mirror of https://github.com/acidanthera/audk.git
232 lines
8.1 KiB
C
232 lines
8.1 KiB
C
/** @file
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This includes some definitions introduced in UEFI that will be used in both PEI and DXE phases.
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Copyright (c) 2006 - 2015, Intel Corporation. All rights reserved.<BR>
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This program and the accompanying materials are licensed and made available under
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the terms and conditions of the BSD License that accompanies this distribution.
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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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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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**/
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#ifndef __UEFI_MULTIPHASE_H__
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#define __UEFI_MULTIPHASE_H__
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#include <Guid/WinCertificate.h>
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///
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/// Enumeration of memory types introduced in UEFI.
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///
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typedef enum {
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///
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/// Not used.
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///
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EfiReservedMemoryType,
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///
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/// The code portions of a loaded application.
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/// (Note that UEFI OS loaders are UEFI applications.)
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///
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EfiLoaderCode,
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///
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/// The data portions of a loaded application and the default data allocation
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/// type used by an application to allocate pool memory.
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///
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EfiLoaderData,
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///
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/// The code portions of a loaded Boot Services Driver.
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///
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EfiBootServicesCode,
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///
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/// The data portions of a loaded Boot Serves Driver, and the default data
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/// allocation type used by a Boot Services Driver to allocate pool memory.
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///
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EfiBootServicesData,
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///
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/// The code portions of a loaded Runtime Services Driver.
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///
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EfiRuntimeServicesCode,
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///
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/// The data portions of a loaded Runtime Services Driver and the default
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/// data allocation type used by a Runtime Services Driver to allocate pool memory.
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///
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EfiRuntimeServicesData,
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///
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/// Free (unallocated) memory.
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///
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EfiConventionalMemory,
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///
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/// Memory in which errors have been detected.
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///
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EfiUnusableMemory,
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///
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/// Memory that holds the ACPI tables.
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///
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EfiACPIReclaimMemory,
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///
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/// Address space reserved for use by the firmware.
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///
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EfiACPIMemoryNVS,
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///
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/// Used by system firmware to request that a memory-mapped IO region
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/// be mapped by the OS to a virtual address so it can be accessed by EFI runtime services.
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///
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EfiMemoryMappedIO,
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///
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/// System memory-mapped IO region that is used to translate memory
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/// cycles to IO cycles by the processor.
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///
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EfiMemoryMappedIOPortSpace,
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///
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/// Address space reserved by the firmware for code that is part of the processor.
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///
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EfiPalCode,
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///
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/// A memory region that operates as EfiConventionalMemory,
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/// however it happens to also support byte-addressable non-volatility.
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///
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EfiPersistentMemory,
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EfiMaxMemoryType
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} EFI_MEMORY_TYPE;
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///
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/// Enumeration of reset types.
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///
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typedef enum {
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///
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/// Used to induce a system-wide reset. This sets all circuitry within the
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/// system to its initial state. This type of reset is asynchronous to system
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/// operation and operates withgout regard to cycle boundaries. EfiColdReset
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/// is tantamount to a system power cycle.
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///
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EfiResetCold,
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///
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/// Used to induce a system-wide initialization. The processors are set to their
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/// initial state, and pending cycles are not corrupted. If the system does
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/// not support this reset type, then an EfiResetCold must be performed.
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///
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EfiResetWarm,
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///
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/// Used to induce an entry into a power state equivalent to the ACPI G2/S5 or G3
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/// state. If the system does not support this reset type, then when the system
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/// is rebooted, it should exhibit the EfiResetCold attributes.
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///
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EfiResetShutdown,
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///
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/// Used to induce a system-wide reset. The exact type of the reset is defined by
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/// the EFI_GUID that follows the Null-terminated Unicode string passed into
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/// ResetData. If the platform does not recognize the EFI_GUID in ResetData the
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/// platform must pick a supported reset type to perform. The platform may
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/// optionally log the parameters from any non-normal reset that occurs.
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///
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EfiResetPlatformSpecific
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} EFI_RESET_TYPE;
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///
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/// Data structure that precedes all of the standard EFI table types.
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///
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typedef struct {
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///
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/// A 64-bit signature that identifies the type of table that follows.
