/*++
Copyright (c) 2004 - 2014, Intel Corporation. All rights reserved.
This program and the accompanying materials are licensed and made available under
the terms and conditions of the BSD License that accompanies this distribution.
The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php.
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
Module Name:
PlatformInfo.h
Abstract:
GUID used for Platform Info Data entries in the HOB list.
--*/
#ifndef _PLATFORM_INFO_GUID_H_
#define _PLATFORM_INFO_GUID_H_
#ifndef ECP_FLAG
#include
#include
#include
#include
#include
#include
#endif
#define PLATFORM_INFO_REVISION = 1 // Revision id for current platform information struct.
//
// Start::BayLake Board Defines
//
#define BOARD_REVISION_DEFAULT = 0xff
#define UNKNOWN_FABID 0x0F
#define FAB_ID_MASK 0x0F
#define BOARD_ID_2 0x01
#define BOARD_ID_1 0x40
#define BOARD_ID_0 0x04
#define BOARD_ID_DT_CRB 0x0
#define BOARD_ID_DT_VLVR 0x1
#define BOARD_ID_SVP_VLV 0xC
#define BOARD_ID_SVP_EV_VLV 0xD
//
// End::BayLake Board Defines
//
//
// Start::Alpine Valley Board Defines
//
#define DC_ID_DDR3L 0x00
#define DC_ID_DDR3 0x04
#define DC_ID_LPDDR3 0x02
#define DC_ID_LPDDR2 0x06
#define DC_ID_DDR4 0x01
#define DC_ID_DDR3L_ECC 0x05
#define DC_ID_NO_MEM 0x07
//
// End::Alpine Valley Board Defines
//
#define MAX_FAB_ID_RETRY_COUNT 100
#define MAX_FAB_ID_CHECK_COUNT 3
#define PLATFORM_INFO_HOB_REVISION 0x1
#define EFI_PLATFORM_INFO_GUID \
{ \
0x1e2acc41, 0xe26a, 0x483d, 0xaf, 0xc7, 0xa0, 0x56, 0xc3, 0x4e, 0x8, 0x7b \
}
extern EFI_GUID gEfiPlatformInfoGuid;
typedef enum {
FlavorUnknown = 0,
//
// Mobile
//
FlavorMobile = 1,
//
// Desktop
//
FlavorDesktop = 2,
//
// Tablet
//
FlavorTablet = 3
} PLATFORM_FLAVOR;
#pragma pack(1)
typedef struct {
UINT16 PciResourceIoBase;
UINT16 PciResourceIoLimit;
UINT32 PciResourceMem32Base;
UINT32 PciResourceMem32Limit;
UINT64 PciResourceMem64Base;
UINT64 PciResourceMem64Limit;
UINT64 PciExpressBase;
UINT32 PciExpressSize;
UINT8 PciHostAddressWidth;
UINT8 PciResourceMinSecBus;
} EFI_PLATFORM_PCI_DATA;
typedef struct {
UINT8 CpuAddressWidth;
UINT32 CpuFamilyStepping;
} EFI_PLATFORM_CPU_DATA;
typedef struct {
UINT8 SysIoApicEnable;
UINT8 SysSioExist;
} EFI_PLATFORM_SYS_DATA;
typedef struct {
UINT32 MemTolm;
UINT32 MemMaxTolm;
UINT32 MemTsegSize;
UINT32 MemTsegBase;
UINT32 MemIedSize;
UINT32 MemIgdSize;
UINT32 MemIgdBase;
UINT32 MemIgdGttSize;
UINT32 MemIgdGttBase;
UINT64 MemMir0;
UINT64 MemMir1;
UINT32 MemConfigSize;
UINT16 MmioSize;
UINT8 DdrFreq;
UINT8 DdrType;
UINT32 MemSize;
BOOLEAN EccSupport;
UINT8 Reserved[3];
UINT16 DimmSize[2];
} EFI_PLATFORM_MEM_DATA;
typedef struct {
UINT32 IgdOpRegionAddress; // IGD OpRegion Starting Address
UINT8 IgdBootType; // IGD Boot Display Device
UINT8 IgdPanelType; // IGD Panel Type CMOs option
UINT8 IgdTvFormat; // IGD TV Format CMOS option
UINT8 IgdTvMinor; // IGD TV Minor Format CMOS option
