/* $NoKeywords:$ */
/**
* @file
*
* Agesa structures and definitions
*
* Contains AMD AGESA core interface
*
* @xrefitem bom "File Content Label" "Release Content"
* @e project: AGESA
* @e sub-project: Include
* @e \$Revision: 296129 $ @e \$Date: 2014-06-23 09:45:14 -0500 (Mon, 23 Jun 2014) $
*/
/*****************************************************************************
*
* 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.
*
***************************************************************************/
#ifndef _AGESA_H_
#define _AGESA_H_
#include "Porting.h"
#include "AMD.h"
//
//
// AGESA Types and Definitions
//
//
// AGESA BASIC CALLOUTS
#define AGESA_MEM_RELEASE 0x00028000ul
// AGESA ADVANCED CALLOUTS, Processor
#define AGESA_CHECK_UMA 0x00028100ul
#define AGESA_DO_RESET 0x00028101ul
#define AGESA_ALLOCATE_BUFFER 0x00028102ul
#define AGESA_DEALLOCATE_BUFFER 0x00028103ul
#define AGESA_LOCATE_BUFFER 0x00028104ul
#define AGESA_RUNFUNC_ONAP 0x00028105ul
// AGESA ADVANCED CALLOUTS, Memory
#define AGESA_READ_SPD 0x00028140ul
#define AGESA_HOOKBEFORE_DRAM_INIT 0x00028141ul
#define AGESA_HOOKBEFORE_DQS_TRAINING 0x00028142ul
#define AGESA_READ_SPD_RECOVERY 0x00028143ul
#define AGESA_HOOKBEFORE_EXIT_SELF_REF 0x00028144ul
#define AGESA_HOOKBEFORE_DRAM_INIT_RECOVERY 0x00028145ul
#define AGESA_EXTERNAL_2D_TRAIN_VREF_CHANGE 0x00028146ul
#define AGESA_EXTERNAL_VOLTAGE_ADJUST 0x00028147ul
// AGESA IDS CALLOUTS
#define AGESA_GET_IDS_INIT_DATA 0x00028200ul
// AGESA GNB CALLOUTS
#define AGESA_GNB_PCIE_SLOT_RESET 0x00028301ul
#define AGESA_GNB_GFX_GET_VBIOS_IMAGE 0x00028302ul
#define AGESA_GNB_PCIE_CLK_REQ 0x00028303ul
// AGESA FCH CALLOUTS
#define AGESA_FCH_OEM_CALLOUT 0x00028401ul
//-----------------------------------------------------------------------------
// FCH DEFINITIONS AND MACROS
//
//-----------------------------------------------------------------------------
/// Configuration values for SdConfig
typedef enum {
SdDisable = 0, ///< Disabled
SdAmda, ///< AMDA, set 24,18,16, default
SdDma, ///< DMA clear 24, 16, set 18
SdPio, ///< PIO clear 24,18,16
SdDump ///< SD DUMP, don't touch SD
} SD_MODE;
/// Configuration values for SdClockControl
typedef enum {
Sd50MhzTraceCableLengthWithinSixInches = 4, ///< 50Mhz, default
Sd40MhzTraceCableLengthSix2ElevenInches = 6, ///< 40Mhz
Sd25MhzTraceCableLengthEleven2TwentyfourInches = 7, ///< 25Mhz
} SD_CLOCK_CONTROL;
/// Configuration values for AzaliaController
typedef enum {
AzAuto = 0, ///< Auto - Detect Azalia controller automatically
AzDisable, ///< Diable - Disable Azalia controller
AzEnable ///< Enable - Enable Azalia controller
} HDA_CONFIG;
/// Configuration values for IrConfig
typedef enum {
IrDisable = 0, ///< Disable
IrRxTx0 = 1, ///< Rx and Tx0
IrRxTx1 = 2, ///< Rx and Tx1
IrRxTx0Tx1 = 3 ///< Rx and both Tx0,Tx1
} IR_CONFIG;
/// Configuration values for SataClass
typedef enum {
SataNativeIde = 0, ///< Native IDE mode
SataRaid, ///< RAID mode
SataAhci, ///< AHCI mode
SataLegacyIde, ///< Legacy IDE mode
SataIde2Ahci, ///< IDE->AHCI mode
SataAhci7804, ///< AHCI mode as 7804 ID (AMD driver)
SataIde2Ahci7804 ///< IDE->AHCI mode as 7804 ID (AMD driver)
} SATA_CLASS;
/// Configuration values for BLDCFG_FCH_GPP_LINK_CONFIG
typedef enum {
PortA4 = 0, ///< 4:0:0:0
PortA2B2 = 2, ///< 2:2:0:0
PortA2B1C1 = 3, ///< 2:1:1:0
PortA1B1C1D1 = 4 ///< 1:1:1:1
} GPP_LINKMODE;
/// Configuration values for FchPowerFail
typedef enum {
AlwaysOff = 0, ///< Always power off after power resumes
AlwaysOn = 1, ///< Always power on after power resumes
UsePrevious = 3, ///< Resume to same setting when power fails
} POWER_FAIL;
/// Configuration values for SATA Link Speed
typedef enum {
Gen1 = 1, ///< SATA port GEN1 speed
Gen2 = 2, ///< SATA port GEN2 speed
Gen3 = 3, ///< SATA port GEN3 speed
} SATA_SPEED;
/// Configuration values for GPIO function
typedef enum {
Function0 = 0, ///< GPIO Function 1
Function1 = 1, ///< GPIO Function 1
Function2 = 2, ///< GPIO Function 2
Function3 = 3, ///< GPIO Function 3
} GPIO_FUN;
/// Configuration values for memory phy voltage (VDDR)
typedef enum {
VOLT0_95, ///< VDDR 0.95V
VOLT1_05, ///< VDDR 1.05V
MAX_VDDR ///< Maxmum value for this enum definition
} MEMORY_PHY_VOLTAGE;
/// Configuration values for GPIO_CFG
typedef enum {
OwnedByEc = 1 << 0, ///< This bit can only be written by EC
OwnedByHost = 1 << 1, ///< This bit can only be written by host (BIOS)
Sticky = 1 << 2, ///< If set, [6:3] are sticky
PullUpB = 1 << 3, ///< 0: Pullup enable; 1: Pullup disabled
PullDown = 1 << 4, ///< 0: Pulldown disabled; 1: Pulldown enable
GpioOutEnB = 1 << 5, ///< 0: Output enable; 1: Output disable
GpioOut = 1 << 6, ///< Output state when GpioOutEnB is 0
GpioIn = 1 << 7, ///< This bit is read only - current pin state
} CFG_BYTE;
/// FCH GPIO CONTROL
typedef struct {
IN UINT8 GpioPin; ///< Gpio Pin, valid range: 0-67, 128-150, 160-228
IN GPIO_FUN PinFunction; ///< Multi-function selection
IN CFG_BYTE CfgByte; ///< GPIO Register value
} GPIO_CONTROL;
///
/// FCH SCI MAP CONTROL
///
typedef struct {
IN UINT8 InputPin; ///< Input Pin, valid range 0-63
IN UINT8 GpeMap; ///< Gpe Map, valid range 0-31
} SCI_MAP_CONTROL;
///
/// FCH SATA PHY CONTROL
///
typedef struct {
IN BOOLEAN CommonPhy; ///< Common PHY or not
///< @li FALSE - Only applied to specified port
///< @li TRUE - Apply to all SATA ports
IN SATA_SPEED Gen; ///< SATA speed
IN UINT8 Port; ///< Port number, valid range: 0-7
IN UINT32 PhyData; ///< SATA PHY data, valid range: 0-0xFFFFFFFF
} SATA_PHY_CONTROL;
///
/// FCH Component Data Structure in InitReset stage
///
typedef struct {
IN BOOLEAN UmiGen2; ///< Enable Gen2 data rate of UMI
///< @li FALSE - Disable Gen2
///< @li TRUE - Enable Gen2
IN BOOLEAN SataEnable; ///< SATA controller function
///< @li FALSE - SATA controller is disabled
///< @li TRUE - SATA controller is enabled
IN BOOLEAN IdeEnable; ///< SATA IDE controller mode enabled/disabled
///< @li FALSE - IDE controller is disabled
///< @li TRUE - IDE controller is enabled
IN BOOLEAN GppEnable; ///< Master switch of GPP function
///< @li FALSE - GPP disabled
///< @li TRUE - GPP enabled
IN BOOLEAN Xhci0Enable; ///< XHCI0 controller function
///< @li FALSE - XHCI0 controller disabled
///< @li TRUE - XHCI0 controller enabled
IN BOOLEAN Xhci1Enable; ///< XHCI1 controller function
///< @li FALSE - XHCI1 controller disabled
///< @li TRUE - XHCI1 controller enabled
} FCH_RESET_INTERFACE;
///
/// FCH Component Data Structure from InitEnv stage
///
typedef struct {
IN SD_MODE SdConfig; ///< Secure Digital (SD) controller mode
IN HDA_CONFIG AzaliaController; ///< Azalia HD Audio Controller
IN IR_CONFIG IrConfig; ///< Infrared (IR) Configuration
IN BOOLEAN UmiGen2; ///< Enable Gen2 data rate of UMI
///< @li FALSE - Disable Gen2
///< @li TRUE - Enable Gen2
IN SATA_CLASS SataClass; ///< SATA controller mode
IN BOOLEAN SataEnable; ///< SATA controller function
///< @li FALSE - SATA controller is disabled
///< @li TRUE - SATA controller is enabled
IN BOOLEAN IdeEnable; ///< SATA IDE controller mode enabled/disabled
///< @li FALSE - IDE controller is disabled
///< @li TRUE - IDE controller is enabled
IN BOOLEAN SataIdeMode; ///< Native mode of SATA IDE controller
///< @li FALSE - Legacy IDE mode
///< @li TRUE - Native IDE mode
IN BOOLEAN Ohci1Enable; ///< OHCI controller #1 Function
///< @li FALSE - OHCI1 is disabled
///< @li TRUE - OHCI1 is enabled
IN BOOLEAN Ohci2Enable; ///< OHCI controller #2 Function
///< @li FALSE - OHCI2 is disabled
///< @li TRUE - OHCI2 is enabled
IN BOOLEAN Ohci3Enable; ///< OHCI controller #3 Function
///< @li FALSE - OHCI3 is disabled
///< @li TRUE - OHCI3 is enabled
IN BOOLEAN Ohci4Enable; ///< OHCI controller #4 Function
///< @li FALSE - OHCI4 is disabled
///< @li TRUE - OHCI4 is enabled
IN BOOLEAN GppEnable; ///< Master switch of GPP function
///< @li FALSE - GPP disabled
///< @li TRUE - GPP enabled
IN POWER_FAIL FchPowerFail; ///< FCH power failure option
} FCH_INTERFACE;
/*----------------------------------------------------------------------------
* CPU Feature related info
*----------------------------------------------------------------------------
*/
/// Build Configuration values for BLDCFG_PLATFORM_CONNECTED_STANDBY_MODE
typedef enum {
ConnectedStandbyAuto = 0, ///< Auto
ConnectedStandbyDisabled = 1, ///< Disabled
MaxConnectedStandbyMode = 2 ///< Not a valid value, used for verifying input
} PLATFORM_CONNECTED_STANDBY_MODES;
/// Build Configuration values for BLDCFG_PLATFORM_CSTATE_MODE
typedef enum {
CStateModeDisabled = 0, ///< Disabled
CStateModeC6 = 1, ///< C6 State
MaxCStateMode = 2 ///< Not a valid value, used for verifying input
} PLATFORM_CSTATE_MODES;
/// Build Configuration values for BLDCFG_PLATFORM_CPB_MODE
typedef enum {
CpbModeAuto = 0, ///< Auto
CpbModeDisabled = 1, ///< Disabled
MaxCpbMode = 2 ///< Not a valid value, used for verifying input
} PLATFORM_CPB_MODES;
/// Build Configuration values for BLDCFG_LOW_POWER_PSTATE_FOR_PROCHOT_MODE
typedef enum {
LOW_POWER_PSTATE_FOR_PROCHOT_AUTO = 0, ///< Auto
LOW_POWER_PSTATE_FOR_PROCHOT_DISABLE = 1, ///< Disabled
MAX_LOW_POWER_PSTATE_FOR_PROCHOT_MODE = 2 ///< Not a valid value, used for verifying input
} PLATFORM_LOW_POWER_PSTATE_MODES;
/// Build Configuration values for BLDCFG_ACPI_PSTATES_PSD_POLICY
#define PsdPolicyProcessorDefault 0 ///< PSD is dependent or independent per processor default
#define PsdPolicyDependent 1 ///< PSD is forced dependent
#define PsdPolicyIndependent 2 ///< PSD is forced independent
#define PsdPolicyMax 3 ///< Not a valid value, used for verifying input
/*----------------------------------------------------------------------------
* GNB PCIe configuration info
*----------------------------------------------------------------------------
*/
// Event definitions
#define GNB_EVENT_INVALID_CONFIGURATION 0x20010000ul // User configuration invalid
#define GNB_EVENT_INVALID_PCIE_TOPOLOGY_CONFIGURATION 0x20010001ul // Requested lane allocation for PCIe port can not be supported
#define GNB_EVENT_INVALID_PCIE_PORT_CONFIGURATION 0x20010002ul // Requested incorrect PCIe port device address
#define GNB_EVENT_INVALID_DDI_LINK_CONFIGURATION 0x20010003ul // Incorrect parameter in DDI link configuration
#define GNB_EVENT_INVALID_LINK_WIDTH_CONFIGURATION 0x20010004ul // Invalid with for PCIe port or DDI link
#define GNB_EVENT_INVALID_LANES_CONFIGURATION 0x20010005ul // Lane double subscribe lanes
#define GNB_EVENT_INVALID_DDI_TOPOLOGY_CONFIGURATION 0x20010006ul // Requested lane allocation for DDI link(s) can not be supported
#define GNB_EVENT_LINK_TRAINING_FAIL 0x20020000ul // PCIe Link training fail
#define GNB_EVENT_BROKEN_LANE_RECOVERY 0x20030000ul // Broken lane workaround applied to recover link training
#define GNB_EVENT_GEN2_SUPPORT_RECOVERY 0x20040000ul // Scale back to GEN1 to recover link training
#define DESCRIPTOR_TERMINATE_LIST 0x80000000ull
#define DESCRIPTOR_IGNORE 0x40000000ull
/// PCIe link initialization
typedef enum {
EndpointDetect = 0, ///< Detect endpoint presence
EndpointNotPresent ///< Endpoint not present (or connected). Used in case there is alternative way to determine
///< if device present on board or in slot. For example GPIO can be used to determine device presence.
} PCIE_ENDPOINT_STATUS;
/// PCIe port misc extended controls
typedef struct {
IN UINT8 LinkComplianceMode :1; ///< Force port into compliance mode (device will not be trained, port output compliance pattern)
IN UINT8 LinkSafeMode :2; /**< Safe mode PCIe capability. (Parameter may limit PCIe speed requested through PCIe_PORT_DATA::LinkSpeedCapability)
* @li @b 0 - port can advertize muximum supported capability
* @li @b 1 - port limit advertized capability and speed to PCIe Gen1
*/
IN UINT8 SbLink :1; /**< PCIe link type
* @li @b 0 - General purpose port
* @li @b 1 - Port connected to SB
*/
IN UINT8 ClkPmSupport :1; /**< Clock Power Management Support
* @li @b 0 - Clock Power Management not configured
* @li @b 1 - Clock Power Management configured according to PCIe device capability
*/
} PCIe_PORT_MISC_CONTROL;
/// The IO APIC Interrupt Mapping Info
typedef struct {
IN UINT8 GroupMap; /**< Group mapping for slot or endpoint device (connected to PCIE port) interrupts .
* @li 0 - IGNORE THIS STRUCTURE AND USE RECOMMENDED SETTINGS
* @li 1 - mapped to Grp 0 (Interrupts 0..3 of IO APIC redirection table)
* @li 2 - mapped to Grp 1 (Interrupts 4..7 of IO APIC redirection table)
* @li ...
* @li 8 - mapped to Grp 7 (Interrupts 28..31 of IO APIC redirection table)
*/
IN UINT8 Swizzle; /**< Swizzle interrupt in the Group.
* @li 0 - ABCD
* @li 1 - BCDA
* @li 2 - CDAB
* @li 3 - DABC
*/
IN UINT8 BridgeInt; /**< IOAPIC redirection table entry for PCIE bridge interrupt
* @li 0 - Entry 0 of IO APIC redirection table
* @li 1 - Entry 1 of IO APIC redirection table
* @li ...
* @li 31 - Entry 31 of IO APIC redirection table
*/
} APIC_DEVICE_INFO;
/// Initial Offset Calibration Control
typedef enum {
ADAPT_IOC_DISABLED = 0, ///< Initial Offset Calibration Disabled
ADAPT_IOC_ENABLED ///< Initial Offset Calibration Enabled
} ADAPT_IOC_CONTROL;
/// DFE Control values
typedef enum {
ADAPT_DFE_CONTROL_DISABLED = 0, ///< DFE Disabled
ADAPD_DFE_CONTROL_1TAP_DFE = 4, ///< 1-tap DFE
ADAPD_DFE_CONTROL_1TAP_DFE_FBF, ///< 1-tap DFE with Future Bit Filtering
ADAPD_DFE_CONTROL_2TAP_DFE, ///< 2-tap DFE
ADAPD_DFE_CONTROL_2TAP_DFE_FBF ///< 2-tap DFE with Future Bit Filtering
} ADAPT_DFE_CONTROL;
/// LEQ Control values
typedef enum {
ADAPT_LEQ_CONTROL_DISABLED = 0, ///< LEQ Disabled
ADAPT_LEQ_CONTROL_DC_GAIN = 2, ///< DC Gain Adaptation
ADAPT_LEQ_CONTROL_DC_GAIN_POLE ///< DC Gain and Pole Adaptation
} ADAPT_LEQ_CONTROL;
/// Dynamic Offset Calibration Control
typedef enum {
ADAPT_DOC_DISABLED = 0, ///< Dynamic Offset Calibration Disabled
ADAPT_DOC_ENABLED ///< Dynamic Offset Calibration Enabled
} ADAPT_DOC_CONTROL;
/// FOM Calculation Control
typedef enum {
ADAPT_FOMC_DISABLED = 0, ///< FOM Calculation Disabled
ADAPT_FOMC_ENABLED ///< FOM Calculation Enabled
} ADAPT_FOMC_CONTROL;
/// PI Offset Calibration Control
typedef enum {
ADAPT_PIOC_DISABLED = 0, ///< PI Offset Calibration Disabled
ADAPT_PIOC_ENABLED ///< PI Offset Calibration Enabled
} ADAPT_PIOC_CONTROL;
/// GEN3 RxAdaptMode Configuration Structure
typedef struct {
IN BOOLEAN InitOffsetCancellation; ///< Initial Offset Cancellation Enable
IN UINT8 DFEControl; ///< DFE Control
IN UINT8 LEQControl; ///< LEQ Control
IN BOOLEAN DynamicOffsetCalibration; ///< Dynamic Offset Calibration Enable
IN BOOLEAN FOMCalculation; ///< FOM Calculation Enable
IN BOOLEAN PIOffsetCalibration; ///< PI Offset Calibratino Enable
} RX_ADAPT_MODE;
/// PCIe port configuration data
typedef struct {
IN UINT8 PortPresent; ///< Enable PCIe port for initialization.
IN UINT8 ChannelType; /**< Channel type.
* @li @b 0 - "lowLoss",
* @li @b 1 - "highLoss",
* @li @b 2 - "mob0db",
* @li @b 3 - "mob3db",
* @li @b 4 - "extnd6db"
* @li @b 5 - "extnd8db"
*/
IN UINT8 DeviceNumber; /**< PCI Device number for port.
* @li @b 0 - Native port device number
* @li @b N - Port device number (See available configurations in BKDG
*/
IN UINT8 FunctionNumber; ///< Reserved for future use
IN UINT8 LinkSpeedCapability; /**< PCIe link speed/
* @li @b 0 - Maximum supported by silicon
* @li @b 1 - Gen1
* @li @b 2 - Gen2
* @li @b 3 - Gen3
*/
IN UINT8 LinkAspm; /**< ASPM control. (see AgesaPcieLinkAspm for additional option to control ASPM)
* @li @b 0 - Disabled
* @li @b 1 - L0s only
* @li @b 2 - L1 only
* @li @b 3 - L0s and L1
*/
IN UINT8 LinkHotplug; /**< Hotplug control.
* @li @b 0 - Disabled
* @li @b 1 - Basic
* @li @b 2 - Server
* @li @b 3 - Enhanced
*/
IN UINT8 ResetId; /**< Arbitrary number greater than 0 assigned by platform firmware for GPIO
* identification which control reset for given port.
* Each port with unique GPIO should have unique ResetId assigned.
* All ports use same GPIO to control reset should have same ResetId assigned.
* see AgesaPcieSlotResetContol.
*/
IN PCIe_PORT_MISC_CONTROL MiscControls; ///< Misc extended controls
IN APIC_DEVICE_INFO ApicDeviceInfo; ///< IOAPIC device programming info
IN PCIE_ENDPOINT_STATUS EndpointStatus; ///< PCIe endpoint (device connected to PCIe port) status
IN RX_ADAPT_MODE RxAdaptMode; ///< Gen3 RxAdaptMode configuration
} PCIe_PORT_DATA;
/// DDI channel lane mapping
typedef struct { ///< Structure that discribe lane mapping
IN UINT8 Lane0 :2; /**< Lane 0 mapping
* @li @b 0 - Map to lane 0
* @li @b 1 - Map to lane 1
* @li @b 2 - Map to lane 2
* @li @b 3 - Map to lane 3
*/
IN UINT8 Lane1 :2; ///< Lane 1 mapping (see "Lane 0 mapping")
IN UINT8 Lane2 :2; ///< Lane 2 mapping (see "Lane 0 mapping")
IN UINT8 Lane3 :2; ///< Lane 3 mapping (see "Lane 0 mapping")
} CHANNEL_MAPPING; ///< Lane mapping
/// Common Channel Mapping
typedef union {
IN UINT8 ChannelMappingValue; ///< Raw lane mapping
IN CHANNEL_MAPPING ChannelMapping; ///< Channel mapping
} CONN_CHANNEL_MAPPING;
/// DDI Configuration data
typedef struct {
IN UINT8 ConnectorType; /**< Display Connector Type
* @li @b 0 - DP
* @li @b 1 - eDP
* @li @b 2 - Single Link DVI-D
* @li @b 3 - Dual Link DVI-D (see @ref DualLinkDviDescription "Example Dual Link DVI connector description")
* @li @b 4 - HDMI
* @li @b 5 - DP-to-VGA
* @li @b 6 - DP-to-LVDS
* @li @b 7 - Hudson-2 NutMeg DP-to-VGA
* @li @b 8 - Single Link DVI-I
* @li @b 9 - Native CRT (Family 0x14)
* @li @b 10 - Native LVDS (Family 0x14)
* @li @b 11 - Auto detect LCD panel connector type. VBIOS is able to auto detect the LVDS connector type: native LVDS, eDP or DP-to-LVDS
* The auto detection method only support panel with EDID.
*/
IN UINT8 AuxIndex; /**< Indicates which AUX or DDC Line is used
* @li @b 0 - AUX1
* @li @b 1 - AUX2
* @li @b 2 - AUX3
* @li @b 3 - AUX4
* @li @b 4 - AUX5
* @li @b 5 - AUX6
*/
IN UINT8 HdpIndex; /**< Indicates which HDP pin is used
* @li @b 0 - HDP1
* @li @b 1 - HDP2
* @li @b 2 - HDP3
* @li @b 3 - HDP4
* @li @b 4 - HDP5
* @li @b 5 - HDP6
*/
IN CONN_CHANNEL_MAPPING Mapping[2]; /**< Set specific mapping of lanes to connector pins
* @li Mapping[0] define mapping for group of 4 lanes starting at PCIe_ENGINE_DATA.StartLane
* @li Mapping[1] define mapping for group of 4 lanes ending at PCIe_ENGINE_DATA.EndLane (only applicable for Dual DDI link)
* if Mapping[x] set to 0 than default mapping assumed
*/
IN UINT8 LanePnInversionMask; /**< Specifies whether to invert the state of P and N for each lane. Each bit represents a PCIe lane on the DDI port.
* @li 0 - Do not invert (default)
* @li 1 - Invert P and N on this lane
*/
IN UINT8 Flags; /**< Capabilities flags
* @li Flags bit[0] DDI_DATA_FLAGS_DP1_1_ONLY Selects downgrade PHY link to DP1.1
* @li Flags bit[7:1] Reserved
*/
} PCIe_DDI_DATA;
/// Engine Configuration
typedef struct {
IN UINT8 EngineType; /**< Engine type
* @li @b 0 - Ignore engine configuration
* @li @b 1 - PCIe port
* @li @b 2 - DDI
*/
IN UINT16 StartLane; /**< Start Lane ID (in reversed configuration StartLane > EndLane)
* Refer to lane descriptions and supported configurations in BKDG
*/
IN UINT16 EndLane; /**< End lane ID (in reversed configuration StartLane > EndLane)
* Refer to lane descriptions and supported configurations in BKDG
*/
} PCIe_ENGINE_DATA;
/// PCIe port descriptor
typedef struct {
IN UINT32 Flags; /**< Descriptor flags
* @li @b Bit31 - last descriptor in complex
*/
IN PCIe_ENGINE_DATA EngineData; ///< Engine data
IN PCIe_PORT_DATA Port; ///< PCIe port specific configuration info
} PCIe_PORT_DESCRIPTOR;
/// DDI descriptor
typedef struct {
IN UINT32 Flags; /**< Descriptor flags
* @li @b Bit31 - last descriptor in complex
*/
IN PCIe_ENGINE_DATA EngineData; ///< Engine data
IN PCIe_DDI_DATA Ddi; ///< DDI port specific configuration info
} PCIe_DDI_DESCRIPTOR;
/// PCIe Complex descriptor
typedef struct {
IN UINT32 Flags; /**< Descriptor flags
* @li @b Bit31 - last descriptor in topology
*/
IN UINT32 SocketId; ///< Socket Id
IN CONST PCIe_PORT_DESCRIPTOR *PciePortList; ///< Pointer to array of PCIe port descriptors or NULL (Last element of array must be terminated with DESCRIPTOR_TERMINATE_LIST).
