CommonAssert,
#endif
#if IS_NB_PSTATE_ENABLED == TRUE
F15IsNbPstateEnabled,
#else
(PF_IS_NB_PSTATE_ENABLED) CommonAssert,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
F15NextLinkHasHtPhyFeats,
#else
(PF_NEXT_LINK_HAS_HTFPY_FEATS) CommonReturnFalse,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
F15SetHtPhyRegister,
#else
(PF_SET_HT_PHY_REGISTER) CommonAssert,
#endif
#if BASE_FAMILY_PCI == TRUE
F15GetNextHtLinkFeatures,
#else
(PF_GET_NEXT_HT_LINK_FEATURES) CommonAssert,
#endif
#if USES_REGISTER_TABLES == TRUE
(REGISTER_TABLE **) F15OrRegisterTables,
#else
NULL,
#endif
#if USES_REGISTER_TABLES == TRUE
(TABLE_ENTRY_TYPE_DESCRIPTOR *) F15OrTableEntryTypeDescriptors,
#else
NULL,
#endif
#if MODEL_SPECIFIC_HT_PCI == TRUE
(PACKAGE_HTLINK_MAP) &HtFam15PackageLinkMap,
#else
NULL,
#endif
(CORE_PAIR_MAP *) &HtFam15CorePairMapping,
InitCacheEnabled,
#if AGESA_ENTRY_INIT_EARLY == TRUE
GetF15EarlyInitOnCoreTable
#else
(PF_GET_EARLY_INIT_TABLE) CommonVoid
#endif
};
#define OR_SOCKETS 8
#define OR_MODULES 2
#define OR_RECOVERY_SOCKETS 1
#define OR_RECOVERY_MODULES 1
extern F_CPU_GET_SUBFAMILY_ID_ARRAY GetF15OrLogicalIdAndRev;
#define OPT_F15_OR_ID (PF_CPU_GET_SUBFAMILY_ID_ARRAY) GetF15OrLogicalIdAndRev,
#ifndef ADVCFG_PLATFORM_SOCKETS
#define ADVCFG_PLATFORM_SOCKETS OR_SOCKETS
#else
#if ADVCFG_PLATFORM_SOCKETS < OR_SOCKETS
#undef ADVCFG_PLATFORM_SOCKETS
#define ADVCFG_PLATFORM_SOCKETS OR_SOCKETS
#endif
#endif
#ifndef ADVCFG_PLATFORM_MODULES
#define ADVCFG_PLATFORM_MODULES OR_MODULES
#else
#if ADVCFG_PLATFORM_MODULES < OR_MODULES
#undef ADVCFG_PLATFORM_MODULES
#define ADVCFG_PLATFORM_MODULES OR_MODULES
#endif
#endif
#if GET_PATCHES == TRUE
#define F15_OR_UCODE_09
#if AGESA_ENTRY_INIT_EARLY == TRUE
#if OPTION_EARLY_SAMPLES == TRUE
extern CONST MICROCODE_PATCHES_4K ROMDATA CpuF15OrMicrocodePatch06000009;
#undef F15_OR_UCODE_09
#define F15_OR_UCODE_09 &CpuF15OrMicrocodePatch06000009,
#endif
#endif
CONST MICROCODE_PATCHES_4K ROMDATA *CpuF15OrMicroCodePatchArray[] =
{
F15_OR_UCODE_09
NULL
};
CONST UINT8 ROMDATA CpuF15OrNumberOfMicrocodePatches = (UINT8) ((sizeof (CpuF15OrMicroCodePatchArray) / sizeof (CpuF15OrMicroCodePatchArray[0])) - 1);
#endif
#define OPT_F15_OR_CPU {AMD_FAMILY_15_OR, &cpuF15OrServices},
#else // OPTION_FAMILY15H_OR == TRUE
#define OPT_F15_OR_CPU
#define OPT_F15_OR_ID
#endif // OPTION_FAMILY15H_OR == TRUE
#else // defined (OPTION_FAMILY15H_OR)
#define OPT_F15_OR_CPU
#define OPT_F15_OR_ID
#endif // defined (OPTION_FAMILY15H_OR)
/*
* Install unknown family 15h support
*/
#if USES_REGISTER_TABLES == TRUE
CONST REGISTER_TABLE ROMDATA *F15UnknownRegisterTables[] =
{
#if BASE_FAMILY_PCI == TRUE
&F15PciRegisterTable,
#endif