UINT8 IgdPanelScaling; // IGD Panel Scaling
UINT8 IgdBlcConfig; // IGD BLC Configuration
UINT8 IgdBiaConfig; // IGD BIA Configuration
UINT8 IgdSscConfig; // IGD SSC Configuration
UINT8 IgdDvmtMemSize; // IGD DVMT Memory Size
UINT8 IgdFunc1Enable; // IGD Function 1 Enable
UINT8 IgdHpllVco; // HPLL VCO
UINT8 IgdSciSmiMode; // GMCH SMI/SCI mode (0=SCI)
UINT8 IgdPAVP; // IGD PAVP data
} EFI_PLATFORM_IGD_DATA;
typedef enum {
BOARD_ID_AV_SVP = 0x0, // Alpine Valley Board
BOARD_ID_BL_RVP = 0x2, // BayLake Board (RVP)
BOARD_ID_BL_FFRD8 = 0x3, // FFRD8 b'0011
BOARD_ID_BL_FFRD = 0x4, // BayLake Board (FFRD)
BOARD_ID_BL_RVP_DDR3L = 0x5, // BayLake Board (RVP DDR3L)
BOARD_ID_BL_STHI = 0x7, // PPV- STHI Board
BOARD_ID_BB_RVP = 0x20, // Bayley Bay Board
BOARD_ID_BS_RVP = 0x30, // Bakersport Board
BOARD_ID_CVH = 0x90, // Crestview Hills
BOARD_ID_MINNOW2 = 0xA0, // MinnowBorad Max
BOARD_ID_MINNOW2_TURBOT = 0xB0 // MinnowBoard Turbot
} BOARD_ID_LIST;
typedef enum {
FAB1 = 0,
FAB2 = 1,
FAB3 = 2
} FAB_ID_LIST;
typedef enum {
PR0 = 0, // FFRD PR0
PR05 = 1, // FFRD PR0.3 and PR 0.5
PR1 = 2, // FFRD PR1
PR11 = 3 // FFRD PR1.1
} FFRD_ID_LIST;
//
// VLV2 GPIO GROUP OFFSET
//
#define GPIO_SCORE_OFFSET 0x0000
#define GPIO_NCORE_OFFSET 0x1000
#define GPIO_SSUS_OFFSET 0x2000
//
// GPIO Initialization Data Structure for BayLake.
// SC = SCORE, SS= SSUS
// Note: NC doesn't support GPIO functionality in IO access mode, only support in MMIO access mode.
//
//
// IO space
//
typedef struct{
UINT32 Use_Sel_SC0;
UINT32 Use_Sel_SC1;
UINT32 Use_Sel_SC2;
UINT32 Use_Sel_SS;
UINT32 Io_Sel_SC0;
UINT32 Io_Sel_SC1;
UINT32 Io_Sel_SC2;
UINT32 Io_Sel_SS;
UINT32 GP_Lvl_SC0;
UINT32 GP_Lvl_SC1;
UINT32 GP_Lvl_SC2;
UINT32 GP_Lvl_SS;
UINT32 TPE_SC0;
UINT32 TPE_SS;
UINT32 TNE_SC0;
UINT32 TNE_SS;
UINT32 TS_SC0;
UINT32 TS_SS;
UINT32 WE_SS;
} CFIO_INIT_STRUCT;
//
// CFIO PAD configuration Registers
//
//
// Memory space
//
typedef union {
UINT32 dw;
struct {
UINT32 Func_Pin_Mux:3; // 0:2 Function of CFIO selection
UINT32 ipslew:2; // 3:4 Pad (P) Slew Rate Controls PAD slew rate check Width
UINT32 inslew:2; // 5:6 Pad (N) Slew Rate Controls PAD slew rate
UINT32 Pull_assign:2; // 7:8 Pull assignment
UINT32 Pull_strength:2; // 9:10 Pull strength
UINT32 Bypass_flop:1; // 11 Bypass flop
UINT32 Filter_en:1; // 12 Filter Enable
UINT32 Hist_ctrl:2; // 13:14 hysteresis control
UINT32 Hist_enb:1; // 15 Hysteresis enable, active low
UINT32 Delay_line:6; // 16:21 Delay line values - Delay values for input or output
UINT32 Reserved:3; // 22:24 Reserved
UINT32 TPE:1; // 25 Trigger Positive Edge Enable
UINT32 TNE:1; // 26 Trigger Negative Edge Enable
UINT32 Reserved2:3; // 27:29 Reserved
UINT32 i1p5sel:1; // 30
UINT32 IODEN:1; // 31 : Open Drain enable. Active high
} r;
} PAD_CONF0;
typedef union{
UINT32 dw;
struct {
UINT32 instr:16; // 0:15 Pad (N) strength.
