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236 lines
8.5 KiB
C
236 lines
8.5 KiB
C
/* descriptor.h
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Copyright (c) 2016, Nikolaj Schlej. All rights reserved.
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD License
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which accompanies this distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHWARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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*/
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#ifndef DESCRIPTOR_H
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#define DESCRIPTOR_H
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#include "basetypes.h"
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#include "ustring.h"
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// Make sure we use right packing rules
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#pragma pack(push,1)
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// Flash descriptor header
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typedef struct FLASH_DESCRIPTOR_HEADER_ {
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UINT8 ReservedVector[16]; // Reserved for ARM ResetVector, 0xFFs on x86/x86-64 machines
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UINT32 Signature; // 0x0FF0A55A
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} FLASH_DESCRIPTOR_HEADER;
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// Flash descriptor signature
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#define FLASH_DESCRIPTOR_SIGNATURE 0x0FF0A55A
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// Descriptor region size
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#define FLASH_DESCRIPTOR_SIZE 0x1000
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// Maximum base value in descriptor map
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#define FLASH_DESCRIPTOR_MAX_BASE 0xE0
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// Descriptor version was reserved in older firmware
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#define FLASH_DESCRIPTOR_VERSION_INVALID 0xFFFFFFFF
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// The only known version found in Coffee Lake
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#define FLASH_DESCRIPTOR_VERSION_MAJOR 1
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#define FLASH_DESCRIPTOR_VERSION_MINOR 0
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// Descriptor version present in Coffee Lake and newer
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typedef struct _FLASH_DESCRIPTOR_VERSION {
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UINT32 Reserved : 14;
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UINT32 Minor : 7;
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UINT32 Major : 11;
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} FLASH_DESCRIPTOR_VERSION;
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// Descriptor map
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// Base fields are storing bits [11:4] of actual base addresses, all other bits are 0
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typedef struct FLASH_DESCRIPTOR_MAP_ {
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// FLMAP0
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UINT32 ComponentBase : 8;
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UINT32 NumberOfFlashChips : 2; // Zero-based number of flash chips installed on board
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UINT32 : 6;
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UINT32 RegionBase : 8;
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UINT32 NumberOfRegions : 3; // Reserved in v2 descriptor
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UINT32 : 5;
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// FLMAP 1
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UINT32 MasterBase : 8;
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UINT32 NumberOfMasters : 2; // Zero-based number of flash masters
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UINT32 : 6;
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UINT32 PchStrapsBase : 8;
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UINT32 NumberOfPchStraps : 8; // One-based number of UINT32s to read as PCH straps, min=0, max=255 (1 Kb)
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// FLMAP 2
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UINT32 ProcStrapsBase : 8;
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UINT32 NumberOfProcStraps : 8; // One-based number of UINT32s to read as processor straps, min=0, max=255 (1 Kb)
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UINT32 : 16;
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// FLMAP 3
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UINT32 DescriptorVersion; // Reserved prior to Coffee Lake
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} FLASH_DESCRIPTOR_MAP;
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// Component section
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// Flash parameters DWORD structure
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typedef struct FLASH_PARAMETERS_ {
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UINT8 FirstChipDensity : 4;
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UINT8 SecondChipDensity : 4;
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UINT8 : 8;
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UINT8 : 1;
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UINT8 ReadClockFrequency : 3; // Hardcoded value of 20 Mhz (000b) in v1 descriptors
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UINT8 FastReadEnabled : 1;
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UINT8 FastReadFrequency : 3;
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UINT8 FlashWriteFrequency : 3;
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UINT8 FlashReadStatusFrequency : 3;
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UINT8 DualOutputFastReadSupported : 1;
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UINT8 : 1;
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} FLASH_PARAMETERS;
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// Flash densities
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#define FLASH_DENSITY_512KB 0x00
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#define FLASH_DENSITY_1MB 0x01
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#define FLASH_DENSITY_2MB 0x02
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#define FLASH_DENSITY_4MB 0x03
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#define FLASH_DENSITY_8MB 0x04
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#define FLASH_DENSITY_16MB 0x05
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#define FLASH_DENSITY_32MB 0x06
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#define FLASH_DENSITY_64MB 0x07
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#define FLASH_DENSITY_UNUSED 0x0F
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// Flash frequencies
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#define FLASH_FREQUENCY_20MHZ 0x00
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#define FLASH_FREQUENCY_33MHZ 0x01
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#define FLASH_FREQUENCY_48MHZ 0x02
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#define FLASH_FREQUENCY_50MHZ_30MHZ 0x04
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#define FLASH_FREQUENCY_17MHZ 0x06
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// Component section structure
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typedef struct FLASH_DESCRIPTOR_COMPONENT_SECTION_ {
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FLASH_PARAMETERS FlashParameters;
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UINT8 InvalidInstruction0; // Instructions for SPI chip, that must not be executed, like FLASH ERASE
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UINT8 InvalidInstruction1; //
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UINT8 InvalidInstruction2; //
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UINT8 InvalidInstruction3; //
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UINT16 PartitionBoundary; // Upper 16 bit of partition boundary address. Default is 0x0000, which makes the boundary to be 0x00001000
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UINT16 : 16;
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} FLASH_DESCRIPTOR_COMPONENT_SECTION;
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// Region section
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// All base and limit register are storing upper part of actual UINT32 base and limit
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// If limit is zero - region is not present