#if BASE_FAMILY_MSR == TRUE
&F15MsrRegisterTable,
#endif
#if BASE_FAMILY_HT_PCI == TRUE
&F15HtPhyRegisterTable,
#endif
#if OPTION_MULTISOCKET == TRUE
#if MODEL_SPECIFIC_PCI == TRUE
&F15MultiLinkPciRegisterTable,
#endif
#endif
#if OPTION_MULTISOCKET == FALSE
#if MODEL_SPECIFIC_PCI == TRUE
&F15SingleLinkPciRegisterTable,
#endif
#endif
#if BASE_FAMILY_WORKAROUNDS == TRUE
&F15WorkaroundsTable,
#endif
// the end.
NULL
};
#endif
#if USES_REGISTER_TABLES == TRUE
CONST TABLE_ENTRY_TYPE_DESCRIPTOR ROMDATA F15UnknownTableEntryTypeDescriptors[] =
{
{MsrRegister, SetRegisterForMsrEntry},
{PciRegister, SetRegisterForPciEntry},
{FamSpecificWorkaround, SetRegisterForFamSpecificWorkaroundEntry},
{HtPhyRegister, SetRegisterForHtPhyEntry},
{HtPhyRangeRegister, SetRegisterForHtPhyRangeEntry},
{DeemphasisRegister, SetRegisterForDeemphasisEntry},
{ProfileFixup, SetRegisterForPerformanceProfileEntry},
{HtHostPciRegister, SetRegisterForHtHostEntry},
{HtHostPerfPciRegister, SetRegisterForHtHostPerfEntry},
{HtTokenPciRegister, (PF_DO_TABLE_ENTRY)CommonVoid},
{CoreCountsPciRegister, SetRegisterForCoreCountsPerformanceEntry},
{ProcCountsPciRegister, SetRegisterForProcessorCountsEntry},
{CompUnitCountsPciRegister, SetRegisterForComputeUnitCountsEntry},
{HtFeatPciRegister, SetRegisterForHtFeaturePciEntry},
// End
{TableEntryTypeMax, (PF_DO_TABLE_ENTRY)CommonVoid}
};
#endif
CONST CPU_SPECIFIC_SERVICES ROMDATA cpuF15UnknownServices =
{
0,
#if DISABLE_PSTATE == TRUE
F15DisablePstate,
#else
(PF_CPU_DISABLE_PSTATE) CommonAssert,
#endif
#if TRANSITION_PSTATE == TRUE
F15TransitionPstate,
#else
(PF_CPU_TRANSITION_PSTATE) CommonAssert,
#endif
#if PROC_IDD_MAX == TRUE
(PF_CPU_GET_IDD_MAX) CommonReturnFalse,
#else
(PF_CPU_GET_IDD_MAX) CommonAssert,
#endif
#if GET_TSC_RATE == TRUE
F15GetTscRate,
#else
(PF_CPU_GET_TSC_RATE) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F15GetCurrentNbFrequency,
#else
(PF_CPU_GET_NB_FREQ) CommonAssert,
#endif
#if GET_NB_FREQ == TRUE
F15GetNbPstateInfo,
#else
(PF_CPU_GET_NB_PSTATE_INFO) CommonAssert,
#endif
#if IS_NBCOF_INIT_NEEDED == TRUE
(PF_CPU_IS_NBCOF_INIT_NEEDED) CommonReturnFalse,
#else
(PF_CPU_IS_NBCOF_INIT_NEEDED) CommonAssert,
#endif
#if AP_INITIAL_LAUNCH == TRUE
F15LaunchApCore,
#else
(PF_CPU_AP_INITIAL_LAUNCH) CommonAssert,
#endif
#if (BRAND_STRING1 == TRUE) || (BRAND_STRING2 == TRUE)
(PF_CPU_NUMBER_OF_BRANDSTRING_CORES) CommonVoid,
#else
(PF_CPU_NUMBER_OF_BRANDSTRING_CORES) CommonAssert,
#endif
#if GET_AP_MAILBOX_FROM_HW == TRUE
F15GetApMailboxFromHardware,
#else
(PF_CPU_AMD_GET_AP_MAILBOX_FROM_HARDWARE) CommonAssert,
#endif
#if SET_AP_CORE_NUMBER == TRUE
F15SetApCoreNumber,
#else
(PF_CPU_SET_AP_CORE_NUMBER) CommonAssert,
