mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-12-17 15:18:06 +01:00
4d34c7b8d2
Signed-off-by: SergeySlice <sergey.slice@gmail.com>
762 lines
28 KiB
C
762 lines
28 KiB
C
/** @file
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The EFI Legacy BIOS Patform Protocol is used to mate a Legacy16
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implementation with this EFI code. The EFI driver that produces
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the Legacy BIOS protocol is generic and consumes this protocol.
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A driver that matches the Legacy16 produces this protocol
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Copyright (c) 2007 - 2011, 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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@par Revision Reference:
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This protocol is defined in Framework for EFI Compatibility Support Module spec
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Version 0.97.
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**/
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#ifndef _EFI_LEGACY_BIOS_PLATFORM_H_
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#define _EFI_LEGACY_BIOS_PLATFORM_H_
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///
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/// Legacy BIOS Platform depends on HDD_INFO and EFI_COMPATIBILITY16_TABLE that
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/// are defined with the Legacy BIOS Protocol
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///
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#include <Protocol/LegacyBios.h>
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#define EFI_LEGACY_BIOS_PLATFORM_PROTOCOL_GUID \
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{ \
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0x783658a3, 0x4172, 0x4421, {0xa2, 0x99, 0xe0, 0x9, 0x7, 0x9c, 0xc, 0xb4 } \
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}
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typedef struct _EFI_LEGACY_BIOS_PLATFORM_PROTOCOL EFI_LEGACY_BIOS_PLATFORM_PROTOCOL;
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/**
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This enum specifies the Mode param values for GetPlatformInfo()
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**/
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typedef enum {
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///
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/// This mode is invoked twice. The first invocation has LegacySegment and
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/// LegacyOffset set to 0. The mode returns the MP table address in EFI memory, along with its size.
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/// The second invocation has LegacySegment and LegacyOffset set to the location
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/// in the 0xF0000 or 0xE0000 block to which the MP table is to be copied. The second
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/// invocation allows any MP table address fixes to occur in the EFI memory copy of the
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/// MP table. The caller, not EfiGetPlatformBinaryMpTable, copies the modified MP
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/// table to the allocated region in 0xF0000 or 0xE0000 block after the second invocation.
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///
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/// The function parameters associated with this mode are:
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///
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/// Table Pointer to the MP table.
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///
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/// TableSize Size in bytes of the MP table.
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///
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/// Location Location to place table. 0x00. Either 0xE0000 or 0xF0000 64 KB blocks.
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/// Bit 0 = 1 0xF0000 64 KB block.
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/// Bit 1 = 1 0xE0000 64 KB block.
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/// Multiple bits can be set.
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///
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/// Alignment Bit-mapped address alignment granularity.
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/// The first nonzero bit from the right is the address granularity.
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///
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// LegacySegment Segment in which EfiCompatibility code will place the MP table.
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///
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/// LegacyOffset Offset in which EfiCompatibility code will place the MP table.
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///
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/// The return values associated with this mode are:
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///
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/// EFI_SUCCESS The MP table was returned.
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///
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/// EFI_UNSUPPORTED The MP table is not supported on this platform.
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///
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EfiGetPlatformBinaryMpTable = 0,
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///
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/// This mode returns a block of data. The content and usage is IBV or OEM defined.
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/// OEMs or IBVs normally use this function for nonstandard Compatibility16 runtime soft
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/// INTs. It is the responsibility of this routine to coalesce multiple OEM 16 bit functions, if
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/// they exist, into one coherent package that is understandable by the Compatibility16 code.
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/// This function is invoked twice. The first invocation has LegacySegment and
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/// LegacyOffset set to 0. The function returns the table address in EFI memory, as well as its size.
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/// The second invocation has LegacySegment and LegacyOffset set to the location
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/// in the 0xF0000 or 0xE0000 block to which the data (table) is to be copied. The second
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/// invocation allows any data (table) address fixes to occur in the EFI memory copy of
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/// the table. The caller, not GetOemIntData(), copies the modified data (table) to the
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/// allocated region in 0xF0000 or 0xE0000 block after the second invocation.
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///
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/// The function parameters associated with this mode are:
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///
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/// Table Pointer to OEM legacy 16 bit code or data.
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///
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/// TableSize Size of data.
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///
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/// Location Location to place table. 0x00. Either 0xE0000 or 0xF0000 64 KB blocks.
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/// Bit 0 = 1 0xF0000 64 KB block.
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/// Bit 1 = 1 0xE0000 64 KB block.
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/// Multiple bits can be set.
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///
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/// Alignment Bit mapped address alignment granularity.
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/// The first nonzero bit from the right is the address granularity.