IN CONST PCIe_DDI_DESCRIPTOR *DdiLinkList; ///< Pointer to array DDI link descriptors (Last element of array must be terminated with DESCRIPTOR_TERMINATE_LIST).
IN VOID *Reserved; ///< Reserved for future use
} PCIe_COMPLEX_DESCRIPTOR;
/// Action to control PCIe slot reset
typedef enum {
AssertSlotReset, ///< Assert slot reset
DeassertSlotReset ///< Deassert slot reset
} PCIE_RESET_CONTROL;
///Slot Reset Info
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN UINT8 ResetId; ///< Slot reset ID as specified in PCIe_PORT_DESCRIPTOR
IN UINT8 ResetControl; ///< Reset control as in PCIE_RESET_CONTROL
} PCIe_SLOT_RESET_INFO;
#define GFX_VBIOS_IMAGE_FLAG_SPECIAL_POST 0x1
///VBIOS image info
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
OUT VOID *ImagePtr; ///< Pointer to VBIOS image
IN PCI_ADDR GfxPciAddress; ///< PCI address of integrated graphics controller
IN UINT32 Flags; ///< BIT[0] - special repost requred
} GFX_VBIOS_IMAGE_INFO;
/// Engine descriptor type
typedef enum {
PcieUnusedEngine = 0, ///< Unused descriptor
PciePortEngine = 1, ///< PCIe port
PcieDdiEngine = 2, ///< DDI
MaxPcieEngine ///< Max engine type for boundary check.
} PCIE_ENGINE_TYPE;
/// PCIe link capability/speed
typedef enum {
PcieGenMaxSupported, ///< Maximum supported
PcieGen1 = 1, ///< Gen1
PcieGen2, ///< Gen2
PcieGen3, ///< Gen3
MaxPcieGen ///< Max Gen for boundary check
} PCIE_LINK_SPEED_CAP;
/// PCIe PSPP Power policy
typedef enum {
PsppDisabled, ///< PSPP disabled
PsppPerformance = 1, ///< Performance
PsppBalanceHigh, ///< Balance-High
PsppBalanceLow, ///< Balance-Low
PsppPowerSaving, ///< Power Saving
MaxPspp ///< Max Pspp for boundary check
} PCIE_PSPP_POLICY;
/// DDI display connector type
typedef enum {
ConnectorTypeDP, ///< DP
ConnectorTypeEDP, ///< eDP
ConnectorTypeSingleLinkDVI, ///< Single Link DVI-D
ConnectorTypeDualLinkDVI, ///< Dual Link DVI-D
ConnectorTypeHDMI, ///< HDMI
ConnectorTypeDpToVga, ///< DP-to-VGA
ConnectorTypeDpToLvds, ///< DP-to-LVDS
ConnectorTypeNutmegDpToVga, ///< Hudson-2 NutMeg DP-to-VGA
ConnectorTypeSingleLinkDviI, ///< Single Link DVI-I
ConnectorTypeCrt, ///< CRT (VGA)
ConnectorTypeLvds, ///< LVDS
ConnectorTypeEDPToLvds, ///< 3rd party common eDP-to-LVDS translator chip without AMD SW init
ConnectorTypeEDPToLvdsSwInit, ///< 3rd party eDP-to-LVDS translator which requires AMD SW init
ConnectorTypeAutoDetect, ///< VBIOS auto detect connector type (native LVDS, eDP or DP-to-LVDS)
MaxConnectorType ///< Not valid value, used to verify input
} PCIE_CONNECTOR_TYPE;
/// PCIe link channel type
typedef enum {
ChannelTypeLowLoss, ///< Low Loss
ChannelTypeHighLoss, ///< High Loss
ChannelTypeMob0db, ///< Mobile 0dB
ChannelTypeMob3db, ///< Mobile 3dB
ChannelTypeExt6db, ///< Extended 6dB
ChannelTypeExt8db, ///< Extended 8dB
MaxChannelType ///< Not valid value, used to verify input
} PCIE_CHANNEL_TYPE;
/// PCIe link ASPM
typedef enum {
AspmDisabled, ///< Disabled
AspmL0s, ///< PCIe L0s link state
AspmL1, ///< PCIe L1 link state
AspmL0sL1, ///< PCIe L0s & L1 link state
MaxAspm ///< Not valid value, used to verify input
} PCIE_ASPM_TYPE;
/// PCIe link hotplug support
typedef enum {
HotplugDisabled, ///< Hotplug disable
HotplugBasic, ///< Basic Hotplug
HotplugServer, ///< Server Hotplug
HotplugEnhanced, ///< Enhanced
HotplugInboard, ///< Inboard
MaxHotplug ///< Not valid value, used to verify input
} PCIE_HOTPLUG_TYPE;
/// PCIe link initialization
typedef enum {
PortDisabled, ///< Disable
PortEnabled ///< Enable
} PCIE_PORT_ENABLE;
/// PCIe ACS capability - Access Control Services
typedef enum {
PcieAcsDisabled, ///< Disabled
PcieAcsEnabled, ///< Enabled
} PCIE_ACS_CAP;
/// PCIe ClkPmSupport initialization
typedef enum {
ClkPmSupportDisabled, ///< Disable
ClkPmSupportEnabled ///< Enable
} CLKPM_SUPPORT_ENABLE;
/// DDI Aux channel
typedef enum {
Aux1, ///< Aux1
Aux2, ///< Aux2
Aux3, ///< Aux3
Aux4, ///< Aux4
Aux5, ///< Aux5
Aux6, ///< Aux6
MaxAux ///< Not valid value, used to verify input
} PCIE_AUX_TYPE;
/// DDI Hdp Index
typedef enum {
Hdp1, ///< Hdp1
Hdp2, ///< Hdp2
Hdp3, ///< Hdp3
Hdp4, ///< Hdp4
Hdp5, ///< Hdp5
Hdp6, ///< Hdp6
MaxHdp ///< Not valid value, used to verify input
} PCIE_HDP_TYPE;
/// PCIe_DDI_DATA.Flags definitions
#define DDI_DATA_FLAGS_DP1_1_ONLY 0x01 ///< BIT[0] Selects downgrade PHY link to DP1.1
#define EXT_DISPLAY_PATH_CAPS_DP_FIXED_VS_EN 0x02 ///< BIT[1] VBIOS will always output fixed voltage swing during DP link training
/// DP receiver definitions with fixed voltage swing
typedef enum {
DP_VS_0_4V_0DB, ///< 0x00
DP_VS_0_6V_0DB, ///< 0x01
DP_VS_0_8V_0DB, ///< 0x02
DP_VS_1_2V_0DB, ///< 0x03
DP_VS_0_4V_3_5DB = 0x8, ///< 0x08
DP_VS_0_6V_3_5DB, ///< 0x09
DP_VS_0_8V_3_5DB, ///< 0x0a
DP_VS_0_4V_6DB = 0x10, ///< 0x10
DP_VS_0_6V_6DB, ///< 0x11
DP_VS_0_4V_9_5DB = 0x18 ///< 0x18
} DP_FIXED_VOLT_SWING_TYPE;
// Macro for statically initializing various structures
#define PCIE_ENGINE_DATA_INITIALIZER(mType, mStartLane, mEndLane) {mType, mStartLane, mEndLane}
#define PCIE_PORT_DATA_INITIALIZER(mPortPresent, mChannelType, mDevAddress, mHotplug, mMaxLinkSpeed, mMaxLinkCap, mAspm, mResetId) \
{mPortPresent, mChannelType, mDevAddress, 0, mMaxLinkSpeed, mAspm, mHotplug, mResetId, {0, mMaxLinkCap, 0, 0}, {0, 0, 0}, EndpointDetect, \
{ADAPT_IOC_ENABLED, ADAPT_DFE_CONTROL_DISABLED, ADAPT_LEQ_CONTROL_DC_GAIN_POLE, ADAPT_DOC_DISABLED, ADAPT_FOMC_ENABLED, ADAPT_PIOC_DISABLED}}
#define PCIE_PORT_DATA_INITIALIZER_V2(mPortPresent, mChannelType, mDevAddress, mDevFunction, mHotplug, mMaxLinkSpeed, mMaxLinkCap, mAspm, mResetId, mClkPmSupport) \
{mPortPresent, mChannelType, mDevAddress, mDevFunction, mMaxLinkSpeed, mAspm, mHotplug, mResetId, {0, mMaxLinkCap, 0, mClkPmSupport}, {0, 0, 0}, EndpointDetect, \
{ADAPT_IOC_ENABLED, ADAPT_DFE_CONTROL_DISABLED, ADAPT_LEQ_CONTROL_DC_GAIN_POLE, ADAPT_DOC_DISABLED, ADAPT_FOMC_ENABLED, ADAPT_PIOC_DISABLED}}
#define PCIE_PORT_DATA_INITIALIZER_GEN3(mPortPresent, mChannelType, mDevAddress, mDevFunction, mHotplug, mMaxLinkSpeed, mMaxLinkCap, mAspm, mResetId, mClkPmSupport, \
mInitOffsetCancellation, mDFEControl, mLEQControl, mDynamicOffsetCalibration, mFOMCalculation, mPIOffsetCalibration) \
{mPortPresent, mChannelType, mDevAddress, mDevFunction, mMaxLinkSpeed, mAspm, mHotplug, mResetId, {0, mMaxLinkCap, 0, mClkPmSupport}, {0, 0, 0}, EndpointDetect, \
{mInitOffsetCancellation, mDFEControl, mLEQControl, mDynamicOffsetCalibration, mFOMCalculation, mPIOffsetCalibration}}
#define PCIE_DDI_DATA_INITIALIZER(mConnectorType, mAuxIndex, mHpdIndex ) \
{mConnectorType, mAuxIndex, mHpdIndex, {{0},{0}}, 0, 0}
#define PCIE_DDI_DATA_INITIALIZER_V1(mConnectorType, mAuxIndex, mHpdIndex, mMapping0, mMapping1, mPNInversion) \
{mConnectorType, mAuxIndex, mHpdIndex, {mMapping0, mMapping1}, mPNInversion, 0}
#define PCIE_DDI_DATA_INITIALIZER_V2(mConnectorType, mAuxIndex, mHpdIndex, mMapping0, mMapping1, mPNInversion, mFlags) \
{mConnectorType, mAuxIndex, mHpdIndex, {mMapping0, mMapping1}, mPNInversion, mFlags}
///IOMMU requestor ID
typedef struct {
IN UINT16 Bus :8; ///< Bus
IN UINT16 Device :5; ///< Device
IN UINT16 Function :3; ///< Function
} IOMMU_REQUESTOR_ID;
/// IVMD exclusion range descriptor
typedef struct {
IN UINT32 Flags; /**< Descriptor flags
* @li @b Flags[31] - Terminate descriptor array.
* @li @b Flags[30] - Ignore descriptor.
*/
IN IOMMU_REQUESTOR_ID RequestorIdStart; ///< Requestor ID start
IN IOMMU_REQUESTOR_ID RequestorIdEnd; ///< Requestor ID end (use same as start for single ID)
IN UINT64 RangeBaseAddress; ///< Phisical base address of exclusion range
IN UINT64 RangeLength; ///< Length of exclusion range in bytes
} IOMMU_EXCLUSION_RANGE_DESCRIPTOR;
/*----------------------------------------------------------------------------
* GNB configuration info
*----------------------------------------------------------------------------
*/
/// LVDS Misc Control Field
typedef struct {
IN UINT8 FpdiMode:1; ///< This item configures LVDS 888bit panel mode
///< @li FALSE = LVDS 888 panel in LDI mode
///< @li TRUE = LVDS 888 panel in FPDI mode
///< @BldCfgItem{BLDCFG_LVDS_MISC_888_FPDI_MODE}
IN UINT8 DlChSwap:1; ///< This item configures LVDS panel lower and upper link mapping
///< @li FALSE = Lower link and upper link not swap
///< @li TRUE = Lower link and upper link are swapped
///< @BldCfgItem{BLDCFG_LVDS_MISC_DL_CH_SWAP}
IN UINT8 VsyncActiveLow:1; ///< This item configures polarity of frame pulse encoded in lvds data stream
///< @li FALSE = Active high Frame Pulse/Vsync
///< @li TRUE = Active low Frame Pulse/Vsync
///< @BldCfgItem{BLDCFG_LVDS_MISC_VSYNC_ACTIVE_LOW}
IN UINT8 HsyncActiveLow:1; ///< This item configures polarity of line pulse encoded in lvds data
///< @li FALSE = Active high Line Pulse
///< @li TRUE = Active low Line Pulse / Hsync
///< @BldCfgItem{BLDCFG_LVDS_MISC_HSYNC_ACTIVE_LOW}
IN UINT8 BLONActiveLow:1; ///< This item configures polarity of signal sent to digital BLON output pin
///< @li FALSE = Not inverted(active high)
///< @li TRUE = Inverted (active low)
///< @BldCfgItem{BLDCFG_LVDS_MISC_BLON_ACTIVE_LOW}
IN UINT8 LvdsVoltOverwriteEn:1; ///< This item configures polarity of DP-to-LVDS output voltage overwrite
///< @li FALSE = DP-to-LVDS output voltage overwrite disable, use VBIOS default setting.
///< @li TRUE = Use ucLVDSVolAdjust value to program register LVDS_CTRL_4
///< @BldCfgItem{BLDCFG_LVDS_MISC_VOLT_OVERWRITE_ENABLE}
IN UINT8 Reserved:2; ///< Reserved
} LVDS_MISC_CONTROL_FIELD;
/// LVDS Misc Control
typedef union _LVDS_MISC_CONTROL {
IN LVDS_MISC_CONTROL_FIELD Field; ///< LVDS_MISC_CONTROL_FIELD
IN UINT8 Value; ///< LVDS Misc Control Value
} LVDS_MISC_CONTROL;
/// Display Misc Control Field
typedef struct {
IN UINT8 Reserved1:3; ///< Reserved
IN UINT8 VbiosFastBootEn:1; ///< This item configures VBIOS skip display device detection in every set mode if LCD panel is connect and LID is open.
///< @li FALSE = VBIOS fast boot is disable.
///< @li TRUE = VBIOS fast boot is enable.
///< @BldCfgItem{BLDCFG_DISPLAY_MISC_VBIOS_FAST_BOOT_ENABLE}
IN UINT8 Reserved2:4; ///< Reserved
} DISPLAY_MISC_CONTROL_FIELD;
/// LVDS Misc Control
typedef union _DISPLAY_MISC_CONTROL {
IN DISPLAY_MISC_CONTROL_FIELD Field; ///< DISPLAY_MISC_CONTROL_FIELD
IN UINT8 Value; ///< Display Misc Control Value
} DISPLAY_MISC_CONTROL;
/// POST Configuration settings for GNB.
typedef struct {
IN UINT8 IgpuEnableDisablePolicy; ///< This item defines the iGPU Enable/Disable policy
///< @li 0 = Auto - use existing default -
///< @li 1 = Disable iGPU if any PCIe/PCI graphics card present
///< @BldCfgItem{BLDCFG_IGPU_ENABLE_DISABLE_POLICY}
} GNB_POST_CONFIGURATION;
/// iGPU Enable/Disable Policy values
#define IGPU_DISABLE_AUTO 0 ///< Auto setting - disable iGPU if ANY PCI graphics or non-AMD PCIe graphics
#define IGPU_DISABLE_ANY_PCIE 1 ///< Disable iGPU if any PCI or PCIE graphics card is present
/// ENV Configuration settings for GNB.
typedef struct {
IN UINT8 Gnb3dStereoPinIndex; ///< 3D Stereo Pin ID.
///< @li 0 = Stereo 3D is disabled (default).
///< @li 1 = Use processor pin HPD1.
///< @li 2 = Use processor pin HPD2
///< @li 3 = Use processor pin HPD3
///< @li 4 = Use processor pin HPD4
///< @li 5 = Use processor pin HPD5
///< @li 6 = Use processor pin HPD6
///< @BldCfgItem{BLDCFG_STEREO_3D_PINOUT}
IN BOOLEAN IommuSupport; ///< IOMMU support.
///< @li FALSE = Disabled. Disable and hide IOMMU device.
///< @li TRUE = Initialize IOMMU subsystem. Generate ACPI IVRS table.
///< BldCfgItem{BLDCFG_IOMMU_SUPPORT}
IN UINT16 LvdsSpreadSpectrum; ///< Spread spectrum value in 0.01 %
///< BldCfgItem{BLDCFG_GFX_LVDS_SPREAD_SPECTRUM}
IN UINT16 LvdsSpreadSpectrumRate; ///< Spread spectrum frequency used by SS hardware logic in unit of 10Hz, 0 - default frequency 40kHz
///< BldCfgItem{BLDCFG_GFX_LVDS_SPREAD_SPECTRUM_RATE}
IN UINT8 LvdsPowerOnSeqDigonToDe; ///< This item configures panel initialization timing.
///< @BldCfgItem{BLDCFG_LVDS_POWER_ON_SEQ_DIGON_TO_DE}
IN UINT8 LvdsPowerOnSeqDeToVaryBl; ///< This item configures panel initialization timing.
///< @BldCfgItem{BLDCFG_LVDS_POWER_ON_SEQ_DE_TO_VARY_BL}
IN UINT8 LvdsPowerOnSeqDeToDigon; ///< This item configures panel initialization timing.
///< @BldCfgItem{BLDCFG_LVDS_POWER_ON_SEQ_DE_TO_DIGON}
IN UINT8 LvdsPowerOnSeqVaryBlToDe; ///< This item configures panel initialization timing.
///< @BldCfgItem{BLDCFG_LVDS_POWERS_ON_SEQ_VARY_BL_TO_DE}
IN UINT8 LvdsPowerOnSeqOnToOffDelay; ///< This item configures panel initialization timing.
///< @BldCfgItem{BLDCFG_LVDS_POWER_ON_SEQ_ON_TO_OFF_DELAY}
IN UINT8 LvdsPowerOnSeqVaryBlToBlon; ///< This item configures panel initialization timing.
///< @BldCfgItem{BLDCFG_LVDS_POWER_ON_SEQ_VARY_BL_TO_BLON}
IN UINT8 LvdsPowerOnSeqBlonToVaryBl; ///< This item configures panel initialization timing.
///< @BldCfgItem{BLDCFG_LVDS_POWER_ON_SEQ_BLON_TO_VARY_BL}
IN UINT16 LvdsMaxPixelClockFreq; ///< This item configures the maximum pixel clock frequency supported.
///< @BldCfgItem{BLDCFG_LVDS_MAX_PIXEL_CLOCK_FREQ}
IN UINT32 LcdBitDepthControlValue; ///< This item configures the LCD bit depth control settings.
///< @BldCfgItem{BLDCFG_LCD_BIT_DEPTH_CONTROL_VALUE}
IN UINT8 Lvds24bbpPanelMode; ///< This item configures the LVDS 24 BBP mode.
///< @BldCfgItem{BLDCFG_LVDS_24BBP_PANEL_MODE}
IN LVDS_MISC_CONTROL LvdsMiscControl;///< This item configures LVDS swap/Hsync/Vsync/BLON
IN UINT16 PcieRefClkSpreadSpectrum; ///< Spread spectrum value in 0.01 %
///< @BldCfgItem{BLDCFG_PCIE_REFCLK_SPREAD_SPECTRUM}
IN BOOLEAN GnbRemoteDisplaySupport; ///< This item enables Wireless Display Support
///< @li TRUE = Enable Wireless Display Support
///< @li FALSE = Disable Wireless Display Support
///< @BldCfgItem{BLDCFG_REMOTE_DISPLAY_SUPPORT}
IN UINT8 LvdsMiscVoltAdjustment; ///< Register LVDS_CTRL_4 to adjust LVDS output voltage
///< @BldCfgItem{BLDCFG_LVDS_MISC_VOL_ADJUSTMENT}
IN DISPLAY_MISC_CONTROL DisplayMiscControl;///< This item configures display misc control
IN DP_FIXED_VOLT_SWING_TYPE DpFixedVoltSwingType;///< To indicate fixed voltage swing value
///< @BldCfgItem{BLDCFG_DP_FIXED_VOLT_SWING}
IN UINT32 GpuFrequencyLimit; ///< GNB GPU Max Frequency(NULL if platform configured)
///< @BldCfgItem{BLDCFG_GPU_FREQUENCY_LIMIT}
} GNB_ENV_CONFIGURATION;
/// Configuration settings for GNB.
typedef struct {
IN UINT8 iGpuVgaMode; ///< VGA resources decoding configuration for iGPU
///< @li 0 = iGPU decode all VGA resources (must be primary VGA adapter)
///< @li 1 = iGPU will not decode any VGA resources (must be secondary graphics adapter)
IN UINT8 PcieAcsCapability; ///< Pcie ACS Capability support
///< @li 0 = Disabled
///< @li 1 = Enabled
IN UINT64 GnbIoapicAddress; ///< GNB IOAPIC Base Address(NULL if platform configured)
///< @BldCfgItem{BLDCFG_GNB_IOAPIC_ADDRESS}
} GNB_MID_CONFIGURATION;
/// GNB configuration info
typedef struct {
IN const PCIe_COMPLEX_DESCRIPTOR *PcieComplexList; /**< Pointer to array of structures describe PCIe topology on each processor package or NULL.
* Last element of array must be terminated with DESCRIPTOR_TERMINATE_LIST
* Example of topology definition for single socket system:
* @code
* PCIe_PORT_DESCRIPTOR PortList [] = {
* // Initialize Port descriptor (PCIe port, Lanes 8:15, PCI Device Number 2, ...)
* {
* 0, //Descriptor flags
* PCIE_ENGINE_DATA_INITIALIZER (PciePortEngine, 8, 15),
* PCIE_PORT_DATA_INITIALIZER (PortEnabled, ChannelTypeExt6db, 2, HotplugDisabled, PcieGenMaxSupported, PcieGenMaxSupported, AspmDisabled, 0)
* },
* // Initialize Port descriptor (PCIe port, Lanes 16:19, PCI Device Number 3, ...)
* {
* 0, //Descriptor flags
* PCIE_ENGINE_DATA_INITIALIZER (PciePortEngine, 16, 19),
* PCIE_PORT_DATA_INITIALIZER (PortEnabled, ChannelTypeExt6db, 3, HotplugDisabled, PcieGenMaxSupported, PcieGenMaxSupported, AspmDisabled, 0)
* },
* // Initialize Port descriptor (PCIe port, Lanes 4, PCI Device Number 4, ...)
* {
* DESCRIPTOR_TERMINATE_LIST, //Descriptor flags !!!IMPORTANT!!! Terminate last element of array
* PCIE_ENGINE_DATA_INITIALIZER (PciePortEngine, 4, 4),
* PCIE_PORT_DATA_INITIALIZER (PortEnabled, ChannelTypeExt6db, 4, HotplugDisabled, PcieGenMaxSupported, PcieGenMaxSupported, AspmDisabled, 0)
* }
* };
* PCIe_PORT_DESCRIPTOR DdiList [] = {
* // Initialize Ddi descriptor (DDI interface Lanes 24:27, Display Port Connector, ...)
* {
* 0, //Descriptor flags
* PCIE_ENGINE_DATA_INITIALIZER (PcieDdiEngine, 24, 27),
* PCIE_DDI_DATA_INITIALIZER (ConnectorTypeDP, Aux1, Hdp1, 0)
* },
* // Initialize Ddi descriptor (DDI interface Lanes 28:31, HDMI, ...)
* {
* DESCRIPTOR_TERMINATE_LIST, //Descriptor flags !!!IMPORTANT!!! Terminate last element of array
* PCIE_ENGINE_DATA_INITIALIZER (PcieDdiEngine, 28, 31),
* PCIE_DDI_DATA_INITIALIZER (ConnectorTypeHDMI, Aux2, Hdp2, 0)
* }
* };
* PCIe_COMPLEX_DESCRIPTOR PlatformTopology = {
* DESCRIPTOR_TERMINATE_LIST, //Descriptor flags !!!IMPORTANT!!! Terminate complexes list
* 0, //Socket ID
* &PortList[0],
* &DdiList[0],
* }
* @endcode
*/
IN UINT8 PsppPolicy; /**< PSPP (PCIe Speed Power Policy)
* @li @b 0 - Disabled
* @li @b 1 - Performance
* @li @b 2 - Balance-High
* @li @b 3 - Balance-Low
* @li @b 4 - Power Saving
*/
} GNB_CONFIGURATION;
/// Late Configuration settings for GNB.
typedef struct {
IN BOOLEAN DockedTdpHeadroom; ///< Docked TDP headroom
///< @li TRUE = Enable docked TDP headroom
///< @li FALSE = Disable docked TDP headroom
///< @BldCfgItem{BLDCFG_DOCKED_TDP_HEADROOM}
IN UINT8 GnbIoapicId; ///< GNB IOAPIC ID, platform BIOS needs to pass correct id number, default is 0xFF.
///< If BLDCFG_GNB_IOAPIC_ADDRESS == NULL or BLDCFG_IOMMU_SUPPORT == NULL or GnbIoapicId == default(0xFF), AGESA will skip it anyway.
///< @li 0~n = IOAPIC ID number for IVRS which should be matched with MADT
IN UINT8 FchIoapicId; ///< Fch IOAPIC ID, platform BIOS needs to pass correct id number, default is 0xFF.
///< If BLDCFG_IOMMU_SUPPORT == NULL or or FchIoapicId == default(0xFF), AGESA will skip it anyway.
///< @li 0~n = IOAPIC ID number for IVRS which should be matched with MADT
} GNB_LATE_CONFIGURATION;
//
// MEMORY-SPECIFIC DATA STRUCTURES
//
//
//
//
// AGESA MAXIMIUM VALUES
//
// These Max values are used to define array sizes and associated loop
// counts in the code. They reflect the maximum values that AGESA
// currently supports and does not necessarily reflect the hardware
// capabilities of configuration.
//
#define MAX_SOCKETS_SUPPORTED 1 ///< Max number of sockets in system
#define MAX_CHANNELS_PER_SOCKET 4 ///< Max Channels per sockets
#define MAX_DIMMS_PER_CHANNEL 4 ///< Max DIMMs on a memory channel (independent of platform)
#define NUMBER_OF_DELAY_TABLES 9 ///< Number of tables defined in CH_DEF_STRUCT.