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/// Unique signatures have been generated for the EFI System Table,
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/// the EFI Boot Services Table, and the EFI Runtime Services Table.
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///
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UINT64 Signature;
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///
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/// The revision of the EFI Specification to which this table
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/// conforms. The upper 16 bits of this field contain the major
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/// revision value, and the lower 16 bits contain the minor revision
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/// value. The minor revision values are limited to the range of 00..99.
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///
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UINT32 Revision;
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///
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/// The size, in bytes, of the entire table including the EFI_TABLE_HEADER.
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///
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UINT32 HeaderSize;
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///
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/// The 32-bit CRC for the entire table. This value is computed by
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/// setting this field to 0, and computing the 32-bit CRC for HeaderSize bytes.
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///
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UINT32 CRC32;
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///
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/// Reserved field that must be set to 0.
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///
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UINT32 Reserved;
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} EFI_TABLE_HEADER;
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///
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/// Attributes of variable.
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///
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#define EFI_VARIABLE_NON_VOLATILE 0x00000001
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#define EFI_VARIABLE_BOOTSERVICE_ACCESS 0x00000002
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#define EFI_VARIABLE_RUNTIME_ACCESS 0x00000004
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///
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/// This attribute is identified by the mnemonic 'HR'
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/// elsewhere in this specification.
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///
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#define EFI_VARIABLE_HARDWARE_ERROR_RECORD 0x00000008
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///
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/// Attributes of Authenticated Variable
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///
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#define EFI_VARIABLE_AUTHENTICATED_WRITE_ACCESS 0x00000010
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#define EFI_VARIABLE_TIME_BASED_AUTHENTICATED_WRITE_ACCESS 0x00000020
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#define EFI_VARIABLE_APPEND_WRITE 0x00000040
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///
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/// AuthInfo is a WIN_CERTIFICATE using the wCertificateType
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/// WIN_CERTIFICATE_UEFI_GUID and the CertType
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/// EFI_CERT_TYPE_RSA2048_SHA256_GUID. If the attribute specifies
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/// authenticated access, then the Data buffer should begin with an
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/// authentication descriptor prior to the data payload and DataSize
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/// should reflect the the data.and descriptor size. The caller
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/// shall digest the Monotonic Count value and the associated data
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/// for the variable update using the SHA-256 1-way hash algorithm.
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/// The ensuing the 32-byte digest will be signed using the private
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/// key associated w/ the public/private 2048-bit RSA key-pair. The
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/// WIN_CERTIFICATE shall be used to describe the signature of the
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/// Variable data *Data. In addition, the signature will also
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/// include the MonotonicCount value to guard against replay attacks.
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///
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typedef struct {
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///
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/// Included in the signature of
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/// AuthInfo.Used to ensure freshness/no
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/// replay. Incremented during each
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/// "Write" access.
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///
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UINT64 MonotonicCount;
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///
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/// Provides the authorization for the variable
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/// access. It is a signature across the
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/// variable data and the Monotonic Count
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/// value. Caller uses Private key that is
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/// associated with a public key that has been
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/// provisioned via the key exchange.
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///
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WIN_CERTIFICATE_UEFI_GUID AuthInfo;
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} EFI_VARIABLE_AUTHENTICATION;
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///
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/// When the attribute EFI_VARIABLE_TIME_BASED_AUTHENTICATED_WRITE_ACCESS is
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/// set, then the Data buffer shall begin with an instance of a complete (and serialized)
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/// EFI_VARIABLE_AUTHENTICATION_2 descriptor. The descriptor shall be followed by the new
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/// variable value and DataSize shall reflect the combined size of the descriptor and the new
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/// variable value. The authentication descriptor is not part of the variable data and is not
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/// returned by subsequent calls to GetVariable().
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///
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typedef struct {
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///
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/// For the TimeStamp value, components Pad1, Nanosecond, TimeZone, Daylight and
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/// Pad2 shall be set to 0. This means that the time shall always be expressed in GMT.
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///
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EFI_TIME TimeStamp;
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///
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/// Only a CertType of EFI_CERT_TYPE_PKCS7_GUID is accepted.
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///
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WIN_CERTIFICATE_UEFI_GUID AuthInfo;
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} EFI_VARIABLE_AUTHENTICATION_2;
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#endif
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