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///
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/// LegacySegment Segment in which EfiCompatibility code will place the table or data.
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///
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/// LegacyOffset Offset in which EfiCompatibility code will place the table or data.
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///
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/// The return values associated with this mode are:
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///
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/// EFI_SUCCESS The data was returned successfully.
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///
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/// EFI_UNSUPPORTED Oem INT is not supported on this platform.
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///
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EfiGetPlatformBinaryOemIntData = 1,
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///
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/// This mode returns a block of data. The content and usage is IBV defined. OEMs or
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/// IBVs normally use this mode for nonstandard Compatibility16 runtime 16 bit routines. It
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/// is the responsibility of this routine to coalesce multiple OEM 16 bit functions, if they
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/// exist, into one coherent package that is understandable by the Compatibility16 code.
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///
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/// Example usage: A legacy mobile BIOS that has a pre-existing runtime
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/// interface to return the battery status to calling applications.
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///
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/// This mode is invoked twice. The first invocation has LegacySegment and
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/// LegacyOffset set to 0. The mode returns the table address in EFI memory and its size.
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/// The second invocation has LegacySegment and LegacyOffset set to the location
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/// in the 0xF0000 or 0xE0000 block to which the table is to be copied. The second
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/// invocation allows any table address fixes to occur in the EFI memory copy of the table.
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/// The caller, not EfiGetPlatformBinaryOem16Data, copies the modified table to
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/// the allocated region in 0xF0000 or 0xE0000 block after the second invocation.
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///
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/// The function parameters associated with this mode are:
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///
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/// Table Pointer to OEM legacy 16 bit code or data.
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///
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/// TableSize Size of data.
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///
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/// Location Location to place the table. 0x00. Either 0xE0000 or 0xF0000 64 KB blocks.
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/// Bit 0 = 1 0xF0000 64 KB block.
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/// Bit 1 = 1 0xE0000 64 KB block.
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/// Multiple bits can be set.
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///
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/// Alignment Bit mapped address alignment granularity.
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/// The first nonzero bit from the right is the address granularity.
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///
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/// LegacySegment Segment in which EfiCompatibility code will place the table or data.
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///
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/// LegacyOffset Offset in which EfiCompatibility code will place the table or data.
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///
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/// The return values associated with this mode are:
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///
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/// EFI_SUCCESS The data was returned successfully.
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///
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/// EFI_UNSUPPORTED Oem16 is not supported on this platform.
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///
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EfiGetPlatformBinaryOem16Data = 2,
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///
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/// This mode returns a block of data. The content and usage are IBV defined. OEMs or
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/// IBVs normally use this mode for nonstandard Compatibility16 runtime 32 bit routines. It
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/// is the responsibility of this routine to coalesce multiple OEM 32 bit functions, if they
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/// exist, into one coherent package that is understandable by the Compatibility16 code.
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///
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/// Example usage: A legacy mobile BIOS that has a pre existing runtime
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/// interface to return the battery status to calling applications.
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///
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/// This mode is invoked twice. The first invocation has LegacySegment and
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/// LegacyOffset set to 0. The mode returns the table address in EFI memory and its size.
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///
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/// The second invocation has LegacySegment and LegacyOffset set to the location
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/// in the 0xF0000 or 0xE0000 block to which the table is to be copied. The second
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/// invocation allows any table address fix ups to occur in the EFI memory copy of the table.
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/// The caller, not EfiGetPlatformBinaryOem32Data, copies the modified table to
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/// the allocated region in 0xF0000 or 0xE0000 block after the second invocation..
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///
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/// Note: There are two generic mechanisms by which this mode can be used.
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/// Mechanism 1: This mode returns the data and the Legacy BIOS Protocol copies
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/// the data into the F0000 or E0000 block in the Compatibility16 code. The
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/// EFI_COMPATIBILITY16_TABLE entries Oem32Segment and Oem32Offset can
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/// be viewed as two UINT16 entries.
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/// Mechanism 2: This mode directly fills in the EFI_COMPATIBILITY16_TABLE with
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/// a pointer to the INT15 E820 region containing the 32 bit code. It returns
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/// EFI_UNSUPPORTED. The EFI_COMPATIBILITY16_TABLE entries,
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/// Oem32Segment and Oem32Offset, can be viewed as two UINT16 entries or
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/// as a single UINT32 entry as determined by the IBV.
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///
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/// The function parameters associated with this mode are:
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///
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/// TableSize Size of data.
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///
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/// Location Location to place the table. 0x00 or 0xE0000 or 0xF0000 64 KB blocks.
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/// Bit 0 = 1 0xF0000 64 KB block.
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/// Bit 1 = 1 0xE0000 64 KB block.