///< Eg: UINT16 *RcvEnDlys;
///< UINT8 *WrDqsDlys;
///< UINT8 *RdDqsDlys;
///< UINT8 *WrDatDlys;
///< UINT8 *RdDqsMinDlys;
///< UINT8 *RdDqsMaxDlys;
///< UINT8 *WrDatMinDlys;
///< UINT8 *WrDatMaxDlys;
#define NUMBER_OF_FAILURE_MASK_TABLES 1 ///< Number of failure mask tables
#define MAX_PLATFORM_TYPES 16 ///< Platform types per system
#define MCT_TRNG_KEEPOUT_START 0x00004000ul ///< base [39:8]
#define MCT_TRNG_KEEPOUT_END 0x00007FFFul ///< base [39:8]
#define DATAEYE_VREF_RANGE 31 ///< Number of VREF steps in Data Eye Bitmap
#define UMA_ATTRIBUTE_INTERLEAVE 0x80000000ul ///< Uma Region is interleaved
#define UMA_ATTRIBUTE_ON_DCT0 0x40000000ul ///< UMA resides on memory that belongs to DCT0
#define UMA_ATTRIBUTE_ON_DCT1 0x20000000ul ///< UMA resides on memory that belongs to DCT1
#define UMA_ATTRIBUTE_ON_DCT2 0x10000000ul ///< UMA resides on memory that belongs to DCT2
#define UMA_ATTRIBUTE_ON_DCT3 0x08000000ul ///< UMA resides on memory that belongs to DCT3
typedef UINT8 PSO_TABLE; ///< Platform Configuration Table
// AGESA DEFINITIONS
//
// Many of these are derived from the platform and hardware specific definitions
/// EccSymbolSize override value
#define ECCSYMBOLSIZE_USE_BKDG 0 ///< Use BKDG Recommended Value
#define ECCSYMBOLSIZE_FORCE_X4 4 ///< Force to x4
#define ECCSYMBOLSIZE_FORCE_X8 8 ///< Force to x8
/// CPU Package Type
#define PT_L1 0 ///< L1 Package type
#define PT_M2 1 ///< AM Package type
#define PT_S1 2 ///< S1 Package type
/// Build Configuration values for BLDCFG_MEMORY_BUS_FREQUENCY_LIMIT & BLDCFG_MEMORY_CLOCK_SELECT
#define DDR400_FREQUENCY 200 ///< DDR 400
#define DDR533_FREQUENCY 266 ///< DDR 533
#define DDR667_FREQUENCY 333 ///< DDR 667
#define DDR800_FREQUENCY 400 ///< DDR 800
#define DDR1066_FREQUENCY 533 ///< DDR 1066
#define DDR1333_FREQUENCY 667 ///< DDR 1333
#define DDR1600_FREQUENCY 800 ///< DDR 1600
#define DDR1866_FREQUENCY 933 ///< DDR 1866
#define DDR2100_FREQUENCY 1050 ///< DDR 2100
#define DDR2133_FREQUENCY 1066 ///< DDR 2133
#define DDR2400_FREQUENCY 1200 ///< DDR 2400
#define UNSUPPORTED_DDR_FREQUENCY 1201 ///< Highest limit of DDR frequency
/// Build Configuration values for BLDCFG_TIMING_MODE_SELECT
#define TIMING_MODE_AUTO 0 ///< Use best rate possible
#define TIMING_MODE_LIMITED 1 ///< Set user top limit
#define TIMING_MODE_SPECIFIC 2 ///< Set user specified speed
/// Build Configuration values for BLDCFG_MEMORY_QUADRANK_TYPE
#define QUADRANK_REGISTERED 0 ///< Quadrank registered DIMM
#define QUADRANK_UNBUFFERED 1 ///< Quadrank unbuffered DIMM
/// Build Configuration values for BLDCFG_POWER_DOWN_MODE
#define POWER_DOWN_BY_CHANNEL 0 ///< Channel power down mode
#define POWER_DOWN_BY_CHIP_SELECT 1 ///< Chip select power down mode
#define POWER_DOWN_MODE_AUTO 2 ///< AGESA to select power down mode
/// Build Configuration limit for BLDCFG_GNB_GPU_MAX_FREQUENCY
#define UNSUPPORTED_GPU_FREQUENCY 901 ///< Highest limit of GPU frequency
/// Structures use to pass system Logical CPU-ID
typedef struct {
IN OUT UINT64 Family; ///< Indicates logical ID Family
IN OUT UINT64 Revision; ///< Indicates logical ID Family
} CPU_LOGICAL_ID;
/// Structures use to report AMP status
typedef struct {
OUT BOOLEAN AmpVoltageValid; ///< Indicates if Amp voltage is valid
OUT BOOLEAN AmpSupportDetectedButNotEnabled; ///< Indicates if Amp support is detected but not enabled
OUT BOOLEAN AmpSelectedButNotEnabled; ///< Indicates if Amp is selected but not enabled
} AMP_STATUS;
/// Normalized Critical Composite Data Eye
/// Bit 15 represents trained eye Center
/// Bit 0 represents eye center -15 delay steps
/// Bit 31 represents eye center +16 delay steps
/// Offset 0 represents +15 Vref Steps
/// Offset 31 represents -15 Vref Steps
typedef UINT32 COMPOSITE_DATAEYE[DATAEYE_VREF_RANGE];
/// Build Configuration values for BLDCFG_AMD_PLATFORM_TYPE
typedef enum {
AMD_PLATFORM_SERVER = 0x8000, ///< Server
AMD_PLATFORM_DESKTOP = 0x10000, ///< Desktop
AMD_PLATFORM_MOBILE = 0x20000, ///< Mobile
} AMD_PLATFORM_TYPE;
/// Dram technology type
typedef enum {
DDR2_TECHNOLOGY, ///< DDR2 technology
DDR3_TECHNOLOGY, ///< DDR3 technology
GDDR5_TECHNOLOGY, ///< GDDR5 technology
UNSUPPORTED_TECHNOLOGY, ///< Unsupported technology
} TECHNOLOGY_TYPE;
/// Low voltage support
typedef enum {
VOLT_INITIAL, ///< Initial value for VDDIO
VOLT1_5, ///< 1.5 Volt
VOLT1_35, ///< 1.35 Volt
VOLT1_25, ///< 1.25 Volt
VOLT_UNSUPPORTED = 0xFF ///< No common voltage found
} DIMM_VOLTAGE;
/// AMP voltage support
typedef enum {
AMP_VOLT_RSVD, ///< Reserved
AMP_VOLT1_5, ///< 1.5 Volt
AMP_VOLT1_55, ///< 1.55 Volt
AMP_VOLT1_6, ///< 1.6 Volt
AMP_VOLT1_65, ///< 1.65 Volt
AMP_VOLT1_7, ///< 1.7 Volt
AMP_VOLT1_75, ///< 1.75 Volt
AMP_VOLT1_8, ///< 1.8 Volt
AMP_VOLT1_85, ///< 1.85 Volt
AMP_VOLT1_9, ///< 1.9 Volt
AMP_VOLT1_45 = 0x10, ///< 1.45 Volt
AMP_VOLT1_4 = 0x20, ///< 1.4 Volt
AMP_VOLT1_35 = 0x30, ///< 1.35 Volt
AMP_VOLT1_3 = 0x40, ///< 1.3 Volt
AMP_VOLT1_25 = 0x50, ///< 1.25 Volt
AMP_VOLT1_2 = 0x60 ///< 1.2 Volt
} AMP_DIMM_VOLTAGE;
/// Build Configuration values for BLDCFG_ACP_SIZE
typedef enum {
NO_ACP_SIZE = 0x00, ///< NO ACP
ACP_SIZE_2MB = 0x20, ///< UMA 4MB aligned
ACP_SIZE_4MB = 0x40, ///< UMA 128MB aligned
} ACP_SIZE;
/// UMA Mode
typedef enum {
UMA_NONE = 0, ///< UMA None
UMA_SPECIFIED = 1, ///< UMA Specified
UMA_AUTO = 2 ///< UMA Auto
} UMA_MODE;
/// Force Training Mode
typedef enum {
FORCE_TRAIN_1D = 0, ///< 1D Training only
FORCE_TRAIN_2D = 1, ///< 2D Training only
FORCE_TRAIN_AUTO = 2 ///< Auto - 1D or 2D depending on configuration
} FORCE_TRAIN_MODE;
/// PMU Training Mode
typedef enum {
PMU_TRAIN_1D = 0, ///< PMU 1D Training only
PMU_TRAIN_1D_2D_READ = 1, ///< PMU 1D and 2D Training read only
PMU_TRAIN_1D_2D = 2, ///< PMU 1D and 2D Training
PMU_TRAIN_AUTO = 3 ///< Auto - PMU Training depend on configuration
} PMU_TRAIN_MODE;
/// The possible DRAM prefetch mode settings.
typedef enum {
DRAM_PREFETCHER_AUTO, ///< Use the recommended setting for the processor. In most cases, the recommended setting is enabled.
DISABLE_DRAM_PREFETCH_FOR_IO, ///< Disable DRAM prefetching for I/O requests only.
DISABLE_DRAM_PREFETCH_FOR_CPU, ///< Disable DRAM prefetching for requests from processor cores only.
DISABLE_DRAM_PREFETCHER, ///< Disable DRAM prefetching.
MAX_DRAM_FREFETCH_MODE ///< Not a DRAM prefetch mode, use for limit checking.
} DRAM_PREFETCH_MODE;
/// Build Configuration values for BLDCFG_UMA_ALIGNMENT
typedef enum {
NO_UMA_ALIGNED = 0x00FFFFFF, ///< NO UMA aligned
UMA_4MB_ALIGNED = 0x00FFFFC0, ///< UMA 4MB aligned
UMA_128MB_ALIGNED = 0x00FFF800, ///< UMA 128MB aligned
UMA_256MB_ALIGNED = 0x00FFF000, ///< UMA 256MB aligned
UMA_512MB_ALIGNED = 0x00FFE000, ///< UMA 512MB aligned
} UMA_ALIGNMENT;
///
/// Global MCT Configuration Status Word (GStatus)
///
typedef enum {
GsbMTRRshort, ///< Ran out of MTRRs while mapping memory
GsbAllECCDimms, ///< All banks of all Nodes are ECC capable
GsbDramECCDis, ///< Dram ECC requested but not enabled.
GsbSoftHole, ///< A Node Base gap was created
GsbHWHole, ///< A HW dram remap was created
GsbNodeIntlv, ///< Node Memory interleaving was enabled
GsbSpIntRemapHole, ///< Special condition for Node Interleave and HW remapping
GsbEnDIMMSpareNW, ///< Indicates that DIMM Spare can be used without a warm reset
GsbEOL ///< End of list
} GLOBAL_STATUS_FIELD;
///
/// Local Error Status (DIE_STRUCT.ErrStatus[31:0])
///
typedef enum {
EsbNoDimms, ///< No DIMMs
EsbSpdChkSum, ///< SPD Checksum fail
EsbDimmMismatchM, ///< dimm module type(buffer) mismatch
EsbDimmMismatchT, ///< dimm CL/T mismatch
EsbDimmMismatchO, ///< dimm organization mismatch (128-bit)
EsbNoTrcTrfc, ///< SPD missing Trc or Trfc info
EsbNoCycTime, ///< SPD missing byte 23 or 25
EsbBkIntDis, ///< Bank interleave requested but not enabled
EsbDramECCDis, ///< Dram ECC requested but not enabled
EsbSpareDis, ///< Online spare requested but not enabled
EsbMinimumMode, ///< Running in Minimum Mode
EsbNoRcvrEn, ///< No DQS Receiver Enable pass window found
EsbSmallRcvr, ///< DQS Rcvr En pass window too small (far right of dynamic range)
EsbNoDqsPos, ///< No DQS-DQ passing positions
EsbSmallDqs, ///< DQS-DQ passing window too small
EsbDCBKScrubDis, ///< DCache scrub requested but not enabled
EsbEMPNotSupported, ///< Processor is not capable for EMP.
EsbEMPConflict, ///< EMP requested but cannot be enabled since
///< channel interleaving, bank interleaving, or bank swizzle is enabled.
EsbEMPDis, ///< EMP requested but cannot be enabled since
///< memory size of each DCT is not a power of two.
EsbEOL ///< End of list
} ERROR_STATUS_FIELD;
///
/// Local Configuration Status (DIE_STRUCT.Status[31:0])
///
typedef enum {
SbRegistered, ///< All DIMMs are Registered
SbEccDimms, ///< All banks ECC capable
SbParDimms, ///< All banks Addr/CMD Parity capable
SbDiagClks, ///< Jedec ALL slots clock enable diag mode
Sb128bitmode, ///< DCT in 128-bit mode operation
Sb64MuxedMode, ///< DCT in 64-bit mux'ed mode.
Sb2TMode, ///< 2T CMD timing mode is enabled.
SbSWNodeHole, ///< Remapping of Node Base on this Node to create a gap.
SbHWHole, ///< Memory Hole created on this Node using HW remapping.
SbOver400Mhz, ///< DCT freq greater than or equal to 400MHz flag
SbDQSPosPass2, ///< Used for TrainDQSPos DIMM0/1, when freq greater than or equal to 400MHz
SbDQSRcvLimit, ///< Used for DQSRcvEnTrain to know we have reached the upper bound.
SbExtConfig, ///< Indicate the default setting for extended PCI configuration support
SbLrdimms, ///< All DIMMs are LRDIMMs
SbEOL ///< End of list
} LOCAL_STATUS_FIELD;
///< CPU MSR Register definitions ------------------------------------------
#define SYS_CFG 0xC0010010ul
#define TOP_MEM 0xC001001Aul
#define TOP_MEM2 0xC001001Dul
#define HWCR 0xC0010015ul
#define NB_CFG 0xC001001Ful
#define FS_BASE 0xC0000100ul
#define IORR0_BASE 0xC0010016ul
#define IORR0_MASK 0xC0010017ul
#define BU_CFG 0xC0011023ul
#define BU_CFG2 0xC001102Aul
#define COFVID_STAT 0xC0010071ul
#define TSC 0x10
//-----------------------------------------------------------------------------
///
/// SPD Data for each DIMM.
///
typedef struct _SPD_DEF_STRUCT {
IN BOOLEAN DimmPresent; ///< Indicates that the DIMM is present and Data is valid
IN UINT8 Data[256]; ///< Buffer for 256 Bytes of SPD data from DIMM
} SPD_DEF_STRUCT;
//-----------------------------------------------------------------------------
///
/// VDDP_VDDR Voltage Info for Low Power DIMM
///
typedef struct _VDDP_VDDR_VOLTAGE {
IN BOOLEAN IsValid; ///< Indicates if daata is valid
IN MEMORY_PHY_VOLTAGE Voltage; ///< VDDP VDDR Voltage Value
} VDDP_VDDR_VOLTAGE;
///
/// Channel Definition Structure.
/// This data structure defines entries that are specific to the channel initialization
///
typedef struct _CH_DEF_STRUCT {
OUT UINT8 ChannelID; ///< Physical channel ID of a socket(0 = CH A, 1 = CH B, 2 = CH C, 3 = CH D)
OUT TECHNOLOGY_TYPE TechType; ///< Technology type of this channel
OUT UINT8 ChDimmPresent; ///< For each bit n 0..7, 1 = DIMM n is present.
///< DIMM# Select Signal
///< 0 MA0_CS_L[0, 1]
///< 1 MB0_CS_L[0, 1]
///< 2 MA1_CS_L[0, 1]
///< 3 MB1_CS_L[0, 1]
///< 4 MA2_CS_L[0, 1]
///< 5 MB2_CS_L[0, 1]
///< 6 MA3_CS_L[0, 1]
///< 7 MB3_CS_L[0, 1]
OUT struct _DCT_STRUCT *DCTPtr; ///< Pointer to the DCT data of this channel.
OUT struct _DIE_STRUCT *MCTPtr; ///< Pointer to the node data of this channel.
OUT SPD_DEF_STRUCT *SpdPtr; ///< Pointer to the SPD data for this channel. (Setup by NB Constructor)
OUT SPD_DEF_STRUCT *DimmSpdPtr[MAX_DIMMS_PER_CHANNEL]; ///< Array of pointers to
///< SPD Data for each Dimm. (Setup by Tech Block Constructor)
OUT UINT8 ChDimmValid; ///< For each bit n 0..3, 1 = DIMM n is valid and is/will be configured where 4..7 are reserved.
///<
OUT UINT8 RegDimmPresent; ///< For each bit n 0..3, 1 = DIMM n is a registered DIMM where 4..7 are reserved.
OUT UINT8 LrDimmPresent; ///< For each bit n 0..3, 1 = DIMM n is Load Reduced DIMM where 4..7 are reserved.
OUT UINT8 SODimmPresent; ///< For each bit n 0..3, 1 = DIMM n is a SO-DIMM, where 4..7 are reserved.
OUT UINT8 Loads; ///< Number of devices loading bus
OUT UINT8 Dimms; ///< Number of DIMMs loading Channel
OUT UINT8 Ranks; ///< Number of ranks loading Channel DATA
OUT BOOLEAN SlowMode; ///< 1T or 2T CMD mode (slow access mode)
OUT BOOLEAN SlowModePs1; ///< 1T or 2T CMD mode (slow access mode) for Mem Pstate 1
///< FALSE = 1T
///< TRUE = 2T
///< The following pointers will be pointed to dynamically allocated buffers.
///< Each buffer is two dimensional (RowCount x ColumnCount) and is lay-outed as in below.
///< Example: If DIMM and Byte based training, then
///< XX is a value in Hex
///< BYTE 0, BYTE 1, BYTE 2, BYTE 3, BYTE 4, BYTE 5, BYTE 6, BYTE 7, ECC BYTE
///< Row1 - Logical DIMM0 XX XX XX XX XX XX XX XX XX
///< Row2 - Logical DIMM1 XX XX XX XX XX XX XX XX XX
OUT UINT16 *RcvEnDlys; ///< DQS Receiver Enable Delays
OUT UINT8 *WrDqsDlys; ///< Write DQS delays (only valid for DDR3)
OUT UINT8 *RdDqsDlys; ///< Read Dqs delays
OUT UINT8 *WrDatDlys; ///< Write Data delays
OUT UINT8 *RdDqs2dDlys; ///< 2d Read DQS data
OUT UINT8 *RdDqsMinDlys; ///< Minimum Window for Read DQS
OUT UINT8 *RdDqsMaxDlys; ///< Maximum Window for Read DQS
OUT UINT8 *WrDatMinDlys; ///< Minimum Window for Write data
OUT UINT8 *WrDatMaxDlys; ///< Maximum Window for Write data
OUT UINT16 *RcvEnDlysMemPs1; ///< DQS Receiver Enable Delays for Mem Pstate 1
OUT UINT8 *WrDqsDlysMemPs1; ///< Write DQS delays (only valid for DDR3) for Mem Pstate 1
OUT UINT8 *RdDqsDlysMemPs1; ///< Read Dqs delays for Memory Pstate 1
OUT UINT8 *WrDatDlysMemPs1; ///< Write Data delays for Memory Pstate 1
OUT UINT8 *RdDqs2dDlysMemPs1; ///< 2d Read DQS data for Memory Pstate 1
OUT UINT8 *RdDqsMinDlysMemPs1; ///< Minimum Window for Read DQS for Memory Pstate 1
OUT UINT8 *RdDqsMaxDlysMemPs1; ///< Maximum Window for Read DQS for Memory Pstate 1
OUT UINT8 *WrDatMinDlysMemPs1; ///< Minimum Window for Write data for Memory Pstate 1
OUT UINT8 *WrDatMaxDlysMemPs1; ///< Maximum Window for Write data for Memory Pstate 1
OUT UINT8 RowCount; ///< Number of rows of the allocated buffer.
OUT UINT8 ColumnCount; ///< Number of columns of the allocated buffer.
OUT UINT8 *FailingBitMask; ///< Table of masks to Track Failing bits
OUT UINT8 *FailingBitMaskMemPs1; ///< Table of masks to Track Failing bits for Memory Pstate 1
OUT VOID *RdDataEyes; ///< Pointer to Read Data Eye Bitmaps
OUT VOID *WrDataEyes; ///< Pointer to Write Data Eye Bitmaps
OUT UINT32 DctOdcCtl; ///< Output Driver Strength (see BKDG FN2:Offset 9Ch, index 00h)
OUT UINT32 DctAddrTmg; ///< Address Bus Timing (see BKDG FN2:Offset 9Ch, index 04h)
OUT UINT32 DctAddrTmgPs1; ///< Address Bus Timing (see BKDG FN2:Offset 9Ch, index 04h) for Mem Pstate 1
OUT UINT32 PhyRODTCSLow; ///< Phy Read ODT Pattern Chip Select low (see BKDG FN2:Offset 9Ch, index 180h)
OUT UINT32 PhyRODTCSHigh; ///< Phy Read ODT Pattern Chip Select high (see BKDG FN2:Offset 9Ch, index 181h)
OUT UINT32 PhyWODTCSLow; ///< Phy Write ODT Pattern Chip Select low (see BKDG FN2:Offset 9Ch, index 182h)
OUT UINT32 PhyWODTCSHigh; ///< Phy Write ODT Pattern Chip Select high (see BKDG FN2:Offset 9Ch, index 183)
OUT UINT8 PhyWLODT[4]; ///< Write Levelization ODT Pattern for Dimm 0-3 or CS 0-7(see BKDG FN2:Offset 9Ch, index 0x8[11:8])
OUT UINT16 DctEccDqsLike; ///< DCT DQS ECC UINT8 like...
OUT UINT8 DctEccDqsScale; ///< DCT DQS ECC UINT8 scale
OUT UINT16 PtrPatternBufA; ///< Ptr on stack to aligned DQS testing pattern
OUT UINT16 PtrPatternBufB; ///< Ptr on stack to aligned DQS testing pattern
OUT UINT8 ByteLane; ///< Current UINT8 Lane (0..7)
OUT UINT8 Direction; ///< Current DQS-DQ training write direction (0=read, 1=write)
OUT UINT8 Pattern; ///< Current pattern
OUT UINT8 DqsDelay; ///< Current DQS delay value
OUT UINT16 HostBiosSrvc1; ///< UINT16 sized general purpose field for use by host BIOS. Scratch space.
OUT UINT32 HostBiosSrvc2; ///< UINT32 sized general purpose field for use by host BIOS. Scratch space.
OUT UINT16 DctMaxRdLat[4]; ///< Max Read Latency (ns) for the DCT
///< DctMaxRdLat [i] is for NBPstate i
OUT UINT8 DIMMValidCh; ///< DIMM# in CH
OUT UINT8 MaxCh; ///< Max number of CH in system
OUT UINT8 Dct; ///< Dct pointer
OUT UINT8 WrDatGrossH; ///< Write Data Gross delay high value
OUT UINT8 DqsRcvEnGrossL; ///< DQS Receive Enable Gross Delay low
OUT UINT8 TrwtWB; ///< Non-SPD timing value for TrwtWB
OUT UINT8 CurrRcvrDctADelay; ///< for keep current RcvrEnDly
OUT UINT16 T1000; ///< get the T1000 figure (cycle time (ns) * 1K)
OUT UINT8 DqsRcvEnPass; ///< for TrainRcvrEn UINT8 lane pass flag
OUT UINT8 DqsRcvEnSaved; ///< for TrainRcvrEn UINT8 lane saved flag
OUT UINT8 SeedPass1Remainder; ///< for Phy assisted DQS receiver enable training
OUT UINT8 ClToNbFlag; ///< is used to restore ClLinesToNbDis bit after memory
OUT UINT32 NodeSysBase; ///< for channel interleave usage
OUT UINT8 RefRawCard[MAX_DIMMS_PER_CHANNEL]; ///< Array of rawcards detected
OUT UINT8 CtrlWrd02[MAX_DIMMS_PER_CHANNEL]; ///< Control Word 2 values per DIMM
OUT UINT8 CtrlWrd03[MAX_DIMMS_PER_CHANNEL]; ///< Control Word 3 values per DIMM
OUT UINT8 CtrlWrd04[MAX_DIMMS_PER_CHANNEL]; ///< Control Word 4 values per DIMM
OUT UINT8 CtrlWrd05[MAX_DIMMS_PER_CHANNEL]; ///< Control Word 5 values per DIMM
OUT UINT8 CtrlWrd08[MAX_DIMMS_PER_CHANNEL]; ///< Control Word 8 values per DIMM
OUT UINT16 CsPresentDCT; ///< For each bit n 0..7, 1 = Chip-select n is present
OUT UINT8 DimmMirrorPresent; ///< For each bit n 0..3, 1 = DIMM n is OnDimmMirror capable where 4..7 are reserved.
OUT UINT8 DimmSpdCse; ///< For each bit n 0..3, 1 = DIMM n SPD checksum error where 4..7 are reserved.
OUT UINT8 DimmExclude; ///< For each bit n 0..3, 1 = DIMM n gets excluded where 4..7 are reserved.
OUT UINT8 DimmYr06; ///< Bitmap indicating which Dimms have a manufacturer's year code <= 2006
OUT UINT8 DimmWk2406; ///< Bitmap indicating which Dimms have a manufacturer's week code <= 24 of 2006 (June)
OUT UINT8 DimmPlPresent; ///< Bitmap indicating that Planar (1) or Stacked (0) Dimms are present.
OUT UINT8 DimmQrPresent; ///< QuadRank DIMM present?
OUT UINT8 DimmDrPresent; ///< Bitmap indicating that Dual Rank Dimms are present
OUT UINT8 DimmSRPresent; ///< Bitmap indicating that Single Rank Dimms are present
OUT UINT8 Dimmx4Present; ///< For each bit n 0..3, 1 = DIMM n contains x4 data devices. where 4..7 are reserved.
OUT UINT8 Dimmx8Present; ///< For each bit n 0..3, 1 = DIMM n contains x8 data devices. where 4..7 are reserved.
OUT UINT8 Dimmx16Present; ///< For each bit n 0..3, 1 = DIMM n contains x16 data devices. where 4..7 are reserved.
OUT UINT8 LrdimmPhysicalRanks[MAX_DIMMS_PER_CHANNEL];///< Number of Physical Ranks for LRDIMMs
OUT UINT8 LrDimmLogicalRanks[MAX_DIMMS_PER_CHANNEL];///< Number of LRDIMM Logical ranks in this configuration
OUT UINT8 LrDimmRankMult[MAX_DIMMS_PER_CHANNEL];///< Rank Multipication factor per dimm.
OUT UINT8 DimmNibbleAccess; ///< For each bit n 0..3, 1 = DIMM n will use nibble signaling. Where 4..7 are reserved.