#endif
#if GET_AP_CORE_NUMBER == TRUE
F15GetApCoreNumber,
#else
(PF_CPU_GET_AP_CORE_NUMBER) CommonAssert,
#endif
#if TRANSFER_AP_CORE_NUMBER == TRUE
F15TransferApCoreNumber,
#else
(PF_CPU_TRANSFER_AP_CORE_NUMBER) CommonAssert,
#endif
#if ID_POSITION_INITIAL_APICID == TRUE
F15CpuAmdCoreIdPositionInInitialApicId,
#else
(PF_CORE_ID_POSITION_IN_INITIAL_APIC_ID) CommonAssert,
#endif
#if SAVE_FEATURES == TRUE
// F15SaveFeatures,
(PF_CPU_SAVE_FEATURES) CommonVoid,
#else
(PF_CPU_SAVE_FEATURES) CommonAssert,
#endif
#if WRITE_FEATURES == TRUE
// F15WriteFeatures,
(PF_CPU_WRITE_FEATURES) CommonVoid,
#else
(PF_CPU_WRITE_FEATURES) CommonAssert,
#endif
#if SET_WARM_RESET_FLAG == TRUE
F15SetAgesaWarmResetFlag,
#else
(PF_CPU_SET_WARM_RESET_FLAG) CommonAssert,
#endif
#if GET_WARM_RESET_FLAG == TRUE
F15GetAgesaWarmResetFlag,
#else
(PF_CPU_GET_WARM_RESET_FLAG) CommonAssert,
#endif
#if BRAND_STRING1 == TRUE
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonVoid,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if BRAND_STRING2 == TRUE
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonVoid,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES == TRUE
GetEmptyArray,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PATCHES_EQUIVALENCE_TABLE == TRUE
GetEmptyArray,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_CACHE_INFO == TRUE
GetF15CacheInfo,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_SYSTEM_PM_TABLE == TRUE
GetF15SysPmTable,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_WHEA_INIT == TRUE
GetF15WheaInitData,
#else
(PF_CPU_GET_FAMILY_SPECIFIC_ARRAY) CommonAssert,
#endif
#if GET_PLATFORM_TYPE_SPECIFIC_INFO == TRUE
F15GetPlatformTypeSpecificInfo,
#else
(PF_CPU_GET_PLATFORM_TYPE_SPECIFIC_INFO) CommonAssert,
#endif
#if IS_NB_PSTATE_ENABLED == TRUE
F15IsNbPstateEnabled,
#else
(PF_IS_NB_PSTATE_ENABLED) CommonAssert,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
F15NextLinkHasHtPhyFeats,
#else
(PF_NEXT_LINK_HAS_HTFPY_FEATS) CommonReturnFalse,
#endif
#if (BASE_FAMILY_HT_PCI == TRUE)
F15SetHtPhyRegister,
#else
(PF_SET_HT_PHY_REGISTER) CommonVoid,
#endif
#if BASE_FAMILY_PCI == TRUE
F15GetNextHtLinkFeatures,
#else
(PF_GET_NEXT_HT_LINK_FEATURES) CommonAssert,
#endif
#if USES_REGISTER_TABLES == TRUE
(REGISTER_TABLE **) F15UnknownRegisterTables,
#else
NULL,
#endif
#if USES_REGISTER_TABLES == TRUE
(TABLE_ENTRY_TYPE_DESCRIPTOR *) F15UnknownTableEntryTypeDescriptors,
#else
NULL,
#endif
NULL,
NULL,
InitCacheEnabled,
#if AGESA_ENTRY_INIT_EARLY == TRUE
GetF15EarlyInitOnCoreTable
#else
(PF_GET_EARLY_INIT_TABLE) CommonVoid
#endif
};
// Family 15h maximum base address is 48 bits. Limit BLDCFG to 48 bits, if appropriate.