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/// Multiple bits can be set.
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///
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/// Alignment Bit mapped address alignment granularity.
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/// The first nonzero bit from the right is the address granularity.
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///
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/// LegacySegment Segment in which EfiCompatibility code will place the table or data.
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///
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/// LegacyOffset Offset in which EfiCompatibility code will place the table or data.
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///
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/// The return values associated with this mode are:
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/// EFI_SUCCESS The data was returned successfully.
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/// EFI_UNSUPPORTED Oem32 is not supported on this platform.
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///
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EfiGetPlatformBinaryOem32Data = 3,
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///
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/// This mode returns a TPM binary image for the onboard TPM device.
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///
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/// The function parameters associated with this mode are:
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///
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/// Table TPM binary image for the onboard TPM device.
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///
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/// TableSize Size of BinaryImage in bytes.
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///
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/// Location Location to place the table. 0x00. Either 0xE0000 or 0xF0000 64 KB blocks.
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/// Bit 0 = 1 0xF0000 64 KB block.
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/// Bit 1 = 1 0xE0000 64 KB block.
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/// Multiple bits can be set.
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///
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/// Alignment Bit mapped address alignment granularity.
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/// The first nonzero bit from the right is the address granularity.
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///
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/// LegacySegment Segment in which EfiCompatibility code will place the table or data.
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///
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/// LegacyOffset Offset in which EfiCompatibility code will place the table or data.
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///
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/// The return values associated with this mode are:
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///
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/// EFI_SUCCESS BinaryImage is valid.
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///
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/// EFI_UNSUPPORTED Mode is not supported on this platform.
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///
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/// EFI_NOT_FOUND No BinaryImage was found.
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///
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EfiGetPlatformBinaryTpmBinary = 4,
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///
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/// The mode finds the Compatibility16 Rom Image.
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///
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/// The function parameters associated with this mode are:
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///
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/// System ROM image for the platform.
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///
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/// TableSize Size of Table in bytes.
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///
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/// Location Ignored.
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///
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/// Alignment Ignored.
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///
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/// LegacySegment Ignored.
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///
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/// LegacyOffset Ignored.
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///
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/// The return values associated with this mode are:
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///
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/// EFI_SUCCESS ROM image found.
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///
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/// EFI_NOT_FOUND ROM not found.
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///
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EfiGetPlatformBinarySystemRom = 5,
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///
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/// This mode returns the Base address of PciExpress memory mapped configuration
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/// address space.
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///
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/// The function parameters associated with this mode are:
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///
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/// Table System ROM image for the platform.
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///
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/// TableSize Size of Table in bytes.
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///
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/// Location Ignored.
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///
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/// Alignment Ignored.
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///
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/// LegacySegment Ignored.
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///
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/// LegacyOffset Ignored.
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///
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/// The return values associated with this mode are:
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///
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/// EFI_SUCCESS Address is valid.
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///
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/// EFI_UNSUPPORTED System does not PciExpress.
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///
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EfiGetPlatformPciExpressBase = 6,
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///
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EfiGetPlatformPmmSize = 7,
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///
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EfiGetPlatformEndOpromShadowAddr = 8,
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///
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} EFI_GET_PLATFORM_INFO_MODE;
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/**
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This enum specifies the Mode param values for GetPlatformHandle().
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**/
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typedef enum {
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///
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/// This mode returns the Compatibility16 policy for the device that should be the VGA
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/// controller used during a Compatibility16 boot.
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///
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/// The function parameters associated with this mode are:
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///
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/// Type 0x00.
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///
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/// HandleBuffer Buffer of all VGA handles found.
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///
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/// HandleCount Number of VGA handles found.
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///
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/// AdditionalData NULL.
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///
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EfiGetPlatformVgaHandle = 0,
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///
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/// This mode returns the Compatibility16 policy for the device that should be the IDE
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/// controller used during a Compatibility16 boot.
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///
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/// The function parameters associated with this mode are:
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///
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/// Type 0x00.
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///
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/// HandleBuffer Buffer of all IDE handles found.
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///
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/// HandleCount Number of IDE handles found.
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///
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/// AdditionalData Pointer to HddInfo.
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/// Information about all onboard IDE controllers.
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///
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EfiGetPlatformIdeHandle = 1,
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///
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/// This mode returns the Compatibility16 policy for the device that should be the ISA bus
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/// controller used during a Compatibility16 boot.
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///
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/// The function parameters associated with this mode are:
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///
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/// Type 0x00.
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///
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/// HandleBuffer Buffer of all ISA bus handles found.
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///
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/// HandleCount Number of ISA bus handles found.
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///
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/// AdditionalData NULL.