OUT UINT8 *MemClkDisMap; ///< This pointer will be set to point to an array that describes
///< the routing of M[B,A]_CLK pins to the DIMMs' ranks. AGESA will
///< base on this array to disable unused MemClk to save power.
///<
///< The array must have 8 entries. Each entry, which associates with
///< one MemClkDis bit, is a bitmap of 8 CS that that MemClk is routed to.
///< Example:
///< BKDG definition of Fn2x88[MemClkDis] bitmap for AM3 package
///< is like below:
///< Bit AM3/S1g3 pin name
///< 0 M[B,A]_CLK_H/L[0]
///< 1 M[B,A]_CLK_H/L[1]
///< 2 M[B,A]_CLK_H/L[2]
///< 3 M[B,A]_CLK_H/L[3]
///< 4 M[B,A]_CLK_H/L[4]
///< 5 M[B,A]_CLK_H/L[5]
///< 6 M[B,A]_CLK_H/L[6]
///< 7 M[B,A]_CLK_H/L[7]
///< And platform has the following routing:
///< CS0 M[B,A]_CLK_H/L[4]
///< CS1 M[B,A]_CLK_H/L[2]
///< CS2 M[B,A]_CLK_H/L[3]
///< CS3 M[B,A]_CLK_H/L[5]
///< Then MemClkDisMap should be pointed to the following array:
///< CLK_2 CLK_3 CLK_4 CLK_5
///< 0x00, 0x00, 0x02, 0x04, 0x01, 0x08, 0x00, 0x00
///< Each entry of the array is the bitmask of 8 chip selects.
OUT UINT8 *CKETriMap; ///< This pointer will be set to point to an array that describes
///< the routing of CKE pins to the DIMMs' ranks.
///< The array must have 2 entries. Each entry, which associates with
///< one CKE pin, is a bitmap of 8 CS that that CKE is routed to.
///< AGESA will base on this array to disable unused CKE pins to save power.
OUT UINT8 *ODTTriMap; ///< This pointer will be set to point to an array that describes
///< the routing of ODT pins to the DIMMs' ranks.
///< The array must have 4 entries. Each entry, which associates with
///< one ODT pin, is a bitmap of 8 CS that that ODT is routed to.
///< AGESA will base on this array to disable unused ODT pins to save power.
OUT UINT8 *ChipSelTriMap; ///< This pointer will be set to point to an array that describes
///< the routing of chip select pins to the DIMMs' ranks.
///< The array must have 8 entries. Each entry is a bitmap of 8 CS.
///< AGESA will base on this array to disable unused Chip select pins to save power.
OUT BOOLEAN ExtendTmp; ///< If extended temperature is supported on all dimms on a channel.
OUT UINT8 MaxVref; ///< Maximum Vref Value for channel
OUT UINT8 Reserved[100]; ///< Reserved
} CH_DEF_STRUCT;
///
/// DCT Channel Timing Parameters.
/// This data structure sets timings that are specific to the channel.
///
typedef struct _CH_TIMING_STRUCT {
OUT UINT16 DctDimmValid; ///< For each bit n 0..3, 1=DIMM n is valid and is/will be configured where 4..7 are reserved.
OUT UINT16 DimmMirrorPresent; ///< For each bit n 0..3, 1=DIMM n is OnDimmMirror capable where 4..7 are reserved.
OUT UINT16 DimmSpdCse; ///< For each bit n 0..3, 1=DIMM n SPD checksum error where 4..7 are reserved.
OUT UINT16 DimmExclude; ///< For each bit n 0..3, 1 = DIMM n gets excluded where 4..7 are reserved.
OUT UINT16 CsPresent; ///< For each bit n 0..7, 1=Chip-select n is present
OUT UINT16 CsEnabled; ///< For each bit n 0..7, 1=Chip-select n is enabled
OUT UINT16 CsTestFail; ///< For each bit n 0..7, 1=Chip-select n is present but disabled
OUT UINT16 CsTrainFail; ///< Bitmap showing which chipselects failed training
OUT UINT16 DIMM1KPage; ///< For each bit n 0..3, 1=DIMM n contains 1K page devices. where 4..7 are reserved
OUT UINT16 DimmQrPresent; ///< QuadRank DIMM present?
OUT UINT16 DimmDrPresent; ///< Bitmap indicating that Dual Rank Dimms are present , where 4..7 are reserved
OUT UINT8 DimmSRPresent; ///< Bitmap indicating that Single Rank Dimms are present, where 4..7 are reserved
OUT UINT16 Dimmx4Present; ///< For each bit n 0..3, 1=DIMM n contains x4 data devices. where 4..7 are reserved
OUT UINT16 Dimmx8Present; ///< For each bit n 0..3, 1=DIMM n contains x8 data devices. where 4..7 are reserved
OUT UINT16 Dimmx16Present; ///< For each bit n 0..3, 1=DIMM n contains x16 data devices. where 4..7 are reserved
OUT UINT16 DIMMTrcd; ///< Minimax Trcd*40 (ns) of DIMMs
OUT UINT16 DIMMTrp; ///< Minimax Trp*40 (ns) of DIMMs
OUT UINT16 DIMMTrtp; ///< Minimax Trtp*40 (ns) of DIMMs
OUT UINT16 DIMMTras; ///< Minimax Tras*40 (ns) of DIMMs
OUT UINT16 DIMMTrc; ///< Minimax Trc*40 (ns) of DIMMs
OUT UINT16 DIMMTwr; ///< Minimax Twr*40 (ns) of DIMMs
OUT UINT16 DIMMTrrd; ///< Minimax Trrd*40 (ns) of DIMMs
OUT UINT16 DIMMTwtr; ///< Minimax Twtr*40 (ns) of DIMMs
OUT UINT16 DIMMTfaw; ///< Minimax Tfaw*40 (ns) of DIMMs
OUT UINT16 TargetSpeed; ///< Target DRAM bus speed in MHz
OUT UINT16 Speed; ///< DRAM bus speed in MHz
///< 400 (MHz)
///< 533 (MHz)
///< 667 (MHz)
///< 800 (MHz)
///< and so on...
OUT UINT8 CasL; ///< CAS latency DCT setting (busclocks)
OUT UINT8 Trcd; ///< DCT Trcd (busclocks)
OUT UINT8 Trp; ///< DCT Trp (busclocks)
OUT UINT8 Trtp; ///< DCT Trtp (busclocks)
OUT UINT8 Tras; ///< DCT Tras (busclocks)
OUT UINT8 Trc; ///< DCT Trc (busclocks)
OUT UINT8 Twr; ///< DCT Twr (busclocks)
OUT UINT8 Trrd; ///< DCT Trrd (busclocks)
OUT UINT8 Twtr; ///< DCT Twtr (busclocks)
OUT UINT8 Tfaw; ///< DCT Tfaw (busclocks)
OUT UINT8 Trfc0; ///< DCT Logical DIMM0 Trfc
///< 0 = 75ns (for 256Mb devs)
///< 1 = 105ns (for 512Mb devs)
///< 2 = 127.5ns (for 1Gb devs)
///< 3 = 195ns (for 2Gb devs)
///< 4 = 327.5ns (for 4Gb devs)
OUT UINT8 Trfc1; ///< DCT Logical DIMM1 Trfc (see Trfc0 for format)
OUT UINT8 Trfc2; ///< DCT Logical DIMM2 Trfc (see Trfc0 for format)
OUT UINT8 Trfc3; ///< DCT Logical DIMM3 Trfc (see Trfc0 for format)
OUT UINT32 DctMemSize; ///< Base[47:16], total DRAM size controlled by this DCT.
///<
OUT BOOLEAN SlowMode; ///< 1T or 2T CMD mode (slow access mode)
///< FALSE = 1T
///< TRUE = 2T
OUT UINT8 TrwtTO; ///< DCT TrwtTO (busclocks)
OUT UINT8 Twrrd; ///< DCT Twrrd (busclocks)
OUT UINT8 Twrwr; ///< DCT Twrwr (busclocks)
OUT UINT8 Trdrd; ///< DCT Trdrd (busclocks)
OUT UINT8 TrwtWB; ///< DCT TrwtWB (busclocks)
OUT UINT8 TrdrdSD; ///< DCT TrdrdSD (busclocks)
OUT UINT8 TwrwrSD; ///< DCT TwrwrSD (busclocks)
OUT UINT8 TwrrdSD; ///< DCT TwrrdSD (busclocks)
OUT UINT16 MaxRdLat; ///< Max Read Latency
OUT UINT8 WrDatGrossH; ///< Temporary variables must be removed
OUT UINT8 DqsRcvEnGrossL; ///< Temporary variables must be removed
} CH_TIMING_STRUCT;
///
/// Data for each DCT.
/// This data structure defines data used to configure each DRAM controller.
///
typedef struct _DCT_STRUCT {
OUT UINT8 Dct; ///< Current Dct
OUT CH_TIMING_STRUCT Timings; ///< Channel Timing structure
OUT CH_TIMING_STRUCT *TimingsMemPs1; ///< Pointed to channel timing structure for memory Pstate 1
OUT CH_DEF_STRUCT *ChData; ///< Pointed to a dynamically allocated array of Channel structures
OUT UINT8 ChannelCount; ///< Number of channel per this DCT
OUT BOOLEAN BkIntDis; ///< Bank interleave requested but not enabled on current DCT
OUT UINT8 BankAddrMap; ///< Bank Address Mapping
OUT UINT8 EnabledChipSels; ///< Number of enabled chip selects on current DCT
} DCT_STRUCT;
///
/// Data Structure defining each Die.
/// This data structure contains information that is used to configure each Die.
///
typedef struct _DIE_STRUCT {
/// Advanced:
OUT UINT8 NodeId; ///< Node ID of current controller
OUT UINT8 SocketId; ///< Socket ID of this Die
OUT UINT8 DieId; ///< ID of this die relative to the socket
OUT PCI_ADDR PciAddr; ///< Pci bus and device number of this controller.
OUT AGESA_STATUS ErrCode; ///< Current error condition of Node
///< 0x0 = AGESA_SUCCESS
///< 0x1 = AGESA_UNSUPPORTED
///< 0x2 = AGESA_BOUNDS_CHK
///< 0x3 = AGESA_ALERT
///< 0x4 = AGESA_WARNING
///< 0x5 = AGESA_ERROR
///< 0x6 = AGESA_CRITICAL
///< 0x7 = AGESA_FATAL
///<
OUT BOOLEAN ErrStatus[EsbEOL]; ///< Error Status bit Field
///<
OUT BOOLEAN Status[SbEOL]; ///< Status bit Field
///<
OUT UINT32 NodeMemSize; ///< Base[47:16], total DRAM size controlled by both DCT0 and DCT1 of this Node.
///<
OUT UINT32 NodeSysBase; ///< Base[47:16] (system address) DRAM base address of this Node.
///<
OUT UINT32 NodeHoleBase; ///< If not zero, Base[47:16] (system address) of dram hole for HW remapping. Dram hole exists on this Node
///<
OUT UINT32 NodeSysLimit; ///< Base[47:16] (system address) DRAM limit address of this Node.
///<
OUT UINT32 DimmPresent; ///< For each bit n 0..7, 1 = DIMM n is present.
///< DIMM# Select Signal
///< 0 MA0_CS_L[0, 1]
///< 1 MB0_CS_L[0, 1]
///< 2 MA1_CS_L[0, 1]
///< 3 MB1_CS_L[0, 1]
///< 4 MA2_CS_L[0, 1]
///< 5 MB2_CS_L[0, 1]
///< 6 MA3_CS_L[0, 1]
///< 7 MB3_CS_L[0, 1]
///<
OUT UINT32 DimmValid; ///< For each bit n 0..7, 1 = DIMM n is valid and is / will be configured
OUT UINT32 RegDimmPresent; ///< For each bit n 0..7, 1 = DIMM n is registered DIMM
OUT UINT32 LrDimmPresent; ///< For each bit n 0..7, 1 = DIMM n is Load Reduced DIMM
OUT UINT32 DimmEccPresent; ///< For each bit n 0..7, 1 = DIMM n is ECC capable.
OUT UINT32 DimmParPresent; ///< For each bit n 0..7, 1 = DIMM n is ADR/CMD Parity capable.
///<
OUT UINT16 DimmTrainFail; ///< Bitmap showing which dimms failed training
OUT UINT16 ChannelTrainFail; ///< Bitmap showing the channel information about failed Chip Selects
///< 0 in any bit field indicates Channel 0
///< 1 in any bit field indicates Channel 1
OUT UINT8 Dct; ///< Need to be removed
///< DCT pointer
OUT BOOLEAN GangedMode; ///< Ganged mode
///< 0 = disabled
///< 1 = enabled
OUT CPU_LOGICAL_ID LogicalCpuid; ///< The logical CPUID of the node
///<
OUT UINT16 HostBiosSrvc1; ///< UINT16 sized general purpose field for use by host BIOS. Scratch space.
///<
OUT UINT32 HostBiosSrvc2; ///< UINT32 sized general purpose field for use by host BIOS. Scratch space.
///<
OUT UINT8 MLoad; ///< Need to be removed
///< Number of devices loading MAA bus
///<
OUT UINT8 MaxAsyncLat; ///< Legacy wrapper
///<
OUT UINT8 ChbD3Rcvrdly; ///< Legacy wrapper
///<
OUT UINT16 ChaMaxRdLat; ///< Max Read Latency (ns) for DCT 0
///<
OUT UINT8 ChbD3BcRcvrdly; ///< CHB DIMM 3 Check UINT8 Receiver Enable Delay
OUT DCT_STRUCT *DctData; ///< Pointed to a dynamically allocated array of DCT_STRUCTs
OUT UINT8 DctCount; ///< Number of DCTs per this Die
OUT UINT8 Reserved[16]; ///< Reserved
} DIE_STRUCT;
/**********************************************************************
* S3 Support structure
**********************************************************************/
/// AmdInitResume, AmdS3LateRestore, and AmdS3Save param structure
typedef struct {
OUT UINT32 Signature; ///< "ASTR" for AMD Suspend-To-RAM
OUT UINT16 Version; ///< S3 Params version number
IN OUT UINT32 Flags; ///< Indicates operation
IN OUT VOID *NvStorage; ///< Pointer to memory critical save state data
IN OUT UINT32 NvStorageSize; ///< Size in bytes of the NvStorage region
IN OUT VOID *VolatileStorage; ///< Pointer to remaining AMD save state data
IN OUT UINT32 VolatileStorageSize; ///< Size in bytes of the VolatileStorage region
} AMD_S3_PARAMS;
///===============================================================================
/// MEM_PARAMETER_STRUCT
/// This data structure is used to pass wrapper parameters to the memory configuration code
///
typedef struct _MEM_PARAMETER_STRUCT {
// Basic (Return parameters)
// (This section contains the outbound parameters from the memory init code)
OUT BOOLEAN GStatus[GsbEOL]; ///< Global Status bitfield.
///<
OUT UINT32 HoleBase; ///< If not zero Base[47:16] (system address) of sub 4GB dram hole for HW remapping.
///<
OUT UINT32 Sub4GCacheTop; ///< If not zero, the 32-bit top of cacheable memory.
///<
OUT UINT32 Sub1THoleBase; ///< If not zero Base[47:16] (system address) of sub 1TB dram hole.
///<
OUT UINT32 SysLimit; ///< Limit[47:16] (system address).
///<
OUT DIMM_VOLTAGE DDR3Voltage; ///< Find support voltage and send back to platform BIOS.
///<
OUT VDDP_VDDR_VOLTAGE VddpVddrVoltage; ///< For a given configuration, request is made to change the VDDP/VDDR
///< voltage in platform BIOS via AgesaHookBeforeDramInit callout and
///< MEM_PARAMETER_STRUCT.VddpVddrVoltage.Voltage parameter if
///< MEM_PARAMETER_STRUCT.VddpVddrVoltage.IsValid is TRUE. The
///< MEM_PARAMETER_STRUCT.VddpVddrVoltage.Voltage is defined in
///< MEMORY_PHY_VOLTAGE
OUT UINT8 ExternalVrefValue; ///< Target reference voltage for external Vref for 2D training
///<
OUT struct _MEM_DATA_STRUCT *MemData; ///< Access to global memory init data.
// Advanced (Optional parameters)
// Optional (all defaults values will be initialized by the
// 'AmdMemInitDataStructDef' based on AMD defaults. It is up
// to the IBV/OEM to change the defaults after initialization
// but prior to the main entry to the memory code):
// Memory Map/Mgt.
IN UINT16 BottomIo; ///< Bottom of 32-bit IO space (8-bits).
///< NV_BOTTOM_IO[7:0]=Addr[31:24]
///<
IN BOOLEAN MemHoleRemapping; ///< Memory Hole Remapping (1-bit).
///< FALSE = disable
///< TRUE = enable
///<
IN BOOLEAN LimitMemoryToBelow1Tb;///< Limit memory address space to below 1 TB
///< FALSE = disable
///< TRUE = enable
///<
///< @BldCfgItem{BLDCFG_LIMIT_MEMORY_TO_BELOW_1TB}
// Dram Timing
IN UINT32 UserTimingMode; ///< User Memclock Mode.
///< @BldCfgItem{BLDCFG_TIMING_MODE_SELECT}
IN UINT32 MemClockValue; ///< Memory Clock Value.
///< @BldCfgItem{BLDCFG_MEMORY_CLOCK_SELECT}
// Dram Configuration
IN BOOLEAN EnableBankIntlv; ///< Dram Bank (chip-select) Interleaving (1-bit).
///< - FALSE =disable (default)
///< - TRUE = enable
///<
///< @BldCfgItem{BLDCFG_MEMORY_ENABLE_BANK_INTERLEAVING}
IN BOOLEAN EnableNodeIntlv; ///< Node Memory Interleaving (1-bit).
///< - FALSE = disable (default)
///< - TRUE = enable
///<
///< @BldCfgItem{BLDCFG_MEMORY_ENABLE_NODE_INTERLEAVING}
IN BOOLEAN EnableChannelIntlv; ///< Channel Interleaving (1-bit).
///< - FALSE = disable (default)
///< - TRUE = enable
///<
///< @BldCfgItem{BLDCFG_MEMORY_CHANNEL_INTERLEAVING}
// DllPDBypassMode
IN BOOLEAN EnableDllPDBypassMode;///< Enable low-power DDR phy operation. This feature is used for low-power
///< solder-down DRAM motherboard designs with route matched CK/DQS/DQ signals.
///< It limits maximim achieveable DDR rates on the platform and should not be
///< enabled for systems requiring high DDR rate operation and/or DIMM-based systems.
///< - FALSE = disable
///< - TRUE = enable (default)
///<
///< @BldCfgItem{BLDCFG_DDR_PHY_DLL_BYPASS_MODE}
// ECC
IN BOOLEAN EnableEccFeature; ///< enable ECC error to go into MCE.
///< - FALSE = disable (default)
///< - TRUE = enable
///<
///< @BldCfgItem{BLDCFG_ENABLE_ECC_FEATURE}
// Dram Power
IN BOOLEAN EnablePowerDown; ///< CKE based power down mode (1-bit).
///< - FALSE =disable (default)
///< - TRUE =enable
///<
///< @BldCfgItem{BLDCFG_MEMORY_POWER_DOWN}
// Online Spare
IN BOOLEAN EnableOnLineSpareCtl; ///< Chip Select Spare Control bit 0.
///< - FALSE = disable Spare (default)
///< - TRUE = enable Spare
///<
///< @BldCfgItem{BLDCFG_ONLINE_SPARE}
IN UINT8 *TableBasedAlterations; ///< Desired modifications to register settings.
IN PSO_TABLE *PlatformMemoryConfiguration;
///< A table that contains platform specific settings.
///< For example, MemClk routing, the number of DIMM slots per channel, ....
///< AGESA initializes this pointer with DefaultPlatformMemoryConfiguration that
///< contains default conservative settings. Platform BIOS can either tweak
///< DefaultPlatformMemoryConfiguration or reassign this pointer to its own table.
///<
IN BOOLEAN EnableParity; ///< Parity control.
///< - TRUE = enable
///< - FALSE = disable (default)
///<
///< @BldCfgItem{BLDCFG_MEMORY_PARITY_ENABLE}
IN BOOLEAN EnableBankSwizzle; ///< BankSwizzle control.
///< - FALSE = disable
///< - TRUE = enable (default)
///<
///< @BldCfgItem{BLDCFG_BANK_SWIZZLE}
///<
IN BOOLEAN EnableMemClr; ///< Memory Clear functionality control.
///< - FALSE = disable
///< - TRUE = enable (default)
///<
// Uma Configuration
IN UMA_MODE UmaMode; ///< Uma Mode
///< 0 = None
///< 1 = Specified
///< 2 = Auto
IN OUT UINT32 UmaSize; ///< The size of shared graphics dram (16-bits)
///< NV_UMA_Size[31:0]=Addr[47:16]
///<
OUT UINT32 UmaBase; ///< The allocated Uma base address (32-bits)
///< NV_UMA_Base[31:0]=Addr[47:16]
///<
/// Memory Restore Feature
IN BOOLEAN MemRestoreCtl; ///< Memory context restore control
///< FALSE = perform memory init as normal (AMD default)
///< TRUE = restore memory context and skip training. This requires
///< MemContext is valid before AmdInitPost
///<
IN BOOLEAN SaveMemContextCtl; ///< Control switch to save memory context at the end of MemAuto
///< TRUE = AGESA will setup MemContext block before exit AmdInitPost
///< FALSE = AGESA will not setup MemContext block. Platform is
///< expected to call S3Save later in POST if it wants to
///< use memory context restore feature.
///<
IN OUT AMD_S3_PARAMS MemContext; ///< Memory context block describes the data that platform needs to
///< save and restore for memory context restore feature to work.
///< It uses the subset of S3Save block to save/restore. Hence platform
///< may save only S3 block and uses it for both S3 resume and
///< memory context restore.
///< - If MemRestoreCtl is TRUE, platform needs to pass in MemContext
///< before AmdInitPost.
///< - If SaveMemContextCtl is TRUE, platform needs to save MemContext
///< right after AmdInitPost.
///<
IN BOOLEAN IsCapsuleMode; ///< Capsule reboot control
///< FALSE = This is not a capsule reboot.
///< TRUE = This is a capsule reboot.
///<
IN BOOLEAN ExternalVrefCtl; ///< Control the use of external Vref
///< TRUE = AGESA will use the function defined in "AGESA_EXTERNAL_VREF_CHANGE" in function list
///< to change the vref
///< FALSE = AGESA will will use the internal vref control.
///< @BldCfgItem{BLDCFG_ENABLE_EXTERNAL_VREF_FEATURE}
///<
IN FORCE_TRAIN_MODE ForceTrainMode; ///< Training Mode
///< 0 = Force 1D Training for all configurations
///< 1 = Force 2D Training for all configurations
///< 2 = Auto - AGESA will control 1D or 2D
IN TECHNOLOGY_TYPE DimmTypeUsedInMixedConfig; ///< Select the preferred technology type that AGESA will enable
///< when it is mixed with other technology types.
///< DDR3_TECHNOLOGY = Use DDR3 DIMMs
///< GDDR5_TECHNOLOGY = Use GDDR5 DIMMs
///< UNSUPPORTED_TECHNOLOGY = Exit with fatal error when DDR3 and GDDR5 DIMMs
///< are installed on the same system
///< @BldCfgItem{BLDCFG_DIMM_TYPE_USED_IN_MIXED_CONFIG}
IN BOOLEAN AmpEnable; ///< AMP functionality control
///< TRUE = Enable, platform BIOS requests to enable memory overclocking function, and AGESA
///< detects if memory is capable of it
///< FALSE = Disable, there is no request to enable memory overclocking function
///<
IN BOOLEAN AmpWarningMsgEnable; ///< AMP warning messages control
///< TRUE = Enable to log the warning messages of AMP
///< FALSE = Disable
///<
OUT AMP_STATUS AmpStatus; ///< AMP status allows platform BIOS to check which voltage or warning message it should
///< use/apply.
///<
///< AmpVoltageValid :
///< TRUE - AGESA does enable AMP function, so use AmpVoltage for voltage adjustment
///< FALSE - AGESA does not enable AMP function, so use DDR3Voltage for voltage adjustment
///<
///< AmpSupportDetectedButNotEnabled :
///< TRUE - Display warning message of "AMP support detected but not enabled"
///< FALSE - No corresponding message should be displayed
///<
///< AmpSelectedButNotEnabled :
///< TRUE - Display warning message of "AMP selected but not enabled"
///< FALSE - No corresponding message should be displayed
///<
///< Note that both of warning message status reports are controlled by AmpWarningMsgEnable
///<
OUT AMP_DIMM_VOLTAGE AmpVoltage; ///< AMP voltage which will be sent back to platform BIOS, and
///< the value in AmpVoltage is valid only if AmpStatus is TRUE returned
IN BOOLEAN DataEyeEn; ///< Get 2D training data eye
///< TRUE = Enable to get the 2D data eye
///< FALSE = The 2D data eye is not enabled
///< @BldCfgItem{BLDCFG_ENABLE_DATA_EYE}
IN BOOLEAN DramDoubleRefreshRate;///< Specify the average time between refresh requests to all DRAM devices.
///< TRUE = 2x refresh rate.
///< FALSE = 1x refresh rate.
///< @BldCfgItem{BLDCFG_DRAM_DOUBLE_REFRESH_RATE}
IN PMU_TRAIN_MODE PmuTrainMode; ///< PMU Training Mode
///< @BldCfgItem{BLDCFG_PMU_TRAINING_MODE}
///< 0 = PMU 1D Training only for all configurations
///< 1 = PMU 1D and 2D Training read only for all configurations
///< 2 = PMU 1D and 2D Training for all configurations
///< 3 = AGESA control type of training depend on configurations
} MEM_PARAMETER_STRUCT;
///
/// Function definition.
/// This data structure passes function pointers to the memory configuration code.
/// The wrapper can use this structure with customized versions.