#if (FAMILY_MMIO_BASE_MASK < 0xFFFF000000000000ull)
#undef FAMILY_MMIO_BASE_MASK
#define FAMILY_MMIO_BASE_MASK (0xFFFF000000000000ull)
#endif
#undef OPT_F15_ID_TABLE
#define OPT_F15_ID_TABLE {0x15, {AMD_FAMILY_15, AMD_F15_UNKNOWN}, F15LogicalIdTable, (sizeof (F15LogicalIdTable) / sizeof (F15LogicalIdTable[0]))},
#define OPT_F15_UNKNOWN_CPU {AMD_FAMILY_15, &cpuF15UnknownServices},
#undef OPT_F15_TABLE
#define OPT_F15_TABLE OPT_F15_OR_CPU OPT_F15_UNKNOWN_CPU
#if OPTION_G34_SOCKET_SUPPORT == TRUE
#define F15_G34_BRANDSTRING1 NULL,
#define F15_G34_BRANDSTRING2 NULL,
#else
#define F15_G34_BRANDSTRING1
#define F15_G34_BRANDSTRING2
#endif
#if OPTION_C32_SOCKET_SUPPORT == TRUE
#define F15_C32_BRANDSTRING1 NULL,
#define F15_C32_BRANDSTRING2 NULL,
#else
#define F15_C32_BRANDSTRING1
#define F15_C32_BRANDSTRING2
#endif
#if OPTION_AM3_SOCKET_SUPPORT == TRUE
#define F15_AM3_BRANDSTRING1 NULL,
#define F15_AM3_BRANDSTRING2 NULL,
#else
#define F15_AM3_BRANDSTRING1
#define F15_AM3_BRANDSTRING2
#endif
#if BRAND_STRING1 == TRUE
CONST CPU_BRAND_TABLE ROMDATA *F15BrandIdString1Tables[] =
{
F15_G34_BRANDSTRING1
F15_C32_BRANDSTRING1
F15_AM3_BRANDSTRING1
};
CONST UINT8 F15BrandIdString1TableCount = (sizeof (F15BrandIdString1Tables) / sizeof (F15BrandIdString1Tables[0]));
#endif
#if BRAND_STRING2 == TRUE
CONST CPU_BRAND_TABLE ROMDATA *F15BrandIdString2Tables[] =
{
F15_G34_BRANDSTRING2
F15_C32_BRANDSTRING2
F15_AM3_BRANDSTRING2
};
CONST UINT8 F15BrandIdString2TableCount = (sizeof (F15BrandIdString2Tables) / sizeof (F15BrandIdString2Tables[0]));
#endif
CONST PF_CPU_GET_SUBFAMILY_ID_ARRAY ROMDATA F15LogicalIdTable[] =
{
OPT_F15_OR_ID
};
#endif // _OPTION_FAMILY_15H_INSTALL_H_