UINT32 ipstr:16; // 16:31 Pad (P) strength.
}r;
} PAD_CONF1;
typedef union{
UINT32 dw;
struct {
UINT32 pad_val:1; // 0 These registers are implemented as dual read/write with dedicated storage each.
UINT32 ioutenb:1; // 1 output enable
UINT32 iinenb:1; // 2 input enable
UINT32 Reserved:29; // 3:31 Reserved
}r;
} PAD_VAL;
typedef union{
UINT32 GPI;
struct {
UINT32 ihbpen:1; // 0 Pad high by pass enable
UINT32 ihbpinen:1; // 1 Pad high by pass input
UINT32 instaticen:1; // 2 TBD
UINT32 ipstaticen:1; // 3 TBD
UINT32 Overide_strap_pin :1; // 4 DFX indicates if it wants to override the strap pin value on this pad, if exists.
UINT32 Overide_strap_pin_val:1; // 5 In case DFX need to override strap pin value and it exist for the specific pad, this value will be used.
UINT32 TestMode_Pin_Mux:3; // 6:9 DFX Pin Muxing
}r;
} PAD_DFT;
//
// GPIO_USAGE value need to matche the PAD_VAL input/output enable bits.
//
typedef enum {
Native = 0xFF, // Native, no need to set PAD_VALUE
GPI = 2, // GPI, input only in PAD_VALUE
GPO = 4, // GPO, output only in PAD_VALUE
GPIO = 0, // GPIO, input & output
TRISTS = 6, // Tri-State
GPIO_NONE
} GPIO_USAGE;
typedef enum {
LO = 0,
HI = 1,
NA = 0xFF
} GPO_D4;
typedef enum {
F0 = 0,
F1 = 1,
F2 = 2,
F3 = 3,
F4 = 4,
F5 = 5,
F6 = 6,
F7 = 7
} GPIO_FUNC_NUM;
//
// Mapping to CONF0 bit 27:24
// Note: Assume "Direct Irq En" is not set, unless specially notified.
//
typedef enum {
TRIG_ = 0,
TRIG_Edge_High = /*BIT3 |*/ BIT1, // Positive Edge (Rasing)
TRIG_Edge_Low = /*BIT3 |*/ BIT2, // Negative Edge (Falling)
TRIG_Edge_Both = /*BIT3 |*/ BIT2 | BIT1, // Both Edge
TRIG_Level_High= /*BIT3 |*/ BIT1 | BIT0, // Level High
TRIG_Level_Low = /*BIT3 |*/ BIT2 | BIT0, // Level Low
} INT_TYPE;
typedef enum {
P_20K_H, // Pull Up 20K
P_20K_L, // Pull Down 20K
P_10K_H, // Pull Up 10K
P_10K_L, // Pull Down 10K
P_2K_H, // Pull Up 2K
P_2K_L, // Pull Down 2K
P_NONE // Pull None
} PULL_TYPE;
#ifdef EFI_DEBUG
#define GPIO_INIT_ITEM(pad_name, usage, gpod4, func, int_cap, int_type, pull, offset) {pad_name, usage, gpod4, func, /*int_cap,*/ TRIG_##int_type, P_##pull, offset}
#else
#define GPIO_INIT_ITEM(pad_name, usage, gpod4, func, int_cap, int_type, pull, offset) { usage, gpod4, func, /*int_cap,*/ TRIG_##int_type, P_##pull, offset}
#endif
//
// GPIO CONF & PAD Initialization Data Structure for BayLake GPIOs bits.