///
typedef struct _MEM_FUNCTION_STRUCT {
// PUBLIC required Internal functions
IN OUT BOOLEAN (*amdMemGetPsCfgU) ( VOID *pMemData); ///< Proc for Unbuffered DIMMs, platform specific
IN OUT BOOLEAN (*amdMemGetPsCfgR) (VOID *pMemData); ///< Proc for Registered DIMMs, platform specific
// PUBLIC optional functions
IN OUT VOID (*amdMemEccInit) (VOID *pMemData); ///< NB proc for ECC feature
IN OUT VOID (*amdMemChipSelectInterleaveInit) (VOID *pMemData); ///< NB proc for CS interleave feature
IN OUT VOID (*amdMemDctInterleavingInit) (VOID *pMemData); ///< NB proc for Channel interleave feature
IN OUT VOID (*amdMemMctInterleavingInit) (VOID *pMemData); ///< NB proc for Node interleave feature
IN OUT VOID (*amdMemParallelTraining) (VOID *pMemData); ///< NB proc for parallel training feature
IN OUT VOID (*amdMemEarlySampleSupport) (VOID *pMemData); ///< NB code for early sample support feature
IN OUT VOID (*amdMemMultiPartInitSupport) (VOID *pMemData); ///< NB code for 'multi-part'
IN OUT VOID (*amdMemOnlineSpareSupport) (VOID *pMemData); ///< NB code for On-Line Spare feature
IN OUT VOID (*amdMemUDimmInit) (VOID *pMemData); ///< NB code for UDIMMs
IN OUT VOID (*amdMemRDimmInit) (VOID *pMemData); ///< NB code for RDIMMs
IN OUT VOID (*amdMemLrDimmInit) (VOID *pMemData); ///< NB code for LRDIMMs
IN OUT UINT32 Reserved[100]; ///< Reserved for later function definition
} MEM_FUNCTION_STRUCT;
///
/// Socket Structure
///
///
typedef struct _MEM_SOCKET_STRUCT {
OUT VOID *ChannelPtr[MAX_CHANNELS_PER_SOCKET]; ///< Pointers to each channels training data
OUT VOID *TimingsPtr[MAX_CHANNELS_PER_SOCKET]; ///< Pointers to each channels timing data
} MEM_SOCKET_STRUCT;
///
/// Contains all data relevant to Memory Initialization.
///
typedef struct _MEM_DATA_STRUCT {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN MEM_PARAMETER_STRUCT *ParameterListPtr; ///< List of input Parameters
OUT MEM_FUNCTION_STRUCT FunctionList; ///< List of function Pointers
IN OUT AGESA_STATUS (*GetPlatformCfg[MAX_PLATFORM_TYPES]) (struct _MEM_DATA_STRUCT *MemData, UINT8 SocketID, CH_DEF_STRUCT *CurrentChannel); ///< look-up platform info
IN OUT BOOLEAN (*ErrorHandling)(struct _DIE_STRUCT *MCTPtr, UINT8 DCT, UINT16 ChipSelMask, AMD_CONFIG_PARAMS *StdHeader); ///< Error Handling
OUT MEM_SOCKET_STRUCT SocketList[MAX_SOCKETS_SUPPORTED]; ///< Socket list for memory code.
///< SocketList is a shortcut for IBVs to retrieve training
///< and timing data for each channel indexed by socket/channel,
///< eliminating their need to parse die/dct/channel etc.
///< It contains pointers to the populated data structures for
///< each channel and skips the channel structures that are
///< unpopulated. In the case of channels sharing the same DCT,
///< the pTimings pointers will point to the same DCT Timing data.
OUT DIE_STRUCT *DiesPerSystem; ///< Pointed to an array of DIE_STRUCTs
OUT UINT8 DieCount; ///< Number of MCTs in the system.
IN SPD_DEF_STRUCT *SpdDataStructure; ///< Pointer to SPD Data structure
IN OUT struct _PLATFORM_CONFIGURATION *PlatFormConfig; ///< Platform profile/build option config structure
IN OUT BOOLEAN IsFlowControlSupported; ///< Indicates if flow control is supported
OUT UINT32 TscRate; ///< The rate at which the TSC increments in megahertz.
IN BOOLEAN PhyReceiverLowPower; ///< Force PHY receiver in low power.
///< TRUE = PHY receiver low power
///< FALSE = PHY receiver high power
} MEM_DATA_STRUCT;
///
/// Uma Structure
///
///
typedef struct _UMA_INFO {
OUT UINT64 UmaBase; ///< UmaBase[63:0] = Addr[63:0]
OUT UINT32 UmaSize; ///< UmaSize[31:0] = Addr[31:0]
OUT UINT32 UmaAttributes; ///< Indicate the attribute of Uma
OUT UINT8 UmaMode; ///< Indicate the mode of Uma
OUT UINT16 MemClock; ///< Indicate memory running speed in MHz
OUT UINT8 MemType; ///< Indicate the DRAM technology type that is being used
OUT UINT8 Reserved[2]; ///< Reserved for future usage
} UMA_INFO;
/// Bitfield for ID
typedef struct {
OUT UINT16 SocketId:8; ///< Socket ID
OUT UINT16 ModuleId:8; ///< Module ID
} ID_FIELD;
///
/// Union for ID of socket and module that will be passed out in call out
///
typedef union {
OUT ID_FIELD IdField; ///< Bitfield for ID
OUT UINT16 IdInformation; ///< ID information for call out
} ID_INFO;
// AGESA MEMORY ERRORS
// AGESA_SUCCESS memory events
#define MEM_EVENT_CAPSULE_IN_EFFECT 0x04013600ul ///< Capsule is in effect
#define MEM_EVENT_CONTEXT_RESTORE_IN_EFFECT 0x04023600ul ///< Context restore is in effect
// AGESA_ALERT Memory Errors
#define MEM_ALERT_USER_TMG_MODE_OVERRULED 0x04010000ul ///< TIMING_MODE_SPECIFIC is requested but
///< cannot be applied to current configurations.
#define MEM_ALERT_ORG_MISMATCH_DIMM 0x04010100ul ///< DIMM organization miss-match
#define MEM_ALERT_BK_INT_DIS 0x04010200ul ///< Bank interleaving disable for internal issue
// AGESA_ERROR Memory Errors
#define MEM_ERROR_NO_DQS_POS_RD_WINDOW 0x04010300ul ///< No DQS Position window for RD DQS
#define MEM_ERROR_SMALL_DQS_POS_RD_WINDOW 0x04020300ul ///< Small DQS Position window for RD DQS
#define MEM_ERROR_NO_DQS_POS_WR_WINDOW 0x04030300ul ///< No DQS Position window for WR DQS
#define MEM_ERROR_SMALL_DQS_POS_WR_WINDOW 0x04040300ul ///< Small DQS Position window for WR DQS
#define MEM_ERROR_DIMM_SPARING_NOT_ENABLED 0x04010500ul ///< DIMM sparing has not been enabled for an internal issues
#define MEM_ERROR_RCVR_EN_VALUE_TOO_LARGE 0x04050300ul ///< Receive Enable value is too large
#define MEM_ERROR_RCVR_EN_NO_PASSING_WINDOW 0x04060300ul ///< There is no DQS receiver enable window
#define MEM_ERROR_DRAM_ENABLED_TIME_OUT 0x04010600ul ///< Time out when polling DramEnabled bit
#define MEM_ERROR_DCT_ACCESS_DONE_TIME_OUT 0x04010700ul ///< Time out when polling DctAccessDone bit
#define MEM_ERROR_SEND_CTRL_WORD_TIME_OUT 0x04010800ul ///< Time out when polling SendCtrlWord bit
#define MEM_ERROR_PREF_DRAM_TRAIN_MODE_TIME_OUT 0x04010900ul ///< Time out when polling PrefDramTrainMode bit
#define MEM_ERROR_ENTER_SELF_REF_TIME_OUT 0x04010A00ul ///< Time out when polling EnterSelfRef bit
#define MEM_ERROR_FREQ_CHG_IN_PROG_TIME_OUT 0x04010B00ul ///< Time out when polling FreqChgInProg bit
#define MEM_ERROR_EXIT_SELF_REF_TIME_OUT 0x04020A00ul ///< Time out when polling ExitSelfRef bit
#define MEM_ERROR_SEND_MRS_CMD_TIME_OUT 0x04010C00ul ///< Time out when polling SendMrsCmd bit
#define MEM_ERROR_SEND_ZQ_CMD_TIME_OUT 0x04010D00ul ///< Time out when polling SendZQCmd bit
#define MEM_ERROR_DCT_EXTRA_ACCESS_DONE_TIME_OUT 0x04010E00ul ///< Time out when polling DctExtraAccessDone bit
#define MEM_ERROR_MEM_CLR_BUSY_TIME_OUT 0x04010F00ul ///< Time out when polling MemClrBusy bit
#define MEM_ERROR_MEM_CLEARED_TIME_OUT 0x04020F00ul ///< Time out when polling MemCleared bit
#define MEM_ERROR_FLUSH_WR_TIME_OUT 0x04011000ul ///< Time out when polling FlushWr bit
#define MEM_ERROR_NBPSTATE_TRANSITION_TIME_OUT 0x04012600ul ///< Time out when polling CurNBPstate bit
#define MEM_ERROR_MAX_LAT_NO_WINDOW 0x04070300ul ///< Fail to find pass during Max Rd Latency training
#define MEM_ERROR_PARALLEL_TRAINING_LAUNCH_FAIL 0x04080300ul ///< Fail to launch training code on an AP
#define MEM_ERROR_PARALLEL_TRAINING_TIME_OUT 0x04090300ul ///< Fail to finish parallel training
#define MEM_ERROR_NO_ADDRESS_MAPPING 0x04011100ul ///< No address mapping found for a dimm
#define MEM_ERROR_RCVR_EN_NO_PASSING_WINDOW_EQUAL_LIMIT 0x040A0300ul ///< There is no DQS receiver enable window and the value is equal to the largest value
#define MEM_ERROR_RCVR_EN_VALUE_TOO_LARGE_LIMIT_LESS_ONE 0x040B0300ul ///< Receive Enable value is too large and is 1 less than limit
#define MEM_ERROR_CHECKSUM_NV_SPDCHK_RESTRT_ERROR 0x04011200ul ///< SPD Checksum error for NV_SPDCHK_RESTRT
#define MEM_ERROR_NO_CHIPSELECT 0x04011300ul ///< No chipselects found
#define MEM_ERROR_UNSUPPORTED_333MHZ_UDIMM 0x04011500ul ///< Unbuffered dimm is not supported at 333MHz
#define MEM_ERROR_WL_PRE_OUT_OF_RANGE 0x040C0300ul ///< Returned PRE value during write levelizzation was out of range
#define MEM_ERROR_NO_2D_RDDQS_WINDOW 0x040D0300ul ///< No 2D RdDqs Window
#define MEM_ERROR_NO_2D_RDDQS_HEIGHT 0x040E0300ul ///< No 2D RdDqs Height
#define MEM_ERROR_2D_DQS_ERROR 0x040F0300ul ///< 2d RdDqs Error
#define MEM_ERROR_INVALID_2D_RDDQS_VALUE 0x04022400ul ///< 2d RdDqs invalid value found
#define MEM_ERROR_2D_DQS_VREF_MARGIN_ERROR 0x04023400ul ///< 2d RdDqs Vef Margin error found
#define MEM_ERROR_LR_IBT_NOT_FOUND 0x04013500ul ///< No LR dimm IBT value is found
#define MEM_ERROR_MR0_NOT_FOUND 0x04023500ul ///< No MR0 value is found
#define MEM_ERROR_ODT_PATTERN_NOT_FOUND 0x04033500ul ///< No odt pattern value is found
#define MEM_ERROR_RC2_IBT_NOT_FOUND 0x04043500ul ///< No RC2 IBT value is found
#define MEM_ERROR_RC10_OP_SPEED_NOT_FOUND 0x04053500ul ///< No RC10 op speed is found
#define MEM_ERROR_RTT_NOT_FOUND 0x04063500ul ///< No RTT value is found
#define MEM_ERROR_P2D_NOT_FOUND 0x04073500ul ///< No 2D training config value is found
#define MEM_ERROR_SAO_NOT_FOUND 0x04083500ul ///< No slow access mode, Address timing and Output driver compensation value is found
#define MEM_ERROR_CLK_DIS_MAP_NOT_FOUND 0x04093500ul ///< No CLK disable map is found
#define MEM_ERROR_CKE_TRI_MAP_NOT_FOUND 0x040A3500ul ///< No CKE tristate map is found
#define MEM_ERROR_ODT_TRI_MAP_NOT_FOUND 0x040B3500ul ///< No ODT tristate map is found
#define MEM_ERROR_CS_TRI_MAP_NOT_FOUND 0x040C3500ul ///< No CS tristate map is found
#define MEM_ERROR_TRAINING_SEED_NOT_FOUND 0x040D3500ul ///< No training seed is found
#define MEM_ERROR_NO_2D_WRDAT_WINDOW 0x040D0400ul ///< No 2D WrDat Window
#define MEM_ERROR_NO_2D_WRDAT_HEIGHT 0x040E0400ul ///< No 2D WrDat Height
#define MEM_ERROR_2D_WRDAT_ERROR 0x040F0400ul ///< 2d WrDat Error
#define MEM_ERROR_INVALID_2D_WRDAT_VALUE 0x04100400ul ///< 2d WrDat invalid value found
#define MEM_ERROR_2D_WRDAT_VREF_MARGIN_ERROR 0x04110400ul ///< 2d WrDat Vef Margin error found
#define MEM_ERROR_PMU_TRAINING 0x04120400ul ///< Fail PMU training.
// AGESA_WARNING Memory Errors
#define MEM_WARNING_UNSUPPORTED_QRDIMM 0x04011600ul ///< QR DIMMs detected but not supported
#define MEM_WARNING_UNSUPPORTED_UDIMM 0x04021600ul ///< U DIMMs detected but not supported
#define MEM_WARNING_UNSUPPORTED_SODIMM 0x04031600ul ///< SO-DIMMs detected but not supported
#define MEM_WARNING_UNSUPPORTED_X4DIMM 0x04041600ul ///< x4 DIMMs detected but not supported
#define MEM_WARNING_UNSUPPORTED_RDIMM 0x04051600ul ///< R DIMMs detected but not supported
#define MEM_WARNING_UNSUPPORTED_LRDIMM 0x04061600ul ///< LR DIMMs detected but not supported
#define MEM_WARNING_EMP_NOT_SUPPORTED 0x04011700ul ///< Processor is not capable for EMP
#define MEM_WARNING_EMP_CONFLICT 0x04021700ul ///< EMP cannot be enabled if channel interleaving,
#define MEM_WARNING_EMP_NOT_ENABLED 0x04031700ul ///< Memory size is not power of two.
#define MEM_WARNING_ECC_DIS 0x04041700ul ///< ECC has been disabled as a result of an internal issue
#define MEM_WARNING_PERFORMANCE_ENABLED_BATTERY_LIFE_PREFERRED 0x04011800ul ///< Performance has been enabled, but battery life is preferred.
///< bank interleaving, or bank swizzle is enabled.
#define MEM_WARNING_NO_SPDTRC_FOUND 0x04011900ul ///< No Trc timing value found in SPD of a dimm.
#define MEM_WARNING_NODE_INTERLEAVING_NOT_ENABLED 0x04012000ul ///< Node Interleaveing Requested, but could not be enabled
#define MEM_WARNING_CHANNEL_INTERLEAVING_NOT_ENABLED 0x04012100ul ///< Channel Interleaveing Requested, but could not be enabled
#define MEM_WARNING_BANK_INTERLEAVING_NOT_ENABLED 0x04012200ul ///< Bank Interleaveing Requested, but could not be enabled
#define MEM_WARNING_VOLTAGE_1_35_NOT_SUPPORTED 0x04012300ul ///< Voltage 1.35 determined, but could not be supported
#define MEM_WARNING_INITIAL_DDR3VOLT_NONZERO 0x04012400ul ///< DDR3 voltage initial value is not 0
#define MEM_WARNING_NO_COMMONLY_SUPPORTED_VDDIO 0x04012500ul ///< Cannot find a commonly supported VDDIO
#define MEM_WARNING_AMP_SUPPORT_DETECTED_BUT_NOT_ENABLED 0x04012900ul ///< AMP support detected but not enabled
#define MEM_WARNING_AMP_SELECTED_BUT_NOT_ENABLED 0x04022900ul ///< AMP selected but not enabled
// AGESA_FATAL Memory Errors
#define MEM_ERROR_MINIMUM_MODE 0x04011A00ul ///< Running in minimum mode
#define MEM_ERROR_MODULE_TYPE_MISMATCH_DIMM 0x04011B00ul ///< DIMM modules are miss-matched
#define MEM_ERROR_NO_DIMM_FOUND_ON_SYSTEM 0x04011C00ul ///< No DIMMs have been found
#define MEM_ERROR_MISMATCH_DIMM_CLOCKS 0x04011D00ul ///< DIMM clocks miss-matched
#define MEM_ERROR_NO_CYC_TIME 0x04011E00ul ///< No cycle time found
#define MEM_ERROR_HEAP_ALLOCATE_DYN_STORING_OF_TRAINED_TIMINGS 0x04011F00ul ///< Heap allocation error with dynamic storing of trained timings
#define MEM_ERROR_HEAP_ALLOCATE_FOR_DCT_STRUCT_AND_CH_DEF_STRUCTs 0x04021F00ul ///< Heap allocation error for DCT_STRUCT and CH_DEF_STRUCT
#define MEM_ERROR_HEAP_ALLOCATE_FOR_REMOTE_TRAINING_ENV 0x04031F00ul ///< Heap allocation error with REMOTE_TRAINING_ENV
#define MEM_ERROR_HEAP_ALLOCATE_FOR_SPD 0x04041F00ul ///< Heap allocation error for SPD data
#define MEM_ERROR_HEAP_ALLOCATE_FOR_RECEIVED_DATA 0x04051F00ul ///< Heap allocation error for RECEIVED_DATA during parallel training
#define MEM_ERROR_HEAP_ALLOCATE_FOR_S3_SPECIAL_CASE_REGISTERS 0x04061F00ul ///< Heap allocation error for S3 "SPECIAL_CASE_REGISTER"
#define MEM_ERROR_HEAP_ALLOCATE_FOR_TRAINING_DATA 0x04071F00ul ///< Heap allocation error for Training Data
#define MEM_ERROR_HEAP_ALLOCATE_FOR_IDENTIFY_DIMM_MEM_NB_BLOCK 0x04081F00ul ///< Heap allocation error for DIMM Identify "MEM_NB_BLOCK
#define MEM_ERROR_NO_CONSTRUCTOR_FOR_IDENTIFY_DIMM 0x04022300ul ///< No Constructor for DIMM Identify
#define MEM_ERROR_VDDIO_UNSUPPORTED 0x04022500ul ///< VDDIO of the dimms on the board is not supported
#define MEM_ERROR_HEAP_ALLOCATE_FOR_2D 0x040B1F00ul ///< Heap allocation error for 2D training data
#define MEM_ERROR_HEAP_DEALLOCATE_FOR_2D 0x040C1F00ul ///< Heap de-allocation error for 2D training data
#define MEM_ERROR_HEAP_ALLOCATE_FOR_DATAEYE 0x040F1F00ul ///< Heap allocation error for DATAEYE Storage
#define MEM_ERROR_HEAP_DEALLOCATE_FOR_DATAEYE 0x040E1F00ul ///< Heap de-allocation error for DATAEYE Storage
#define MEM_ERROR_HEAP_ALLOCATE_FOR_PMU_SRAM_MSG_BLOCK 0x04101F00ul ///< Heap allocation error for PMU SRAM Message Block Storage
#define MEM_ERROR_HEAP_DEALLOCATE_FOR_PMU_SRAM_MSG_BLOCK 0x04111F00ul ///< Heap de-allocation error for PMU SRAM Message Block Storage
#define MEM_ERROR_HEAP_LOCATE_FOR_PMU_SRAM_MSG_BLOCK 0x04121F00ul ///< Heap location error for PMU SRAM Message Block Storage
// AGESA_CRITICAL Memory Errors
#define MEM_ERROR_HEAP_ALLOCATE_FOR_DMI_TABLE_DDR3 0x04091F00ul ///< Heap allocation error for DMI table for DDR3
#define MEM_ERROR_HEAP_ALLOCATE_FOR_DMI_TABLE_DDR2 0x040A1F00ul ///< Heap allocation error for DMI table for DDR2
#define MEM_ERROR_UNSUPPORTED_DIMM_CONFIG 0x04011400ul ///< Dimm population is not supported
#define MEM_ERROR_HEAP_ALLOCATE_FOR_CRAT_MEM_AFFINITY 0x040D1F00ul ///< Heap allocation error for CRAT memory affinity info
/*----------------------------------------------------------------------------
*
* END OF MEMORY-SPECIFIC DATA STRUCTURES
*
*----------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------
*
* CPU RELATED DEFINITIONS
*
*----------------------------------------------------------------------------
*/
// CPU Event definitions.
// Defines used to filter CPU events based on functional blocks
#define CPU_EVENT_PM_EVENT_MASK 0xFF00FF00ul
#define CPU_EVENT_PM_EVENT_CLASS 0x08000400ul
//================================================================
// CPU General events
// Heap allocation (AppFunction = 01h)
#define CPU_ERROR_HEAP_BUFFER_IS_NOT_PRESENT 0x08000100ul
#define CPU_ERROR_HEAP_IS_ALREADY_INITIALIZED 0x08010100ul
#define CPU_ERROR_HEAP_IS_FULL 0x08020100ul
#define CPU_ERROR_HEAP_BUFFER_HANDLE_IS_ALREADY_USED 0x08030100ul
#define CPU_ERROR_HEAP_BUFFER_HANDLE_IS_NOT_PRESENT 0x08040100ul
// BrandId (AppFunction = 02h)
#define CPU_ERROR_BRANDID_HEAP_NOT_AVAILABLE 0x08000200ul
// Micro code patch (AppFunction = 03h)
#define CPU_ERROR_MICRO_CODE_PATCH_IS_NOT_LOADED 0x08000300ul
// Power management (AppFunction = 04h)
#define CPU_EVENT_PM_PSTATE_OVERCURRENT 0x08000400ul
#define CPU_EVENT_PM_ALL_PSTATE_OVERCURRENT 0x08010400ul
#define CPU_ERROR_PSTATE_HEAP_NOT_AVAILABLE 0x08020400ul
#define CPU_ERROR_PM_NB_PSTATE_MISMATCH 0x08030400ul
#define CPU_ERROR_PM_ALL_PSTATE_OVER_FREQUENCY_LIMIT 0x08040400ul
#define CPU_EVENT_PM_PSTATE_FREQUENCY_LIMIT 0x08050400ul
// Other CPU events (AppFunction = 05h)
#define CPU_EVENT_BIST_ERROR 0x08000500ul
#define CPU_EVENT_UNKNOWN_PROCESSOR_FAMILY 0x08010500ul
#define CPU_EVENT_STACK_REENTRY 0x08020500ul
#define CPU_EVENT_CORE_NOT_IDENTIFIED 0x08030500ul
//=================================================================
// CPU Feature events
// Execution cache (AppFunction = 21h)
// AGESA_CACHE_SIZE_REDUCED 2101
// AGESA_CACHE_REGIONS_ACROSS_1MB 2102
// AGESA_CACHE_REGIONS_ACROSS_4GB 2103
// AGESA_REGION_NOT_ALIGNED_ON_BOUNDARY 2104
// AGESA_CACHE_START_ADDRESS_LESS_D0000 2105
// AGESA_THREE_CACHE_REGIONS_ABOVE_1MB 2106
// AGESA_DEALLOCATE_CACHE_REGIONS 2107
#define CPU_EVENT_EXECUTION_CACHE_ALLOCATION_ERROR 0x08002100ul
// Core Leveling (AppFunction = 22h)
#define CPU_WARNING_ADJUSTED_LEVELING_MODE 0x08002200ul
// SCS initialization (AppFunction = 24h)
// AGESA_SCS_HEAP_ENTRY_MISSING 2401
// AGESA_SCS_BUFFER_EMPTY 2402
// AGESA_SCS_WEIGHTS_MISMATCH 2403
#define CPU_EVENT_SCS_INITIALIZATION_ERROR 0x08002400ul
// CPU Build Configuration structures and definitions
/// Build Configuration structure for BLDCFG_AP_MTRR_SETTINGS
typedef struct {
IN UINT32 MsrAddr; ///< Fixed-Sized MTRR address
IN UINT64 MsrData; ///< MTRR Settings
} AP_MTRR_SETTINGS;
#define AMD_AP_MTRR_FIX64k_00000 0x00000250ul
#define AMD_AP_MTRR_FIX16k_80000 0x00000258ul
#define AMD_AP_MTRR_FIX16k_A0000 0x00000259ul
#define AMD_AP_MTRR_FIX4k_C0000 0x00000268ul
#define AMD_AP_MTRR_FIX4k_C8000 0x00000269ul
#define AMD_AP_MTRR_FIX4k_D0000 0x0000026Aul
#define AMD_AP_MTRR_FIX4k_D8000 0x0000026Bul
#define AMD_AP_MTRR_FIX4k_E0000 0x0000026Cul
#define AMD_AP_MTRR_FIX4k_E8000 0x0000026Dul
#define AMD_AP_MTRR_FIX4k_F0000 0x0000026Eul
#define AMD_AP_MTRR_FIX4k_F8000 0x0000026Ful
#define CPU_LIST_TERMINAL 0xFFFFFFFFul
/// Data structure for the Mapping Item between Unified ID for IDS Setup Option
/// and the option value.
///
typedef struct {
IN UINT16 IdsNvId; ///< Unified ID for IDS Setup Option.
OUT UINT16 IdsNvValue; ///< The value of IDS Setup Option.