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typedef struct FLASH_DESCRIPTOR_REGION_SECTION_ {
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UINT16 DescriptorBase; // Descriptor
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UINT16 DescriptorLimit; //
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UINT16 BiosBase; // BIOS
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UINT16 BiosLimit; //
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UINT16 MeBase; // Management Engine
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UINT16 MeLimit; //
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UINT16 GbeBase; // Gigabit Ethernet
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UINT16 GbeLimit; //
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UINT16 PdrBase; // Platform Data
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UINT16 PdrLimit; //
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UINT16 DevExp1Base; // Device Expansion 1
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UINT16 DevExp1Limit; //
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UINT16 Bios2Base; // Secondary BIOS
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UINT16 Bios2Limit; //
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UINT16 MicrocodeBase; // CPU microcode
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UINT16 MicrocodeLimit; //
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UINT16 EcBase; // Embedded Controller
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UINT16 EcLimit; //
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UINT16 DevExp2Base; // Device Expansion 2
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UINT16 DevExp2Limit; //
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UINT16 IeBase; // Innovation Engine
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UINT16 IeLimit; //
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UINT16 Tgbe1Base; // 10 Gigabit Ethernet 1
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UINT16 Tgbe1Limit; //
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UINT16 Tgbe2Base; // 10 Gigabit Ethernet 2
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UINT16 Tgbe2Limit; //
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UINT16 Reserved1Base; // Reserved 1
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UINT16 Reserved1Limit; //
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UINT16 Reserved2Base; // Reserved 2
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UINT16 Reserved2Limit; //
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UINT16 PttBase; // Platform Trust Technology
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UINT16 PttLimit; //
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} FLASH_DESCRIPTOR_REGION_SECTION;
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// Master section
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typedef struct FLASH_DESCRIPTOR_MASTER_SECTION_ {
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UINT16 BiosId;
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UINT8 BiosRead;
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UINT8 BiosWrite;
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UINT16 MeId;
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UINT8 MeRead;
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UINT8 MeWrite;
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UINT16 GbeId;
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UINT8 GbeRead;
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UINT8 GbeWrite;
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} FLASH_DESCRIPTOR_MASTER_SECTION;
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// Master section v2 (Skylake+)
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typedef struct FLASH_DESCRIPTOR_MASTER_SECTION_V2_ {
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UINT32 : 8;
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UINT32 BiosRead : 12;
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UINT32 BiosWrite : 12;
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UINT32 : 8;
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UINT32 MeRead : 12;
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UINT32 MeWrite : 12;
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UINT32 : 8;
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UINT32 GbeRead : 12;
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UINT32 GbeWrite : 12;
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UINT32 : 32;
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UINT32 : 8;
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UINT32 EcRead : 12;
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UINT32 EcWrite : 12;
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} FLASH_DESCRIPTOR_MASTER_SECTION_V2;
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// Region access bits in master section
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#define FLASH_DESCRIPTOR_REGION_ACCESS_DESC 0x01
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#define FLASH_DESCRIPTOR_REGION_ACCESS_BIOS 0x02
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#define FLASH_DESCRIPTOR_REGION_ACCESS_ME 0x04
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#define FLASH_DESCRIPTOR_REGION_ACCESS_GBE 0x08
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#define FLASH_DESCRIPTOR_REGION_ACCESS_PDR 0x10
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#define FLASH_DESCRIPTOR_REGION_ACCESS_EC 0x20
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// Base address of descriptor upper map
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#define FLASH_DESCRIPTOR_UPPER_MAP_BASE 0x0EFC
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// Descriptor upper map structure
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typedef struct FLASH_DESCRIPTOR_UPPER_MAP_ {
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UINT8 VsccTableBase; // Base address of VSCC Table for ME, bits [11:4]
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UINT8 VsccTableSize; // Counted in UINT32s
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UINT16 ReservedZero; // Still unknown, zero in all descriptors I have seen
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} FLASH_DESCRIPTOR_UPPER_MAP;
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// VSCC table entry structure
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typedef struct VSCC_TABLE_ENTRY_ {
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UINT8 VendorId; // JEDEC VendorID byte
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UINT8 DeviceId0; // JEDEC DeviceID first byte
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UINT8 DeviceId1; // JEDEC DeviceID second byte
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UINT8 ReservedZero; // Reserved, must be zero
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UINT32 VsccRegisterValue; // VSCC register value
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} VSCC_TABLE_ENTRY;
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// Base address and size of OEM section
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#define FLASH_DESCRIPTOR_OEM_SECTION_BASE 0x0F00
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#define FLASH_DESCRIPTOR_OEM_SECTION_SIZE 0x100
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// Restore previous packing rules
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#pragma pack(pop)
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// Calculate address of data structure addressed by descriptor address format
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// 8 bit base or limit
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extern const UINT8* calculateAddress8(const UINT8* baseAddress, const UINT8 baseOrLimit);
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// 16 bit base or limit
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extern const UINT8* calculateAddress16(const UINT8* baseAddress, const UINT16 baseOrLimit);
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// Calculate offset of region using it's base
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extern UINT32 calculateRegionOffset(const UINT16 base);
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// Calculate size of region using it's base and limit
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extern UINT32 calculateRegionSize(const UINT16 base, const UINT16 limit);
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// Return human-readable chip name for given JEDEC ID
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extern UString jedecIdToUString(UINT8 vendorId, UINT8 deviceId0, UINT8 deviceId1);
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#endif // DESCRIPTOR_H
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