// NC = NCORE, SC = SCORE, SS= SSUS
//
typedef struct {
#ifdef EFI_DEBUG
char pad_name[32];// GPIO Pin Name for debug purpose
#endif
GPIO_USAGE usage; // GPIO pin used as Native mode or GPI/GPO/GPIO mode
GPO_D4 gpod4; // GPO default value
GPIO_FUNC_NUM func; // Function Number (F0~F7)
INT_TYPE int_type; // Edge or Level trigger, low or high active
PULL_TYPE pull; // Pull Up or Down
UINT8 offset; // Equal with (PCONF0 register offset >> 4 bits)
} GPIO_CONF_PAD_INIT;
//
//typedef UINT64 BOARD_FEATURES
//
typedef struct _EFI_PLATFORM_INFO_HOB {
UINT16 PlatformType; // Platform Type
UINT8 BoardId; // Board ID
UINT8 BoardRev; // Board Revision
PLATFORM_FLAVOR PlatformFlavor; // Platform Flavor
UINT8 DDRDaughterCardCh0Id;// DDR daughter card channel 0 id
UINT8 DDRDaughterCardCh1Id;// DDR daughter card channel 1 id
UINT8 ECOId; // ECO applied on platform
UINT16 IohSku;
UINT8 IohRevision;
UINT16 IchSku;
UINT8 IchRevision;
EFI_PLATFORM_PCI_DATA PciData;
EFI_PLATFORM_CPU_DATA CpuData;
EFI_PLATFORM_MEM_DATA MemData;
EFI_PLATFORM_SYS_DATA SysData;
EFI_PLATFORM_IGD_DATA IgdData;
UINT8 RevisonId; // Structure Revision ID
EFI_PHYSICAL_ADDRESS PlatformCfioData;
EFI_PHYSICAL_ADDRESS PlatformGpioData_NC;
EFI_PHYSICAL_ADDRESS PlatformGpioData_SC;
EFI_PHYSICAL_ADDRESS PlatformGpioData_SUS;
EFI_PHYSICAL_ADDRESS PlatformGpioData_NC_TRI;
EFI_PHYSICAL_ADDRESS PlatformGpioData_SC_TRI;
EFI_PHYSICAL_ADDRESS PlatformGpioData_SUS_TRI;
EFI_PHYSICAL_ADDRESS PlatformGpioData_SUS_PR1;
EFI_PHYSICAL_ADDRESS PlatformGpioData_SC_PR1_1;
EFI_PHYSICAL_ADDRESS PlatformGpioData_SUS_PR1_1;
UINT8 CfioEnabled;
UINT32 SsidSvid;
UINT16 AudioSubsystemDeviceId;
UINT64 AcpiOemId;
UINT64 AcpiOemTableId;
UINT16 MemCfgID;
} EFI_PLATFORM_INFO_HOB;
#pragma pack()
EFI_STATUS
GetPlatformInfoHob (
IN CONST EFI_PEI_SERVICES **PeiServices,
OUT EFI_PLATFORM_INFO_HOB **PlatformInfoHob
);
EFI_STATUS
InstallPlatformClocksNotify (
IN CONST EFI_PEI_SERVICES **PeiServices
);
EFI_STATUS
InstallPlatformSysCtrlGPIONotify (
IN CONST EFI_PEI_SERVICES **PeiServices
);
#endif