} IDS_NV_ITEM;
/// Data Structure for IDS CallOut Function
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN IDS_NV_ITEM *IdsNvPtr; ///< Memory Pointer of IDS NV Table
IN OUT UINTN Reserved; ///< reserved
} IDS_CALLOUT_STRUCT;
/************************************************************************
*
* AGESA interface Call-Out function parameter structures
*
***********************************************************************/
/// Parameters structure for interface call-out AgesaAllocateBuffer
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN OUT UINT32 BufferLength; ///< Size of buffer to allocate
IN UINT32 BufferHandle; ///< Identifier or name for the buffer
OUT VOID *BufferPointer; ///< location of the created buffer
} AGESA_BUFFER_PARAMS;
/// Parameters structure for interface call-out AgesaHeapRebase
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
OUT UINTN HeapAddress; ///< The address which heap content will be temporarily stored in
} AGESA_REBASE_PARAMS;
/// Parameters structure for interface call-out AgesaRunCodeOnAp
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN UINT32 FunctionNumber; ///< Index of the procedure to execute
IN VOID *RelatedDataBlock; ///< Location of data structure the procedure will use
IN UINT32 RelatedBlockLength; ///< Size of the related data block
} AP_EXE_PARAMS;
/// Parameters structure for the interface call-out AgesaReadSpd & AgesaReadSpdRecovery
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN UINT8 SocketId; ///< Address of SPD - socket ID
IN UINT8 MemChannelId; ///< Address of SPD - memory channel ID
IN UINT8 DimmId; ///< Address of SPD - DIMM ID
IN OUT UINT8 *Buffer; ///< Location where to place the SPD content
IN OUT MEM_DATA_STRUCT *MemData; ///< Location of the MemData structure, for reference
} AGESA_READ_SPD_PARAMS;
/// VoltageType values
typedef enum {
VTYPE_CPU_VREF, ///< Cpu side Vref
VTYPE_DIMM_VREF, ///< Dimm Side Vref
VTYPE_VDDIO ///< Vddio
} VTYPE;
/// Parameters structure for the interface call-out AgesaExternalVoltageAdjust
typedef struct _VOLTAGE_ADJUST {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN OUT MEM_DATA_STRUCT *MemData; ///< Location of the MemData structure, for reference
IN VTYPE VoltageType; ///< Which Voltage Type to adjust
IN INT8 AdjustValue; ///< Positive/Negative Adjust Value
} VOLTAGE_ADJUST;
/// Buffer Handles
typedef enum {
AMD_DMI_INFO_BUFFER_HANDLE = 0x000D000, ///< Assign 0x000D000 buffer handle to DMI function
AMD_PSTATE_DATA_BUFFER_HANDLE, ///< Assign 0x000D001 buffer handle to Pstate data
AMD_PSTATE_ACPI_BUFFER_HANDLE, ///< Assign 0x000D002 buffer handle to Pstate table
AMD_BRAND_ID_BUFFER_HANDLE, ///< Assign 0x000D003 buffer handle to Brand ID
AMD_ACPI_SLIT_BUFFER_HANDLE, ///< Assign 0x000D004 buffer handle to SLIT function
AMD_SRAT_INFO_BUFFER_HANDLE, ///< Assign 0x000D005 buffer handle to SRAT function
AMD_WHEA_BUFFER_HANDLE, ///< Assign 0x000D006 buffer handle to WHEA function
AMD_S3_INFO_BUFFER_HANDLE, ///< Assign 0x000D007 buffer handle to S3 function
AMD_S3_NB_INFO_BUFFER_HANDLE, ///< Assign 0x000D008 buffer handle to S3 NB device info
AMD_ACPI_ALIB_BUFFER_HANDLE, ///< Assign 0x000D009 buffer handle to ALIB SSDT table
AMD_ACPI_IVRS_BUFFER_HANDLE, ///< Assign 0x000D00A buffer handle to IOMMU IVRS table
AMD_CRAT_INFO_BUFFER_HANDLE, ///< Assign 0x000D00B buffer handle to CRAT function
AMD_ACPI_CDIT_BUFFER_HANDLE ///< Assign 0x000D00C buffer handle to CDIT function
} AMD_BUFFER_HANDLE;
/************************************************************************
*
* AGESA interface Call-Out function prototypes
*
***********************************************************************/
VOID
AgesaDoReset (
IN UINTN ResetType,
IN OUT AMD_CONFIG_PARAMS *StdHeader
);
AGESA_STATUS
AgesaAllocateBuffer (
IN UINTN FcnData,
IN OUT AGESA_BUFFER_PARAMS *AllocParams
);
AGESA_STATUS
AgesaDeallocateBuffer (
IN UINTN FcnData,
IN OUT AGESA_BUFFER_PARAMS *DeallocParams
);
AGESA_STATUS
AgesaLocateBuffer (
IN UINTN FcnData,
IN OUT AGESA_BUFFER_PARAMS *LocateParams
);
AGESA_STATUS
AgesaHeapRebase (
IN UINTN FcnData,
IN OUT AGESA_REBASE_PARAMS *RebaseParams
);
AGESA_STATUS
AgesaReadSpd (
IN UINTN FcnData,
IN OUT AGESA_READ_SPD_PARAMS *ReadSpd
);
AGESA_STATUS
AgesaReadSpdRecovery (
IN UINTN FcnData,
IN OUT AGESA_READ_SPD_PARAMS *ReadSpd
);
AGESA_STATUS
AgesaHookBeforeDramInitRecovery (
IN UINTN FcnData,
IN OUT MEM_DATA_STRUCT *MemData
);
AGESA_STATUS
AgesaRunFcnOnAp (
IN UINTN ApicIdOfCore,
IN AP_EXE_PARAMS *LaunchApParams
);
AGESA_STATUS
AgesaHookBeforeDramInit (
IN UINTN SocketIdModuleId,
IN OUT MEM_DATA_STRUCT *MemData
);
AGESA_STATUS
AgesaHookBeforeDQSTraining (
IN UINTN SocketIdModuleId,
IN OUT MEM_DATA_STRUCT *MemData
);
AGESA_STATUS
AgesaHookBeforeExitSelfRefresh (
IN UINTN FcnData,
IN OUT MEM_DATA_STRUCT *MemData
);
AGESA_STATUS
AgesaPcieSlotResetControl (
IN UINTN FcnData,
IN PCIe_SLOT_RESET_INFO *ResetInfo
);
AGESA_STATUS
AgesaGetVbiosImage (
IN UINTN FcnData,
IN OUT GFX_VBIOS_IMAGE_INFO *VbiosImageInfo
);
AGESA_STATUS
AgesaFchOemCallout (
IN VOID *FchData
);
AGESA_STATUS
AgesaExternal2dTrainVrefChange (
IN UINTN SocketIdModuleId,
IN OUT MEM_DATA_STRUCT *MemData
);
AGESA_STATUS
AgesaGetIdsData (
IN UINTN Data,
IN OUT IDS_CALLOUT_STRUCT *IdsCalloutData
);
AGESA_STATUS
AgesaExternalVoltageAdjust (
IN UINTN SocketIdModuleId,
IN OUT VOLTAGE_ADJUST *AdjustValue
);
AGESA_STATUS
AgesaGnbOemCallout (
IN AMD_CONFIG_PARAMS *StdHeader,
IN UINTN FcnData,
IN OUT VOID *GnbCalloutData
);
/************************************************************************
*
* AGESA interface structure definition and function prototypes
*
***********************************************************************/
/**********************************************************************
* Platform Configuration: The parameters in boot branch function
**********************************************************************/
/// The possible platform control flow settings.
typedef enum {
Nfcm, ///< Normal Flow Control Mode.
UmaDr, ///< UMA using Display Refresh flow control.
UmaIfcm, ///< UMA using Isochronous Flow Control.
Ifcm, ///< Isochronous Flow Control Mode (other than for UMA).
Iommu, ///< An IOMMU is in use in the system.
MaxControlFlow ///< Not a control flow mode, use for limit checking.
} PLATFORM_CONTROL_FLOW;
/// The possible hardware prefetch mode settings.
typedef enum {
HARDWARE_PREFETCHER_AUTO, ///< Use the recommended setting for the processor. In most cases, the recommended setting is enabled.
DISABLE_HW_PREFETCHER_TRAINING_ON_SOFTWARE_PREFETCHES, ///< Use the recommended setting for the hardware prefetcher, but disable training on software prefetches.
DISABLE_L1_PREFETCHER, ///< Use the recommended settings for the hardware prefetcher, but disable L1 prefetching and above.
DISABLE_L1_PREFETCHER_AND_HW_PREFETCHER_TRAINING_ON_SOFTWARE_PREFETCHES, ///< (deprecated) - This setting is deprecated; it has the same effect as DISABLE_L1_PREFETCHER
DISABLE_L2_STRIDE_PREFETCHER, ///< Use the recommended settings for the hardware prefetcher, but disable the L2 stride prefetcher and above
DISABLE_HARDWARE_PREFETCH, ///< Disable hardware prefetching.
MAX_HARDWARE_PREFETCH_MODE ///< Not a hardware prefetch mode, use for limit checking.
} HARDWARE_PREFETCH_MODE;
/// The possible software prefetch mode settings.
typedef enum {
SOFTWARE_PREFETCHES_AUTO, ///< Use the recommended setting for the processor. In most cases, the recommended setting is enabled.
DISABLE_SOFTWARE_PREFETCHES, ///< Disable software prefetches (convert software prefetch instructions to NOP).
MAX_SOFTWARE_PREFETCH_MODE ///< Not a software prefetch mode, use for limit checking.
} SOFTWARE_PREFETCH_MODE;
/// Advanced performance tunings, prefetchers.
/// These settings provide for performance tuning to optimize for specific workloads.
typedef struct {
IN HARDWARE_PREFETCH_MODE HardwarePrefetchMode; ///< This value provides for advanced performance tuning by controlling the hardware prefetcher setting.
IN SOFTWARE_PREFETCH_MODE SoftwarePrefetchMode; ///< This value provides for advanced performance tuning by controlling the software prefetch instructions.
IN DRAM_PREFETCH_MODE DramPrefetchMode; ///< This value provides for advanced performance tuning by controlling the DRAM prefetcher setting.
} ADVANCED_PERFORMANCE_PROFILE;
/// The possible platform power policy settings.
typedef enum {
Performance, ///< Optimize for performance.
BatteryLife, ///< Optimize for battery life.
Auto, ///< Auto
MaxPowerPolicy ///< Not a power policy mode, use for limit checking.
} PLATFORM_POWER_POLICY;
/// Platform performance settings for optimized settings.
/// Several configuration settings for the processor depend upon other parts and
/// general designer choices for the system. The determination of these data points
/// is not standard for all platforms, so the host environment needs to provide these
/// to specify how the system is to be configured.
typedef struct {
IN PLATFORM_CONTROL_FLOW PlatformControlFlowMode; ///< The platform's control flow mode for optimum platform performance.
///< @BldCfgItem{BLDCFG_PLATFORM_CONTROL_FLOW_MODE}
IN BOOLEAN Use32ByteRefresh; ///< Display Refresh traffic generates 32 byte requests.
///< @BldCfgItem{BLDCFG_USE_32_BYTE_REFRESH}
IN BOOLEAN UseVariableMctIsocPriority; ///< The Memory controller will be set to Variable Isoc Priority.
///< @BldCfgItem{BLDCFG_USE_VARIABLE_MCT_ISOC_PRIORITY}
IN ADVANCED_PERFORMANCE_PROFILE AdvancedPerformanceProfile; ///< The advanced platform performance settings.
IN PLATFORM_POWER_POLICY PlatformPowerPolicy; ///< The platform's desired power policy
///< @BldCfgItem{BLDCFG_PLATFORM_POWER_POLICY_MODE}
IN BOOLEAN NbPstatesSupported; ///< The Nb-Pstates is supported or not
///< @BldCfgItem{BLDCFG_NB_PSTATES_SUPPORTED}
} PERFORMANCE_PROFILE;
/// Platform settings that describe the voltage regulator modules of the system.
/// Many power management settings are dependent upon the characteristics of the
/// on-board voltage regulator module (VRM). The host environment needs to provide
/// these to specify how the system is to be configured.
typedef struct {
IN UINT32 CurrentLimit; ///< Vrm Current Limit.
///< @BldCfgItem{BLDCFG_VRM_CURRENT_LIMIT}
///< @BldCfgItem{BLDCFG_VRM_NB_CURRENT_LIMIT}
IN UINT32 LowPowerThreshold; ///< Vrm Low Power Threshold.
///< @BldCfgItem{BLDCFG_VRM_LOW_POWER_THRESHOLD}
///< @BldCfgItem{BLDCFG_VRM_NB_LOW_POWER_THRESHOLD}
IN UINT32 SlewRate; ///< Vrm Slew Rate.
///< @BldCfgItem{BLDCFG_VRM_SLEW_RATE}
///< @BldCfgItem{BLDCFG_VRM_NB_SLEW_RATE}
IN BOOLEAN HiSpeedEnable; ///< Select high speed VRM.
///< @BldCfgItem{BLDCFG_VRM_HIGH_SPEED_ENABLE}
///< @BldCfgItem{BLDCFG_VRM_NB_HIGH_SPEED_ENABLE}
IN UINT32 MaximumCurrentLimit; ///< Vrm Maximum Current Limit.
///< @BldCfgItem{BLDCFG_VRM_MAXIMUM_CURRENT_LIMIT}
///< @BldCfgItem{BLDCFG_VRM_NB_MAXIMUM_CURRENT_LIMIT}
IN UINT32 SviOcpLevel; ///< SVI OCP Level.
///< @BldCfgItem{BLDCFG_VRM_SVI_OCP_LEVEL}
///< @BldCfgItem{BLDCFG_VRM_NB_SVI_OCP_LEVEL}
} PLATFORM_VRM_CONFIGURATION;
/// The VRM types to characterize.
typedef enum {
CoreVrm, ///< VDD plane.
NbVrm, ///< VDDNB plane.
MaxVrmType ///< Not a valid VRM type, use for limit checking.
} PLATFORM_VRM_TYPE;
/// FCH Platform Configuration Policy
typedef struct {
IN UINT16 CfgSmbus0BaseAddress; ///< SMBUS0 Controller Base Address
IN UINT16 CfgSmbus1BaseAddress; ///< SMBUS1 Controller Base Address
IN UINT16 CfgSioPmeBaseAddress; ///< I/O base address for LPC I/O target range
IN UINT16 CfgAcpiPm1EvtBlkAddr; ///< I/O base address of ACPI power management Event Block
IN UINT16 CfgAcpiPm1CntBlkAddr; ///< I/O base address of ACPI power management Control Block
IN UINT16 CfgAcpiPmTmrBlkAddr; ///< I/O base address of ACPI power management Timer Block
IN UINT16 CfgCpuControlBlkAddr; ///< I/O base address of ACPI power management CPU Control Block
IN UINT16 CfgAcpiGpe0BlkAddr; ///< I/O base address of ACPI power management General Purpose Event Block
IN UINT16 CfgSmiCmdPortAddr; ///< I/O base address of ACPI SMI Command Block
IN UINT16 CfgAcpiPmaCntBlkAddr; ///< I/O base address of ACPI power management additional control block
IN UINT32 CfgGecShadowRomBase; ///< 32-bit base address to the GEC shadow ROM
IN UINT32 CfgWatchDogTimerBase; ///< Watchdog Timer base address
IN UINT32 CfgSpiRomBaseAddress; ///< Base address for the SPI ROM controller
IN UINT32 CfgHpetBaseAddress; ///< HPET MMIO base address
IN UINT32 CfgAzaliaSsid; ///< Subsystem ID of HD Audio controller
IN UINT32 CfgSmbusSsid; ///< Subsystem ID of SMBUS controller
IN UINT32 CfgIdeSsid; ///< Subsystem ID of IDE controller
IN UINT32 CfgSataAhciSsid; ///< Subsystem ID of SATA controller in AHCI mode
IN UINT32 CfgSataIdeSsid; ///< Subsystem ID of SATA controller in IDE mode
IN UINT32 CfgSataRaid5Ssid; ///< Subsystem ID of SATA controller in RAID5 mode
IN UINT32 CfgSataRaidSsid; ///< Subsystem ID of SATA controller in RAID mode
IN UINT32 CfgEhciSsid; ///< Subsystem ID of EHCI
IN UINT32 CfgOhciSsid; ///< Subsystem ID of OHCI
IN UINT32 CfgLpcSsid; ///< Subsystem ID of LPC ISA Bridge
IN UINT32 CfgSdSsid; ///< Subsystem ID of SecureDigital controller
IN UINT32 CfgXhciSsid; ///< Subsystem ID of XHCI
IN BOOLEAN CfgFchPort80BehindPcib; ///< Is port80 cycle going to the PCI bridge
IN BOOLEAN CfgFchEnableAcpiSleepTrap; ///< ACPI sleep SMI enable/disable
IN GPP_LINKMODE CfgFchGppLinkConfig; ///< GPP link configuration
IN BOOLEAN CfgFchGppPort0Present; ///< Is FCH GPP port 0 present
IN BOOLEAN CfgFchGppPort1Present; ///< Is FCH GPP port 1 present
IN BOOLEAN CfgFchGppPort2Present; ///< Is FCH GPP port 2 present
IN BOOLEAN CfgFchGppPort3Present; ///< Is FCH GPP port 3 present
IN BOOLEAN CfgFchGppPort0HotPlug; ///< Is FCH GPP port 0 hotplug capable
IN BOOLEAN CfgFchGppPort1HotPlug; ///< Is FCH GPP port 1 hotplug capable
IN BOOLEAN CfgFchGppPort2HotPlug; ///< Is FCH GPP port 2 hotplug capable
IN BOOLEAN CfgFchGppPort3HotPlug; ///< Is FCH GPP port 3 hotplug capable
IN UINT8 CfgFchEsataPortBitMap; ///< ESATA Port definition, eg: [0]=1, means port 0 is ESATA capable
IN UINT8 CfgFchIrPinControl; ///< Register bitfield describing Infrared Pin Control:
///< [0] - IR Enable 0
///< [1] - IR Enable 1
///< [2] - IR Tx0
///< [3] - IR Tx1
///< [4] - IR Open Drain
///< [5] - IR Enable LED
IN SD_CLOCK_CONTROL CfgFchSdClockControl; ///< FCH SD Clock Control
IN SCI_MAP_CONTROL *CfgFchSciMapControl; ///< FCH SCI Mapping Control
IN SATA_PHY_CONTROL *CfgFchSataPhyControl; ///< FCH SATA PHY Control
IN GPIO_CONTROL *CfgFchGpioControl; ///< FCH GPIO Control
IN BOOLEAN CfgFchRtcWorkAround; ///< FCH RTC Workaround
IN BOOLEAN CfgFchUsbPortDisWorkAround; ///< FCH USB Workaround
} FCH_PLATFORM_POLICY;
/// Build Option/Configuration Boolean Structure.
typedef struct {
IN AMD_CODE_HEADER VersionString; ///< AMD embedded code version string
//Build Option Area
IN BOOLEAN OptionUDimms; ///< @ref BLDOPT_REMOVE_UDIMMS_SUPPORT "BLDOPT_REMOVE_UDIMMS_SUPPORT"
IN BOOLEAN OptionRDimms; ///< @ref BLDOPT_REMOVE_RDIMMS_SUPPORT "BLDOPT_REMOVE_RDIMMS_SUPPORT"
IN BOOLEAN OptionLrDimms; ///< @ref BLDOPT_REMOVE_LRDIMMS_SUPPORT "BLDOPT_REMOVE_LRDIMMS_SUPPORT"
IN BOOLEAN OptionEcc; ///< @ref BLDOPT_REMOVE_ECC_SUPPORT "BLDOPT_REMOVE_ECC_SUPPORT"
IN BOOLEAN OptionBankInterleave; ///< @ref BLDOPT_REMOVE_BANK_INTERLEAVE "BLDOPT_REMOVE_BANK_INTERLEAVE"
IN BOOLEAN OptionDctInterleave; ///< @ref BLDOPT_REMOVE_DCT_INTERLEAVE "BLDOPT_REMOVE_DCT_INTERLEAVE"
IN BOOLEAN OptionNodeInterleave; ///< @ref BLDOPT_REMOVE_NODE_INTERLEAVE "BLDOPT_REMOVE_NODE_INTERLEAVE"
IN BOOLEAN OptionParallelTraining; ///< @ref BLDOPT_REMOVE_PARALLEL_TRAINING "BLDOPT_REMOVE_PARALLEL_TRAINING"
IN BOOLEAN OptionOnlineSpare; ///< @ref BLDOPT_REMOVE_ONLINE_SPARE_SUPPORT "BLDOPT_REMOVE_ONLINE_SPARE_SUPPORT"
IN BOOLEAN OptionMemRestore; ///< @ref BLDOPT_REMOVE_MEM_RESTORE_SUPPORT "BLDOPT_REMOVE_MEM_RESTORE_SUPPORT"
IN BOOLEAN OptionMultisocket; ///< @ref BLDOPT_REMOVE_MULTISOCKET_SUPPORT "BLDOPT_REMOVE_MULTISOCKET_SUPPORT"
IN BOOLEAN OptionAcpiPstates; ///< @ref BLDOPT_REMOVE_ACPI_PSTATES "BLDOPT_REMOVE_ACPI_PSTATES"
IN BOOLEAN OptionCrat; ///< @ref BLDOPT_REMOVE_CRAT "BLDOPT_REMOVE_CRAT"
IN BOOLEAN OptionCdit; ///< @ref BLDOPT_REMOVE_CDIT "BLDOPT_REMOVE_CDIT"
IN BOOLEAN OptionSrat; ///< @ref BLDOPT_REMOVE_SRAT "BLDOPT_REMOVE_SRAT"
IN BOOLEAN OptionSlit; ///< @ref BLDOPT_REMOVE_SLIT "BLDOPT_REMOVE_SLIT"
IN BOOLEAN OptionWhea; ///< @ref BLDOPT_REMOVE_WHEA "BLDOPT_REMOVE_WHEA"
IN BOOLEAN OptionDmi; ///< @ref BLDOPT_REMOVE_DMI "BLDOPT_REMOVE_DMI"
IN BOOLEAN OptionEarlySamples; ///< @ref BLDOPT_REMOVE_EARLY_SAMPLES "BLDOPT_REMOVE_EARLY_SAMPLES"
IN BOOLEAN OptionAddrToCsTranslator; ///< ADDR_TO_CS_TRANSLATOR
//Build Configuration Area
IN UINT64 CfgPciMmioAddress; ///< Pci Mmio Base Address to use for PCI Config accesses.
///< Build-time customizable only - @BldCfgItem{BLDCFG_PCI_MMIO_BASE}
IN UINT32 CfgPciMmioSize; ///< Pci Mmio region Size.
///< Build-time customizable only - @BldCfgItem{BLDCFG_PCI_MMIO_SIZE}
IN PLATFORM_VRM_CONFIGURATION CfgPlatVrmCfg[MaxVrmType]; ///< Several configuration settings for the voltage regulator modules.
IN UINT32 CfgCpuFrequencyLimit; ///< CPU frequency limit
IN PLATFORM_CONNECTED_STANDBY_MODES CfgPlatformConnectedStandbyMode; ///< Enable or disable connected standby
IN UINT32 CfgPlatNumIoApics; ///< The number of IO APICS for the platform.
IN UINT32 CfgMemInitPstate; ///< Memory Init Pstate.
IN PLATFORM_CSTATE_MODES CfgPlatformCStateMode; ///< Select the C-State Mode that will used.
IN UINT32 CfgPlatformCStateOpData; ///< An IO port or additional C-State setup data, depends on C-State mode.
IN UINT16 CfgPlatformCStateIoBaseAddress; ///< Specifies I/O ports that can be used to allow CPU to enter CStates
IN PLATFORM_CPB_MODES CfgPlatformCpbMode; ///< Enable or disable core performance boost
IN PLATFORM_LOW_POWER_PSTATE_MODES CfgLowPowerPstateForProcHot; ///< Low power Pstate for PROCHOT mode
IN UINT32 CfgCoreLevelingMode; ///< Apply any downcoring or core count leveling as specified.
IN PERFORMANCE_PROFILE CfgPerformanceProfile; ///< The platform's control flow mode and platform performance settings.
IN UINT32 CfgAmdPlatformType; ///< Designate the platform as a Server, Desktop, or Mobile.
IN UINT32 CfgAmdPowerCeiling; ///< PowerCeiling, specifies a maximum power usage limit for the platform
IN UINT16 CfgHtcTemperatureLimit; ///< Hardware Thermal Control temperature limit in tenths of degrees Celsius.
IN UINT16 CfgLhtcTemperatureLimit; ///< Local Hardware Thermal Control temperature limit in tenths of degrees Celsius.
IN UINT32 CfgMemoryBusFrequencyLimit; ///< Memory Bus Frequency Limit.
///< Build-time customizable only - @BldCfgItem{BLDCFG_MEMORY_BUS_FREQUENCY_LIMIT}
IN BOOLEAN CfgMemoryModeUnganged; ///< Memory Mode Unganged.
///< Build-time customizable only - @BldCfgItem{BLDCFG_MEMORY_MODE_UNGANGED}
IN BOOLEAN CfgMemoryQuadRankCapable; ///< Memory Quad Rank Capable.
///< Build-time customizable only - @BldCfgItem{BLDCFG_MEMORY_QUAD_RANK_CAPABLE}
IN UINT32 CfgMemoryQuadrankType; ///< Memory Quadrank Type.
///< Build-time customizable only - @BldCfgItem{BLDCFG_MEMORY_QUADRANK_TYPE}
IN BOOLEAN CfgMemoryRDimmCapable; ///< Memory RDIMM Capable.
IN BOOLEAN CfgMemoryLRDimmCapable; ///< Memory LRDIMM Capable.
IN BOOLEAN CfgMemoryUDimmCapable; ///< Memory UDIMM Capable.
IN BOOLEAN CfgMemorySODimmCapable; ///< Memory SODimm Capable.
///< Build-time customizable only - @BldCfgItem{BLDCFG_MEMORY_SODIMM_CAPABLE}
IN BOOLEAN CfgLimitMemoryToBelow1Tb; ///< Limit memory address space to below 1TB
IN BOOLEAN CfgMemoryEnableBankInterleaving; ///< Memory Enable Bank Interleaving.
IN BOOLEAN CfgMemoryEnableNodeInterleaving; ///< Memory Enable Node Interleaving.
IN BOOLEAN CfgMemoryChannelInterleaving; ///< Memory Channel Interleaving.
IN BOOLEAN CfgMemoryPowerDown; ///< Memory Power Down.
IN UINT32 CfgPowerDownMode; ///< Power Down Mode.
IN BOOLEAN CfgOnlineSpare; ///< Online Spare.
IN BOOLEAN CfgMemoryParityEnable; ///< Memory Parity Enable.
IN BOOLEAN CfgBankSwizzle; ///< Bank Swizzle.
IN UINT32 CfgTimingModeSelect; ///< Timing Mode Select.
IN UINT32 CfgMemoryClockSelect; ///< Memory Clock Select.
IN BOOLEAN CfgDqsTrainingControl; ///< Dqs Training Control.
///< Build-time customizable only - @BldCfgItem{BLDCFG_DQS_TRAINING_CONTROL}
IN BOOLEAN CfgIgnoreSpdChecksum; ///< Ignore Spd Checksum.
///< Build-time customizable only - @BldCfgItem{BLDCFG_IGNORE_SPD_CHECKSUM}
IN BOOLEAN CfgUseBurstMode; ///< Use Burst Mode.
///< Build-time customizable only - @BldCfgItem{BLDCFG_USE_BURST_MODE}
IN BOOLEAN CfgMemoryAllClocksOn; ///< Memory All Clocks On.
///< Build-time customizable only - @BldCfgItem{BLDCFG_MEMORY_ALL_CLOCKS_ON}
IN BOOLEAN CfgDdrPhyDllBypassMode; ///< Enable DllPDBypassMode
IN BOOLEAN CfgEnableEccFeature; ///< Enable ECC Feature.
IN BOOLEAN CfgEccRedirection; ///< ECC Redirection.
///< Build-time customizable only - @BldCfgItem{BLDCFG_ECC_REDIRECTION}
IN UINT16 CfgScrubDramRate; ///< Scrub Dram Rate.
///< Build-time customizable only - @BldCfgItem{BLDCFG_SCRUB_DRAM_RATE}
IN UINT16 CfgScrubL2Rate; ///< Scrub L2Rate.
///< Build-time customizable only - @BldCfgItem{BLDCFG_SCRUB_L2_RATE}
IN UINT16 CfgScrubL3Rate; ///< Scrub L3Rate.
///< Build-time customizable only - @BldCfgItem{BLDCFG_SCRUB_L3_RATE}
IN UINT16 CfgScrubIcRate; ///< Scrub Ic Rate.
///< Build-time customizable only - @BldCfgItem{BLDCFG_SCRUB_IC_RATE}
IN UINT16 CfgScrubDcRate; ///< Scrub Dc Rate.
///< Build-time customizable only - @BldCfgItem{BLDCFG_SCRUB_DC_RATE}
IN BOOLEAN CfgEccSyncFlood; ///< ECC Sync Flood.
///< Build-time customizable only - @BldCfgItem{BLDCFG_ECC_SYNC_FLOOD}
IN UINT16 CfgEccSymbolSize; ///< ECC Symbol Size.
///< Build-time customizable only - @BldCfgItem{BLDCFG_ECC_SYMBOL_SIZE}
IN UINT64 CfgHeapDramAddress; ///< Heap contents will be temporarily stored in this address during the transition.
///< Build-time customizable only - @BldCfgItem{BLDCFG_HEAP_DRAM_ADDRESS}
IN BOOLEAN CfgNodeMem1GBAlign; ///< Node Mem 1GB boundary Alignment
IN BOOLEAN CfgS3LateRestore; ///< S3 Late Restore
IN BOOLEAN CfgAcpiPstateIndependent; ///< PSD method dependent/Independent
IN UINT32 CfgAcpiPstatesPsdPolicy; ///< PSD policy
IN AP_MTRR_SETTINGS *CfgApMtrrSettingsList; ///< The AP's MTRR settings before final halt
///< Build-time customizable only - @BldCfgItem{BLDCFG_AP_MTRR_SETTINGS_LIST}
IN UMA_MODE CfgUmaMode; ///< Uma Mode
IN UINT32 CfgUmaSize; ///< Uma Size [31:0]=Addr[47:16]
IN BOOLEAN CfgUmaAbove4G; ///< Uma Above 4G Support
IN UMA_ALIGNMENT CfgUmaAlignment; ///< Uma alignment
IN BOOLEAN CfgProcessorScopeInSb; ///< ACPI Processor Object in \\_SB scope
IN CHAR8 CfgProcessorScopeName0; ///< OEM specific 1st character of processor scope name.
IN CHAR8 CfgProcessorScopeName1; ///< OEM specific 2nd character of processor scope name.
IN UINT8 CfgGnbHdAudio; ///< GNB HD Audio
IN UINT8 CfgAbmSupport; ///< Abm Support
IN UINT8 CfgDynamicRefreshRate; ///< DRR Dynamic Refresh Rate
IN UINT16 CfgLcdBackLightControl; ///< LCD Backlight Control
IN UINT8 CfgGnb3dStereoPinIndex; ///< 3D Stereo Pin ID.
IN UINT32 CfgTempPcieMmioBaseAddress; ///< Temp pcie MMIO base Address
///< Build-time customizable only - @BldCfgItem{BLDCFG_TEMP_PCIE_MMIO_BASE_ADDRESS}
IN UINT32 CfgGnbIGPUSSID; ///< Gnb internal GPU SSID
///< Build-time customizable only - @BldCfgItem{BLDCFG_IGPU_SUBSYSTEM_ID}
IN UINT32 CfgGnbHDAudioSSID; ///< Gnb HD Audio SSID
///< Build-time customizable only - @BldCfgItem{BLDCFG_IGPU_HD_AUDIO_SUBSYSTEM_ID}
IN UINT32 CfgGnbPcieSSID; ///< Gnb PCIe SSID
///< Build-time customizable only - @BldCfgItem{BLDCFG_APU_PCIE_PORTS_SUBSYSTEM_ID}
IN UINT16 CfgLvdsSpreadSpectrum; ///< Lvds Spread Spectrum
///< Build-time customizable only - @BldCfgItem{BLDCFG_GFX_LVDS_SPREAD_SPECTRUM}
IN UINT16 CfgLvdsSpreadSpectrumRate; ///< Lvds Spread Spectrum Rate
///< Build-time customizable only - @BldCfgItem{BLDCFG_GFX_LVDS_SPREAD_SPECTRUM_RATE}
IN FCH_PLATFORM_POLICY *FchBldCfg; ///< FCH platform build configuration policy
IN BOOLEAN CfgIommuSupport; ///< IOMMU support
IN UINT8 CfgLvdsPowerOnSeqDigonToDe; ///< Panel initialization timing
IN UINT8 CfgLvdsPowerOnSeqDeToVaryBl; ///< Panel initialization timing
IN UINT8 CfgLvdsPowerOnSeqDeToDigon; ///< Panel initialization timing
IN UINT8 CfgLvdsPowerOnSeqVaryBlToDe; ///< Panel initialization timing
IN UINT8 CfgLvdsPowerOnSeqOnToOffDelay; ///< Panel initialization timing
IN UINT8 CfgLvdsPowerOnSeqVaryBlToBlon; ///< Panel initialization timing
IN UINT8 CfgLvdsPowerOnSeqBlonToVaryBl; ///< Panel initialization timing
IN UINT16 CfgLvdsMaxPixelClockFreq; ///< The maximum pixel clock frequency supported
IN UINT32 CfgLcdBitDepthControlValue; ///< The LCD bit depth control settings
IN UINT8 CfgLvds24bbpPanelMode; ///< The LVDS 24 BBP mode
IN LVDS_MISC_CONTROL CfgLvdsMiscControl; ///< THe LVDS Misc control
IN UINT16 CfgPcieRefClkSpreadSpectrum; ///< PCIe Reference Clock Spread Spectrum
///< Build-time customizable only - @BldCfgItem{BLDCFG_PCIE_REFCLK_SPREAD_SPECTRUM}
IN BOOLEAN CfgExternalVrefCtlFeature; ///< External Vref control
IN FORCE_TRAIN_MODE CfgForceTrainMode; ///< Force Train Mode
IN BOOLEAN CfgGnbRemoteDisplaySupport; ///< Wireless Display Support
IN IOMMU_EXCLUSION_RANGE_DESCRIPTOR *CfgIvrsExclusionRangeList;
IN BOOLEAN CfgGnbSyncFloodPinAsNmi; ///< @ref BLDCFG_USE_SYNCFLOOD_AS_NMI "BLDCFG_USE_SYNCFLOOD_AS_NMI"
IN UINT8 CfgIgpuEnableDisablePolicy; ///< This item defines the iGPU Enable/Disable policy
///< @li 0 = Auto - use current default
///< @li 2 = Disable iGPU if ANY PCI or PCIe Graphics card is present
///< @BldCfgItem{BLDCFG_IGPU_ENABLE_DISABLE_POLICY}
IN UINT8 CfgGnbSwTjOffset; ///< Software-writeable TjOffset to account for changes in junction temperature
///< Build-time customizable only - @BldCfgItem{BLDCFG_GNB_THERMAL_SENSOR_CORRECTION}
IN UINT8 CfgLvdsMiscVoltAdjustment; ///< Register LVDS_CTRL_4 to adjust LVDS output voltage
///< Build-time customizable only - @BldCfgItem{BLDCFG_LVDS_MISC_VOL_ADJUSTMENT}
IN DISPLAY_MISC_CONTROL CfgDisplayMiscControl; ///< The Display Misc control
IN DP_FIXED_VOLT_SWING_TYPE CfgDpFixedVoltSwingType;///< To indicate fixed voltage swing value
///< @BldCfgItem{BLDCFG_DP_FIXED_VOLT_SWING}
IN TECHNOLOGY_TYPE CfgDimmTypeUsedInMixedConfig; ///< Select the preferred technology type that AGESA will enable
///< when it is mixed with other technology types.
IN BOOLEAN CfgHybridBoostEnable; ///< HyBrid Boost support
///< @BldCfgItem{BLDCFG_HYBRID_BOOST_ENABLE}
IN UINT64 CfgGnbIoapicAddress; ///< GNB IOAPIC Base Address(NULL if platform configured)
///< @BldCfgItem{BLDCFG_GNB_IOAPIC_ADDRESS}
IN BOOLEAN CfgDataEyeEn; ///< Enable get 2D Data Eye
IN BOOLEAN CfgDockedTdpHeadroom; ///< @BldCfgItem{BLDCFG_DOCKED_TDP_HEADROOM}
IN BOOLEAN CfgBatteryBoostEn; ///< @BldCfgItem{BLDCFG_BATTERY_BOOST_EN}
IN UINT32 CfgTdpAcDocked; ///< @BldCfgItem{BLDCFG_TDP_AC_DOCKED}
IN UINT32 CfgTdpDcDocked; ///< @BldCfgItem{BLDCFG_TDP_DC_DOCKED}
IN UINT32 CfgTdpAcUnDocked; ///< @BldCfgItem{BLDCFG_TDP_AC_UNDOCKED}
IN UINT32 CfgTdpDcUnDocked; ///< @BldCfgItem{BLDCFG_TDP_DC_UNDOCKED}
IN BOOLEAN CfgStapmEnAcDocked; ///< @BldCfgItem{BLDCFG_STAPM_EN_AC_DOCKED}
IN BOOLEAN CfgStapmEnDcDocked; ///< @BldCfgItem{BLDCFG_STAPM_EN_DC_DOCKED}
IN BOOLEAN CfgStapmEnAcUnDocked; ///< @BldCfgItem{BLDCFG_STAPM_EN_AC_UNDOCKED}
IN BOOLEAN CfgStapmEnDcUnDocked; ///< @BldCfgItem{BLDCFG_STAPM_EN_DC_UNDOCKED}
IN UINT32 CfgStapmPowerAcDocked; ///< @BldCfgItem{BLDCFG_STAPM_POWER_AC_DOCKED}
IN UINT32 CfgStapmPowerDcDocked; ///< @BldCfgItem{BLDCFG_STAPM_POWER_DC_DOCKED}
IN UINT32 CfgStapmPowerAcUnDocked; ///< @BldCfgItem{BLDCFG_STAPM_POWER_AC_UNDOCKED}
IN UINT32 CfgStapmPowerDcUnDocked; ///< @BldCfgItem{BLDCFG_STAPM_POWER_DC_UNDOCKED}
IN BOOLEAN CfgDramDoubleRefreshRateEn; ///< Double DRAM refresh rate
IN ACP_SIZE CfgGnbAcpSize; ///< ACP size [31:0]=Addr[47:16]
///< @BldCfgItem{BLDCFG_ACP_SIZE}
IN PMU_TRAIN_MODE CfgPmuTrainMode; ///< Force Train Mode
///< @BldCfgItem{BLDCFG_PMU_TRAINING_MODE}
IN MEMORY_PHY_VOLTAGE CfgMemoryPhyVoltage; ///< Memory Phy voltage (VDDR)
///< @BldCfgItem{BLDCFG_MEMORY_PHY_VOLTAGE}
IN UINT32 CfgGpuFrequencyLimit; ///< @BldCfgItem{BLDCFG_GPU_FREQUENCY_LIMIT}
IN BOOLEAN CfgBapmEnable; ///< @BldCfgItem{BLDCFG_BAPM_ENABLE}
IN BOOLEAN Reserved; ///< reserved...
} BUILD_OPT_CFG;
/// A structure containing platform specific operational characteristics. This
/// structure is initially populated by the initializer with a copy of the same
/// structure that was created at build time using the build configuration controls.
typedef struct _PLATFORM_CONFIGURATION {
IN PERFORMANCE_PROFILE PlatformProfile; ///< Several configuration settings for the processor.
IN UINT8 CoreLevelingMode; ///< Indicates how to balance the number of cores per processor.
///< @BldCfgItem{BLDCFG_CORE_LEVELING_MODE}
IN PLATFORM_CSTATE_MODES CStateMode; ///< Specifies the method of C-State enablement - Disabled, or C6.
///< @BldCfgItem{BLDCFG_PLATFORM_CSTATE_MODE}
IN UINT32 CStatePlatformData; ///< This element specifies some pertinent data needed for the operation of the Cstate feature
///< If CStateMode is CStateModeC6, this item is reserved
///< @BldCfgItem{BLDCFG_PLATFORM_CSTATE_OPDATA}
IN UINT16 CStateIoBaseAddress; ///< This item specifies a free block of 8 consecutive bytes of I/O ports that
///< can be used to allow the CPU to enter Cstates.
///< @BldCfgItem{BLDCFG_PLATFORM_CSTATE_IO_BASE_ADDRESS}
IN PLATFORM_CPB_MODES CpbMode; ///< Specifies the method of core performance boost enablement - Disabled, or Auto.
///< @BldCfgItem{BLDCFG_PLATFORM_CPB_MODE}
IN BOOLEAN UserOptionDmi; ///< When set to TRUE, the DMI data table is generated.
IN BOOLEAN UserOptionPState; ///< When set to TRUE, the PState data tables are generated.
IN BOOLEAN UserOptionCrat; ///< When set to TRUE, the CRAT data table is generated.
IN BOOLEAN UserOptionCdit; ///< When set to TRUE, the CDIT data table is generated.
IN BOOLEAN UserOptionSrat; ///< When set to TRUE, the SRAT data table is generated.
IN BOOLEAN UserOptionSlit; ///< When set to TRUE, the SLIT data table is generated.
IN BOOLEAN UserOptionWhea; ///< When set to TRUE, the WHEA data table is generated.
IN PLATFORM_LOW_POWER_PSTATE_MODES LowPowerPstateForProcHot; ///< Specifies the method of low power Pstate for PROCHOT enablement - Disabled, or Auto.
IN UINT32 PowerCeiling; ///< P-State Ceiling Enabling Deck - Max power milli-watts.
IN BOOLEAN ForcePstateIndependent; ///< Deprecated in favor of PstatesPsdPolicy.
///< P-State _PSD is forced independent.
///< @BldCfgItem{BLDCFG_FORCE_INDEPENDENT_PSD_OBJECT}
IN UINT32 PstatesPsdPolicy; ///< PSD policy
///< @BldCfgItem{BLDCFG_ACPI_PSTATES_PSD_POLICY}
IN UINT32 CpuFrequencyLimit; ///< @BldCfgItem{BLDCFG_CPU_FREQUENCY_LIMIT}
IN PLATFORM_CONNECTED_STANDBY_MODES CfgPlatformConnectedStandbyMode; ///< @BldCfgItem{BLDCFG_CPU_CONNECTED_STANDBY_MODE}
IN UINT32 NumberOfIoApics; ///< Number of I/O APICs in the system
///< @BldCfgItem{BLDCFG_PLATFORM_NUM_IO_APICS}
IN PLATFORM_VRM_CONFIGURATION VrmProperties[MaxVrmType]; ///< Several configuration settings for the voltage regulator modules.
IN BOOLEAN ProcessorScopeInSb; ///< ACPI Processor Object in \\_SB scope
///< @BldCfgItem{BLDCFG_PROCESSOR_SCOPE_IN_SB}
IN CHAR8 ProcessorScopeName0; ///< OEM specific 1st character of processor scope name.
///< @BldCfgItem{BLDCFG_PROCESSOR_SCOPE_NAME0}
IN CHAR8 ProcessorScopeName1; ///< OEM specific 2nd character of processor scope name.
///< @BldCfgItem{BLDCFG_PROCESSOR_SCOPE_NAME1}
IN UINT8 GnbHdAudio; ///< Control GFX HD Audio controller(Used for HDMI and DP display output),
///< essentially it enables function 1 of graphics device.
///< @li 0 = HD Audio disable
///< @li 1 = HD Audio enable
///< @BldCfgItem{BLDCFG_CFG_GNB_HD_AUDIO}
IN UINT8 AbmSupport; ///< Automatic adjust LVDS/eDP Back light level support.It is
///< characteristic specific to display panel which used by platform design.
///< @li 0 = ABM support disabled
///< @li 1 = ABM support enabled
///< @BldCfgItem{BLDCFG_CFG_ABM_SUPPORT}
IN UINT8 DynamicRefreshRate; ///< Adjust refresh rate on LVDS/eDP.
///< @BldCfgItem{BLDCFG_CFG_DYNAMIC_REFRESH_RATE}
IN UINT16 LcdBackLightControl; ///< The PWM frequency to LCD backlight control.
///< If equal to 0 backlight not controlled by iGPU
///< @BldCfgItem{BLDCFG_CFG_LCD_BACK_LIGHT_CONTROL}
IN UINT16 HtcTemperatureLimit; ///< The Hardware Thermal Control temperature limit in tenths of degrees Celsius.
///< If equal to 0, use hardware defaults.
///< @BldCfgItem{BLDCFG_HTC_TEMPERATURE_LIMIT}
IN UINT16 LhtcTemperatureLimit; ///< The Local Hardware Thermal Control temperature limit in tenths of degrees Celsius.
///< If equal to 0, use hardware defaults.
///< @BldCfgItem{BLDCFG_LHTC_TEMPERATURE_LIMIT}
IN ACP_SIZE AcpSize; ///< The size of ACP dram
///< ACP_Size[31:0]=Addr[47:16]
///< @BldCfgItem{BLDCFG_ACP_SIZE}
} PLATFORM_CONFIGURATION;
/**********************************************************************
* Structures for: AmdInitLate
**********************************************************************/
#define PROC_VERSION_LENGTH 48
#define MAX_DIMMS_PER_SOCKET 16
#define PROC_MANU_LENGTH 29
/* Interface Parameter Structures */
/// DMI Type4 - Processor ID
typedef struct {
OUT UINT32 ProcIdLsd; ///< Lower half of 64b ID
OUT UINT32 ProcIdMsd; ///< Upper half of 64b ID
} TYPE4_PROC_ID;
/// DMI Type 4 - Processor information
typedef struct {
OUT UINT8 T4ProcType; ///< CPU Type
OUT UINT8 T4ProcFamily; ///< Family 1
OUT TYPE4_PROC_ID T4ProcId; ///< Id
OUT UINT8 T4Voltage; ///< Voltage
OUT UINT16 T4ExternalClock; ///< External clock
OUT UINT16 T4MaxSpeed; ///< Max speed
OUT UINT16 T4CurrentSpeed; ///< Current speed
OUT UINT8 T4Status; ///< Status
OUT UINT8 T4ProcUpgrade; ///< Up grade
OUT UINT8 T4CoreCount; ///< Core count
OUT UINT8 T4CoreEnabled; ///< Core Enable
OUT UINT8 T4ThreadCount; ///< Thread count
OUT UINT16 T4ProcCharacteristics; ///< Characteristics
OUT UINT16 T4ProcFamily2; ///< Family 2
OUT CHAR8 T4ProcVersion[PROC_VERSION_LENGTH]; ///< Cpu version
OUT CHAR8 T4ProcManufacturer[PROC_MANU_LENGTH]; ///< Manufacturer
} TYPE4_DMI_INFO;
/// DMI Type 7 - Cache information
typedef struct _TYPE7_DMI_INFO {
OUT UINT16 T7CacheCfg; ///< Cache cfg
OUT UINT16 T7MaxCacheSize; ///< Max size
OUT UINT16 T7InstallSize; ///< Install size
OUT UINT16 T7SupportedSramType; ///< Supported Sram Type
OUT UINT16 T7CurrentSramType; ///< Current type
OUT UINT8 T7CacheSpeed; ///< Speed
OUT UINT8 T7ErrorCorrectionType; ///< ECC type
OUT UINT8 T7SystemCacheType; ///< Cache type
OUT UINT8 T7Associativity; ///< Associativity
} TYPE7_DMI_INFO;
/// DMI Type 16 offset 04h - Location
typedef enum {
OtherLocation = 0x01, ///< Assign 01 to Other
UnknownLocation, ///< Assign 02 to Unknown
SystemboardOrMotherboard, ///< Assign 03 to systemboard or motherboard
IsaAddonCard, ///< Assign 04 to ISA add-on card
EisaAddonCard, ///< Assign 05 to EISA add-on card
PciAddonCard, ///< Assign 06 to PCI add-on card
McaAddonCard, ///< Assign 07 to MCA add-on card
PcmciaAddonCard, ///< Assign 08 to PCMCIA add-on card
ProprietaryAddonCard, ///< Assign 09 to proprietary add-on card
NuBus, ///< Assign 0A to NuBus
Pc98C20AddonCard, ///< Assign 0A0 to PC-98/C20 add-on card
Pc98C24AddonCard, ///< Assign 0A1 to PC-98/C24 add-on card
Pc98EAddoncard, ///< Assign 0A2 to PC-98/E add-on card
Pc98LocalBusAddonCard ///< Assign 0A3 to PC-98/Local bus add-on card
} DMI_T16_LOCATION;
/// DMI Type 16 offset 05h - Memory Error Correction
typedef enum {
OtherUse = 0x01, ///< Assign 01 to Other
UnknownUse, ///< Assign 02 to Unknown
SystemMemory, ///< Assign 03 to system memory
VideoMemory, ///< Assign 04 to video memory
FlashMemory, ///< Assign 05 to flash memory
NonvolatileRam, ///< Assign 06 to non-volatile RAM
CacheMemory ///< Assign 07 to cache memory
} DMI_T16_USE;
/// DMI Type 16 offset 07h - Maximum Capacity
typedef enum {
Dmi16OtherErrCorrection = 0x01, ///< Assign 01 to Other
Dmi16UnknownErrCorrection, ///< Assign 02 to Unknown
Dmi16NoneErrCorrection, ///< Assign 03 to None
Dmi16Parity, ///< Assign 04 to parity
Dmi16SingleBitEcc, ///< Assign 05 to Single-bit ECC
Dmi16MultiBitEcc, ///< Assign 06 to Multi-bit ECC
Dmi16Crc ///< Assign 07 to CRC
} DMI_T16_ERROR_CORRECTION;
/// DMI Type 16 - Physical Memory Array
typedef struct {
OUT DMI_T16_LOCATION Location; ///< The physical location of the Memory Array,
///< whether on the system board or an add-in board.
OUT DMI_T16_USE Use; ///< Identifies the function for which the array
///< is used.
OUT DMI_T16_ERROR_CORRECTION MemoryErrorCorrection; ///< The primary hardware error correction or
///< detection method supported by this memory array.
OUT UINT16 NumberOfMemoryDevices; ///< The number of slots or sockets available
///< for memory devices in this array.
} TYPE16_DMI_INFO;
/// DMI Type 17 offset 0Eh - Form Factor
typedef enum {
OtherFormFactor = 0x01, ///< Assign 01 to Other
UnknowFormFactor, ///< Assign 02 to Unknown
SimmFormFactor, ///< Assign 03 to SIMM
SipFormFactor, ///< Assign 04 to SIP
ChipFormFactor, ///< Assign 05 to Chip
DipFormFactor, ///< Assign 06 to DIP
ZipFormFactor, ///< Assign 07 to ZIP
ProprietaryCardFormFactor, ///< Assign 08 to Proprietary Card
DimmFormFactorFormFactor, ///< Assign 09 to DIMM
TsopFormFactor, ///< Assign 10 to TSOP
RowOfChipsFormFactor, ///< Assign 11 to Row of chips
RimmFormFactor, ///< Assign 12 to RIMM
SodimmFormFactor, ///< Assign 13 to SODIMM
SrimmFormFactor, ///< Assign 14 to SRIMM
FbDimmFormFactor ///< Assign 15 to FB-DIMM
} DMI_T17_FORM_FACTOR;
/// DMI Type 17 offset 12h - Memory Type
typedef enum {
OtherMemType = 0x01, ///< Assign 01 to Other
UnknownMemType, ///< Assign 02 to Unknown
DramMemType, ///< Assign 03 to DRAM
EdramMemType, ///< Assign 04 to EDRAM
VramMemType, ///< Assign 05 to VRAM
SramMemType, ///< Assign 06 to SRAM
RamMemType, ///< Assign 07 to RAM
RomMemType, ///< Assign 08 to ROM
FlashMemType, ///< Assign 09 to Flash
EepromMemType, ///< Assign 10 to EEPROM
FepromMemType, ///< Assign 11 to FEPROM
EpromMemType, ///< Assign 12 to EPROM
CdramMemType, ///< Assign 13 to CDRAM
ThreeDramMemType, ///< Assign 14 to 3DRAM
SdramMemType, ///< Assign 15 to SDRAM
SgramMemType, ///< Assign 16 to SGRAM
RdramMemType, ///< Assign 17 to RDRAM
DdrMemType, ///< Assign 18 to DDR
Ddr2MemType, ///< Assign 19 to DDR2
Ddr2FbdimmMemType, ///< Assign 20 to DDR2 FB-DIMM
Ddr3MemType = 0x18, ///< Assign 24 to DDR3
Fbd2MemType ///< Assign 25 to FBD2
} DMI_T17_MEMORY_TYPE;
/// DMI Type 17 offset 13h - Type Detail
typedef struct {
OUT UINT16 Reserved1:1; ///< Reserved
OUT UINT16 Other:1; ///< Other
OUT UINT16 Unknown:1; ///< Unknown
OUT UINT16 FastPaged:1; ///< Fast-Paged
OUT UINT16 StaticColumn:1; ///< Static column
OUT UINT16 PseudoStatic:1; ///< Pseudo-static
OUT UINT16 Rambus:1; ///< RAMBUS
OUT UINT16 Synchronous:1; ///< Synchronous
OUT UINT16 Cmos:1; ///< CMOS
OUT UINT16 Edo:1; ///< EDO
OUT UINT16 WindowDram:1; ///< Window DRAM
OUT UINT16 CacheDram:1; ///< Cache Dram
OUT UINT16 NonVolatile:1; ///< Non-volatile
OUT UINT16 Registered:1; ///< Registered (Buffered)
OUT UINT16 Unbuffered:1; ///< Unbuffered (Unregistered)
OUT UINT16 Reserved2:1; ///< Reserved
} DMI_T17_TYPE_DETAIL;
/// DMI Type 17 - Memory Device
typedef struct {
OUT UINT16 Handle; ///< The temporary handle, or instance number, associated with the structure
OUT UINT16 TotalWidth; ///< Total Width, in bits, of this memory device, including any check or error-correction bits.
OUT UINT16 DataWidth; ///< Data Width, in bits, of this memory device.
OUT UINT16 MemorySize; ///< The size of the memory device.
OUT DMI_T17_FORM_FACTOR FormFactor; ///< The implementation form factor for this memory device.
OUT UINT8 DeviceSet; ///< Identifies when the Memory Device is one of a set of
///< Memory Devices that must be populated with all devices of
///< the same type and size, and the set to which this device belongs.
OUT CHAR8 DeviceLocator[8]; ///< The string number of the string that identifies the physically labeled socket or board position where the memory device is located.
OUT CHAR8 BankLocator[10]; ///< The string number of the string that identifies the physically labeled bank where the memory device is located.
OUT DMI_T17_MEMORY_TYPE MemoryType; ///< The type of memory used in this device.
OUT DMI_T17_TYPE_DETAIL TypeDetail; ///< Additional detail on the memory device type
OUT UINT16 Speed; ///< Identifies the speed of the device, in megahertz (MHz).
OUT UINT64 ManufacturerIdCode; ///< Manufacturer ID code.
OUT CHAR8 SerialNumber[9]; ///< Serial Number.
OUT CHAR8 PartNumber[19]; ///< Part Number.
OUT UINT8 Attributes; ///< Bits 7-4: Reserved, Bits 3-0: rank.
OUT UINT32 ExtSize; ///< Extended Size.
OUT UINT16 ConfigSpeed; ///< Configured memory clock speed
} TYPE17_DMI_INFO;
/// Memory DMI Type 17 - for memory use
typedef struct {
OUT UINT8 Socket:3; ///< Socket ID
OUT UINT8 Channel:2; ///< Channel ID
OUT UINT8 Dimm:2; ///< DIMM ID
OUT UINT8 DimmPresent:1; ///< Dimm Present
OUT UINT16 Handle; ///< The temporary handle, or instance number, associated with the structure
OUT UINT16 TotalWidth; ///< Total Width, in bits, of this memory device, including any check or error-correction bits.
OUT UINT16 DataWidth; ///< Data Width, in bits, of this memory device.
OUT UINT16 MemorySize; ///< The size of the memory device.
OUT DMI_T17_FORM_FACTOR FormFactor; ///< The implementation form factor for this memory device.
OUT UINT8 DeviceLocator; ///< The string number of the string that identifies the physically labeled socket or board position where the memory device is located.
OUT UINT8 BankLocator; ///< The string number of the string that identifies the physically labeled bank where the memory device is located.
OUT UINT16 Speed; ///< Identifies the speed of the device, in megahertz (MHz).
OUT UINT64 ManufacturerIdCode; ///< Manufacturer ID code.
OUT UINT8 SerialNumber[4]; ///< Serial Number.
OUT UINT8 PartNumber[18]; ///< Part Number.
OUT UINT8 Attributes; ///< Bits 7-4: Reserved, Bits 3-0: rank.
OUT UINT32 ExtSize; ///< Extended Size.
OUT UINT16 ConfigSpeed; ///< Configured memory clock speed
} MEM_DMI_PHYSICAL_DIMM_INFO;
/// Memory DMI Type 20 - for memory use
typedef struct {
OUT UINT8 Socket:3; ///< Socket ID
OUT UINT8 Channel:2; ///< Channel ID
OUT UINT8 Dimm:2; ///< DIMM ID
OUT UINT8 DimmPresent:1; ///< Dimm Present
OUT UINT32 StartingAddr; ///< The physical address, in kilobytes, of a range
///< of memory mapped to the referenced Memory Device.
OUT UINT32 EndingAddr; ///< The handle, or instance number, associated with
///< the Memory Device structure to which this address
///< range is mapped.
OUT UINT16 MemoryDeviceHandle; ///< The handle, or instance number, associated with
///< the Memory Device structure to which this address
///< range is mapped.
OUT UINT64 ExtStartingAddr; ///< The physical address, in bytes, of a range of
///< memory mapped to the referenced Memory Device.
OUT UINT64 ExtEndingAddr; ///< The physical ending address, in bytes, of the last of
///< a range of addresses mapped to the referenced Memory Device.
} MEM_DMI_LOGICAL_DIMM_INFO;
/// DMI Type 19 - Memory Array Mapped Address
typedef struct {
OUT UINT32 StartingAddr; ///< The physical address, in kilobytes,
///< of a range of memory mapped to the
///< specified physical memory array.
OUT UINT32 EndingAddr; ///< The physical ending address of the
///< last kilobyte of a range of addresses
///< mapped to the specified physical memory array.
OUT UINT16 MemoryArrayHandle; ///< The handle, or instance number, associated
///< with the physical memory array to which this
///< address range is mapped.
OUT UINT8 PartitionWidth; ///< Identifies the number of memory devices that
///< form a single row of memory for the address
///< partition defined by this structure.
OUT UINT64 ExtStartingAddr; ///< The physical address, in bytes, of a range of
///< memory mapped to the specified Physical Memory Array.
OUT UINT64 ExtEndingAddr; ///< The physical address, in bytes, of a range of
///< memory mapped to the specified Physical Memory Array.
} TYPE19_DMI_INFO;
///DMI Type 20 - Memory Device Mapped Address
typedef struct {
OUT UINT32 StartingAddr; ///< The physical address, in kilobytes, of a range
///< of memory mapped to the referenced Memory Device.
OUT UINT32 EndingAddr; ///< The handle, or instance number, associated with
///< the Memory Device structure to which this address
///< range is mapped.
OUT UINT16 MemoryDeviceHandle; ///< The handle, or instance number, associated with
///< the Memory Device structure to which this address
///< range is mapped.
OUT UINT16 MemoryArrayMappedAddressHandle; ///< The handle, or instance number, associated
///< with the Memory Array Mapped Address structure to
///< which this device address range is mapped.
OUT UINT8 PartitionRowPosition; ///< Identifies the position of the referenced Memory
///< Device in a row of the address partition.
OUT UINT8 InterleavePosition; ///< The position of the referenced Memory Device in
///< an interleave.
OUT UINT8 InterleavedDataDepth; ///< The maximum number of consecutive rows from the
///< referenced Memory Device that are accessed in a
///< single interleaved transfer.
OUT UINT64 ExtStartingAddr; ///< The physical address, in bytes, of a range of
///< memory mapped to the referenced Memory Device.
OUT UINT64 ExtEndingAddr; ///< The physical ending address, in bytes, of the last of
///< a range of addresses mapped to the referenced Memory Device.
} TYPE20_DMI_INFO;
/// Collection of pointers to the DMI records
typedef struct {
OUT TYPE4_DMI_INFO T4[MAX_SOCKETS_SUPPORTED]; ///< Type 4 struc
OUT TYPE7_DMI_INFO T7L1[MAX_SOCKETS_SUPPORTED]; ///< Type 7 struc 1
OUT TYPE7_DMI_INFO T7L2[MAX_SOCKETS_SUPPORTED]; ///< Type 7 struc 2
OUT TYPE7_DMI_INFO T7L3[MAX_SOCKETS_SUPPORTED]; ///< Type 7 struc 3
OUT TYPE16_DMI_INFO T16; ///< Type 16 struc
OUT TYPE17_DMI_INFO T17[MAX_SOCKETS_SUPPORTED][MAX_CHANNELS_PER_SOCKET][MAX_DIMMS_PER_CHANNEL]; ///< Type 17 struc
OUT TYPE19_DMI_INFO T19; ///< Type 19 struc
OUT TYPE20_DMI_INFO T20[MAX_SOCKETS_SUPPORTED][MAX_CHANNELS_PER_SOCKET][MAX_DIMMS_PER_CHANNEL]; ///< Type 20 struc
} DMI_INFO;
/**********************************************************************
* Interface call: AllocateExecutionCache
**********************************************************************/
#define MAX_CACHE_REGIONS 3
/// AllocateExecutionCache sub param structure for cached memory region
typedef struct {
IN OUT UINT32 ExeCacheStartAddr; ///< Start address
IN OUT UINT32 ExeCacheSize; ///< Size
} EXECUTION_CACHE_REGION;
/**********************************************************************
* Interface call: AmdGetAvailableExeCacheSize
**********************************************************************/
/// Get available Cache remain
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
OUT UINT32 AvailableExeCacheSize; ///< Remain size
} AMD_GET_EXE_SIZE_PARAMS;
AGESA_STATUS
AmdGetAvailableExeCacheSize (
IN OUT AMD_GET_EXE_SIZE_PARAMS *AmdGetExeSizeParams
);
/// Selection type for core leveling
typedef enum {
CORE_LEVEL_LOWEST, ///< Level to lowest common denominator
CORE_LEVEL_TWO, ///< Level to 2 cores
CORE_LEVEL_POWER_OF_TWO, ///< Level to 1,2,4 or 8
CORE_LEVEL_NONE, ///< Do no leveling
CORE_LEVEL_COMPUTE_UNIT, ///< Level cores to one core per compute unit
CORE_LEVEL_COMPUTE_UNIT_TWO, ///< Level cores to two cores per compute unit
CORE_LEVEL_COMPUTE_UNIT_THREE, ///< Level cores to three cores per compute unit
CORE_LEVEL_ONE, ///< Level to 1 core
CORE_LEVEL_THREE, ///< Level to 3 cores
CORE_LEVEL_FOUR, ///< Level to 4 cores
CORE_LEVEL_FIVE, ///< Level to 5 cores
CORE_LEVEL_SIX, ///< Level to 6 cores
CORE_LEVEL_SEVEN, ///< Level to 7 cores
CORE_LEVEL_EIGHT, ///< Level to 8 cores
CORE_LEVEL_NINE, ///< Level to 9 cores
CORE_LEVEL_TEN, ///< Level to 10 cores
CORE_LEVEL_ELEVEN, ///< Level to 11 cores
CORE_LEVEL_TWELVE, ///< Level to 12 cores
CORE_LEVEL_THIRTEEN, ///< Level to 13 cores
CORE_LEVEL_FOURTEEN, ///< Level to 14 cores
CORE_LEVEL_FIFTEEN, ///< Level to 15 cores
CoreLevelModeMax ///< Used for bounds checking
} CORE_LEVELING_TYPE;
/************************************************************************
*
* AGESA Basic Level interface structure definition and function prototypes
*
***********************************************************************/
/**********************************************************************
* Interface call: AmdCreateStruct
**********************************************************************/
AGESA_STATUS
AmdCreateStruct (
IN OUT AMD_INTERFACE_PARAMS *InterfaceParams
);
/**********************************************************************
* Interface call: AmdReleaseStruct
**********************************************************************/
AGESA_STATUS
AmdReleaseStruct (
IN OUT AMD_INTERFACE_PARAMS *InterfaceParams
);
/**********************************************************************
* Interface call: AmdInitReset
**********************************************************************/
/// AmdInitReset param structure
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN EXECUTION_CACHE_REGION CacheRegion[3]; ///< The cached memory region
IN FCH_RESET_INTERFACE FchInterface; ///< Interface for FCH configuration
} AMD_RESET_PARAMS;
AGESA_STATUS
AmdInitReset (
IN OUT AMD_RESET_PARAMS *ResetParams
);
/**********************************************************************
* Interface call: AmdInitEarly
**********************************************************************/
/// InitEarly param structure
///
/// Provide defaults or customizations to each service performed in AmdInitEarly.
///
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN EXECUTION_CACHE_REGION CacheRegion[3]; ///< Execution Map Interface
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
IN GNB_CONFIGURATION GnbConfig; ///< GNB configuration
} AMD_EARLY_PARAMS;
AGESA_STATUS
AmdInitEarly (
IN OUT AMD_EARLY_PARAMS *EarlyParams
);
/**********************************************************************
* Interface call: AmdInitPost
**********************************************************************/
/// AmdInitPost param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
IN MEM_PARAMETER_STRUCT MemConfig; ///< Memory post param
IN GNB_POST_CONFIGURATION GnbPostConfig; ///< GNB post param
} AMD_POST_PARAMS;
AGESA_STATUS
AmdInitPost (
IN OUT AMD_POST_PARAMS *PostParams ///< Amd Cpu init param
);
/**********************************************************************
* Interface call: AmdInitEnv
**********************************************************************/
/// AmdInitEnv param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
IN GNB_ENV_CONFIGURATION GnbEnvConfiguration; ///< GNB configuration
IN FCH_INTERFACE FchInterface; ///< FCH configuration
} AMD_ENV_PARAMS;
AGESA_STATUS
AmdInitEnv (
IN OUT AMD_ENV_PARAMS *EnvParams
);
/**********************************************************************
* Interface call: AmdInitMid
**********************************************************************/
/// AmdInitMid param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
IN GNB_MID_CONFIGURATION GnbMidConfiguration; ///< GNB configuration
IN FCH_INTERFACE FchInterface; ///< FCH configuration
} AMD_MID_PARAMS;
AGESA_STATUS
AmdInitMid (
IN OUT AMD_MID_PARAMS *MidParams
);
/**********************************************************************
* Interface call: AmdInitLate
**********************************************************************/
/// AmdInitLate param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
IN IOMMU_EXCLUSION_RANGE_DESCRIPTOR *IvrsExclusionRangeList; ///< Pointer to array of exclusion ranges
OUT DMI_INFO *DmiTable; ///< DMI Interface
OUT VOID *AcpiPState; ///< Acpi Pstate SSDT Table
OUT VOID *AcpiSrat; ///< SRAT Table
OUT VOID *AcpiSlit; ///< SLIT Table
OUT VOID *AcpiWheaMce; ///< WHEA MCE Table
OUT VOID *AcpiWheaCmc; ///< WHEA CMC Table
OUT VOID *AcpiAlib; ///< ACPI SSDT table with ALIB implementation
OUT VOID *AcpiIvrs; ///< IOMMU ACPI IVRS(I/O Virtualization Reporting Structure) table
OUT VOID *AcpiCrat; ///< Component Resource Affinity Table table
OUT VOID *AcpiCdit; ///< Component Locality Distance Information table
IN GNB_LATE_CONFIGURATION GnbLateConfiguration; ///< GNB configuration
} AMD_LATE_PARAMS;
AGESA_STATUS
AmdInitLate (
IN OUT AMD_LATE_PARAMS *LateParams
);
/**********************************************************************
* Interface call: AmdInitRecovery
**********************************************************************/
/// CPU Recovery Parameters
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
} AMD_CPU_RECOVERY_PARAMS;
/// AmdInitRecovery param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN MEM_PARAMETER_STRUCT MemConfig; ///< Memory post param
IN EXECUTION_CACHE_REGION CacheRegion[3]; ///< The cached memory region. And the max cache region is 3
IN AMD_CPU_RECOVERY_PARAMS CpuRecoveryParams; ///< Params for CPU related recovery init.
} AMD_RECOVERY_PARAMS;
AGESA_STATUS
AmdInitRecovery (
IN OUT AMD_RECOVERY_PARAMS *RecoveryParams
);
/**********************************************************************
* Interface call: AmdInitResume
**********************************************************************/
/// AmdInitResume param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< Platform operational characteristics
IN AMD_S3_PARAMS S3DataBlock; ///< Save state data
} AMD_RESUME_PARAMS;
AGESA_STATUS
AmdInitResume (
IN AMD_RESUME_PARAMS *ResumeParams
);
/**********************************************************************
* Interface call: AmdS3LateRestore
**********************************************************************/
/// AmdS3LateRestore param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
IN AMD_S3_PARAMS S3DataBlock; ///< Save state data
} AMD_S3LATE_PARAMS;
AGESA_STATUS
AmdS3LateRestore (
IN OUT AMD_S3LATE_PARAMS *S3LateParams
);
/**********************************************************************
* Interface call: AmdS3FinalRestore
**********************************************************************/
/// AmdS3FinalRestore param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
IN AMD_S3_PARAMS S3DataBlock; ///< Save state data
} AMD_S3FINAL_PARAMS;
AGESA_STATUS
AmdS3FinalRestore (
IN OUT AMD_S3FINAL_PARAMS *S3FinalParams
);
/**********************************************************************
* Interface call: AmdS3Save
**********************************************************************/
/// AmdS3Save param structure
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN PLATFORM_CONFIGURATION PlatformConfig; ///< platform operational characteristics.
OUT AMD_S3_PARAMS S3DataBlock; ///< Standard header
IN FCH_INTERFACE FchInterface; ///< FCH configuration
} AMD_S3SAVE_PARAMS;
AGESA_STATUS
AmdS3Save (
IN OUT AMD_S3SAVE_PARAMS *AmdS3SaveParams
);
/**********************************************************************
* Interface call: AmdLateRunApTask
**********************************************************************/
/**
* Entry point for AP tasking.
*/
AGESA_STATUS
AmdLateRunApTask (
IN AP_EXE_PARAMS *AmdApExeParams
);
//
// General Services API
//
/**********************************************************************
* Interface service call: AmdGetApicId
**********************************************************************/
/// Request the APIC ID of a particular core.
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN UINT8 Socket; ///< The Core's Socket.
IN UINT8 Core; ///< The Core id.
OUT BOOLEAN IsPresent; ///< The Core is present, and ApicAddress is valid.
OUT UINT8 ApicAddress; ///< The Core's APIC ID.
} AMD_APIC_PARAMS;
/**
* Get a specified Core's APIC ID.
*/
AGESA_STATUS
AmdGetApicId (
IN OUT AMD_APIC_PARAMS *AmdParamApic
);
/**********************************************************************
* Interface service call: AmdGetPciAddress
**********************************************************************/
/// Request the PCI Address of a Processor Module (that is, its Northbridge)
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN UINT8 Socket; ///< The Processor's socket
IN UINT8 Module; ///< The Module in that Processor
OUT BOOLEAN IsPresent; ///< The Core is present, and PciAddress is valid.
OUT PCI_ADDR PciAddress; ///< The Processor's PCI Config Space address (Function 0, Register 0)
} AMD_GET_PCI_PARAMS;
/**
* Get Processor Module's PCI Config Space address.
*/
AGESA_STATUS
AmdGetPciAddress (
IN OUT AMD_GET_PCI_PARAMS *AmdParamGetPci
);
/**********************************************************************
* Interface service call: AmdIdentifyCore
**********************************************************************/
/// Request the identity (Socket, Module, Core) of the current Processor Core
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
OUT UINT8 Socket; ///< The current Core's Socket
OUT UINT8 Module; ///< The current Core's Processor Module
OUT UINT8 Core; ///< The current Core's core id.
} AMD_IDENTIFY_PARAMS;
/**
* "Who am I" for the current running core.
*/
AGESA_STATUS
AmdIdentifyCore (
IN OUT AMD_IDENTIFY_PARAMS *AmdParamIdentify
);
/**********************************************************************
* Interface service call: AmdReadEventLog
**********************************************************************/
/// An Event Log Entry.
typedef struct {
IN AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
OUT UINT32 EventClass; ///< The severity of this event, matches AGESA_STATUS.
OUT UINT32 EventInfo; ///< The unique event identifier, zero means "no event".
OUT UINT32 DataParam1; ///< Data specific to the Event.
OUT UINT32 DataParam2; ///< Data specific to the Event.
OUT UINT32 DataParam3; ///< Data specific to the Event.
OUT UINT32 DataParam4; ///< Data specific to the Event.
} EVENT_PARAMS;
/**
* Read an Event from the Event Log.
*/
AGESA_STATUS
AmdReadEventLog (
IN EVENT_PARAMS *Event
);
/**********************************************************************
* Interface service call: AmdIdentifyDimm
**********************************************************************/
/// Request the identity of dimm from system address
typedef struct {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN UINT64 MemoryAddress; ///< System Address that needs to be translated to dimm identification.
OUT UINT8 SocketId; ///< The socket on which the targeted address locates.
OUT UINT8 MemChannelId; ///< The channel on which the targeted address locates.
OUT UINT8 DimmId; ///< The dimm on which the targeted address locates.
OUT UINT8 ChipSelect; ///< The chip select on which the targeted address locates.
OUT UINT8 Bank; ///< The Bank for which the error address resides
OUT UINT32 Row; ///< The Row for which the error address resides
OUT UINT16 Column; ///< The Column for which the error address resides
} AMD_IDENTIFY_DIMM;
/**
* Get the dimm identification for the address.
*/
AGESA_STATUS
AmdIdentifyDimm (
IN OUT AMD_IDENTIFY_DIMM *AmdDimmIdentify
);
AGESA_STATUS
AmdIdsRunApTaskLate (
IN AP_EXE_PARAMS *AmdApExeParams
);
/// Request the 2D Data Eye Training Data
#define RD_DATAEYE 0
#define WR_DATAEYE 1
/**********************************************************************
* Interface service call: AmdGet2DDataEye
**********************************************************************/
/// Request the training data eye on Socket, Channel, Dimm.
typedef struct _AMD_GET_DATAEYE {
IN OUT AMD_CONFIG_PARAMS StdHeader; ///< Standard configuration header
IN OUT AMD_POST_PARAMS *PostParamsPtr; ///< Pointer to AMD_POST_PARAMS
IN UINT8 SocketId; ///< The socket number to get the 2D data eye
IN UINT8 MemChannelId; ///< The channel number to get the 2D data eye
IN UINT8 DimmId; ///< The dimm number to get the 2D data eye
IN UINT8 DataEyeType; ///< Get the 2D data eye on read or write training
OUT UINT8* DataEyeBuffer; ///< The buffer to stores the 2D data eye
} AMD_GET_DATAEYE;
AGESA_STATUS
AmdGet2DDataEye (
IN OUT AMD_GET_DATAEYE *AmdGetDataEye
);
#define AGESA_IDS_DFT_VAL 0xFFFF ///< Default value of every uninitlized NV item, the action for it will be ignored
#define AGESA_IDS_NV_END 0xFFFF ///< Flag specify end of option structure
/// WARNING: Don't change the comment below, it used as signature for script
/// AGESA IDS NV ID Definitions
typedef enum {
AGESA_IDS_EXT_ID_START = 0x0000,///< 0x0000 specify the start of external NV id
AGESA_IDS_NV_UCODE, ///< 0x0001 Enable or disable microcode patching
AGESA_IDS_NV_TARGET_PSTATE, ///< 0x0002 Set the P-state required to be activated
AGESA_IDS_NV_POSTPSTATE, ///< 0x0003 Set the P-state required to be activated through POST
AGESA_IDS_NV_BANK_INTERLEAVE, ///< 0x0004 Enable or disable Bank Interleave
AGESA_IDS_NV_CHANNEL_INTERLEAVE, ///< 0x0005 Enable or disable Channel Interleave
AGESA_IDS_NV_NODE_INTERLEAVE, ///< 0x0006 Enable or disable Node Interleave
AGESA_IDS_NV_MEMHOLE, ///< 0x0007 Enables or disable memory hole
AGESA_IDS_NV_SCRUB_REDIRECTION, ///< 0x0008 Enable or disable a write to dram with corrected data
AGESA_IDS_NV_DRAM_SCRUB, ///< 0x0009 Set the rate of background scrubbing for DRAM
AGESA_IDS_NV_DCACHE_SCRUB, ///< 0x000A Set the rate of background scrubbing for the DCache.
AGESA_IDS_NV_L2_SCRUB, ///< 0x000B Set the rate of background scrubbing for the L2 cache
AGESA_IDS_NV_L3_SCRUB, ///< 0x000C Set the rate of background scrubbing for the L3 cache
AGESA_IDS_NV_ICACHE_SCRUB, ///< 0x000D Set the rate of background scrubbing for the Icache
AGESA_IDS_NV_SYNC_ON_ECC_ERROR, ///< 0x000E Enable or disable the sync flood on un-correctable ECC error
AGESA_IDS_NV_ECC_SYMBOL_SIZE, ///< 0x000F Set ECC symbol size
AGESA_IDS_NV_ALL_MEMCLKS, ///< 0x0010 Enable or disable all memory clocks enable
AGESA_IDS_NV_DCT_GANGING_MODE, ///< 0x0011 Set the Ganged mode
AGESA_IDS_NV_DRAM_BURST_LENGTH32, ///< 0x0012 Set the DRAM Burst Length 32
AGESA_IDS_NV_MEMORY_POWER_DOWN, ///< 0x0013 Enable or disable Memory power down mode
AGESA_IDS_NV_MEMORY_POWER_DOWN_MODE, ///< 0x0014 Set the Memory power down mode
AGESA_IDS_NV_DLL_SHUT_DOWN, ///< 0x0015 Enable or disable DLLShutdown
AGESA_IDS_NV_ONLINE_SPARE, ///< 0x0016 Enable or disable the Dram controller to designate a DIMM bank as a spare for logical swap
AGESA_IDS_NV_HDTOUT, ///< 0x0017 Enable or disable HDTOUT feature
AGESA_IDS_NV_GNBHDAUDIOEN, ///< 0x0018 Enable or disable GNB HD Audio
AGESA_IDS_NV_CPB_EN, ///< 0x0019 Core Performance Boost
AGESA_IDS_NV_HTC_EN, ///< 0x001A HTC Enable
AGESA_IDS_NV_HTC_OVERRIDE, ///< 0x001B HTC Override
AGESA_IDS_NV_HTC_PSTATE_LIMIT, ///< 0x001C HTC P-state limit select
AGESA_IDS_NV_HTC_TEMP_HYS, ///< 0x001D HTC Temperature Hysteresis
AGESA_IDS_NV_HTC_ACT_TEMP, ///< 0x001E HTC Activation Temp
AGESA_IDS_NV_POWER_POLICY, ///< 0x001F Select Platform Power Policy
AGESA_IDS_NV_DRAMCON, ///< 0x0020 Specify the mode for controller initialization
AGESA_IDS_EXT_ID_END, ///< 0x0021 specify the end of external NV ID
} IDS_EX_NV_ID;
#define IDS_NUM_EXT_NV_ITEM (AGESA_IDS_EXT_ID_END - AGESA_IDS_EXT_ID_START + 1)
#endif // _AGESA_H_