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///
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EfiGetPlatformIsaBusHandle = 2,
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///
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/// This mode returns the Compatibility16 policy for the device that should be the USB
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/// device used during a Compatibility16 boot.
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///
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/// The function parameters associated with this mode are:
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///
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/// Type 0x00.
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///
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/// HandleBuffer Buffer of all USB handles found.
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///
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/// HandleCount Number of USB bus handles found.
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///
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/// AdditionalData NULL.
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///
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EfiGetPlatformUsbHandle = 3
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} EFI_GET_PLATFORM_HANDLE_MODE;
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/**
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This enum specifies the Mode param values for PlatformHooks().
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Note: Any OEM defined hooks start with 0x8000.
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**/
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typedef enum {
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///
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/// This mode allows any preprocessing before scanning OpROMs.
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///
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/// The function parameters associated with this mode are:
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///
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/// Type 0.
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///
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/// DeviceHandle Handle of device OpROM is associated with.
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///
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/// ShadowAddress Address where OpROM is shadowed.
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///
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/// Compatibility16Table NULL.
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///
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/// AdditionalData NULL.
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///
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EfiPlatformHookPrepareToScanRom = 0,
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///
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/// This mode shadows legacy OpROMS that may not have a physical device associated with
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/// them. It returns EFI_SUCCESS if the ROM was shadowed.
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///
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/// The function parameters associated with this mode are:
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///
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/// Type 0.
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///
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/// DeviceHandle 0.
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///
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/// ShadowAddress First free OpROM area, after other OpROMs have been dispatched..
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///
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/// Compatibility16Table Pointer to the Compatability16 Table.
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///
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/// AdditionalData NULL.
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///
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EfiPlatformHookShadowServiceRoms= 1,
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///
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/// This mode allows platform to perform any required operation after an OpROM has
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/// completed its initialization.
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///
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/// The function parameters associated with this mode are:
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///
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/// Type 0.
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///
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/// DeviceHandle Handle of device OpROM is associated with.
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///
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/// ShadowAddress Address where OpROM is shadowed.
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///
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/// Compatibility16Table NULL.
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///
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/// AdditionalData NULL.
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///
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EfiPlatformHookAfterRomInit = 2
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} EFI_GET_PLATFORM_HOOK_MODE;
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///
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/// This IRQ has not been assigned to PCI.
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///
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#define PCI_UNUSED 0x00
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///
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/// This IRQ has been assigned to PCI.
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///
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#define PCI_USED 0xFF
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///
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/// This IRQ has been used by an SIO legacy device and cannot be used by PCI.
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///
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#define LEGACY_USED 0xFE
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#pragma pack(1)
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typedef struct {
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///
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/// IRQ for this entry.
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///
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UINT8 Irq;
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///
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/// Status of this IRQ.
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///
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/// PCI_UNUSED 0x00. This IRQ has not been assigned to PCI.
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///
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/// PCI_USED 0xFF. This IRQ has been assigned to PCI.
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///
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/// LEGACY_USED 0xFE. This IRQ has been used by an SIO legacy
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/// device and cannot be used by PCI.
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///
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UINT8 Used;
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} EFI_LEGACY_IRQ_PRIORITY_TABLE_ENTRY;
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//
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// Define PIR table structures
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//
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#define EFI_LEGACY_PIRQ_TABLE_SIGNATURE SIGNATURE_32 ('$', 'P', 'I', 'R')
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typedef struct {
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///
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/// $PIR.
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///
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UINT32 Signature;
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///
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/// 0x00.
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///
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UINT8 MinorVersion;
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///
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/// 0x01 for table version 1.0.
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///
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UINT8 MajorVersion;
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///
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/// 0x20 + RoutingTableEntries * 0x10.
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///
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UINT16 TableSize;
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///
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/// PCI interrupt router bus.
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///
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UINT8 Bus;
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///
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/// PCI interrupt router device/function.
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///
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UINT8 DevFun;
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///
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/// If nonzero, bit map of IRQs reserved for PCI.
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///
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UINT16 PciOnlyIrq;
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///
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/// Vendor ID of a compatible PCI interrupt router.
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///
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UINT16 CompatibleVid;
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///
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/// Device ID of a compatible PCI interrupt router.
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///
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UINT16 CompatibleDid;
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///
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/// If nonzero, a value passed directly to the IRQ miniport's Initialize function.
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///
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UINT32 Miniport;
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///
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/// Reserved for future usage.
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///
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UINT8 Reserved[11];
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///
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/// This byte plus the sum of all other bytes in the LocalPirqTable equal 0x00.
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///
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UINT8 Checksum;
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} EFI_LEGACY_PIRQ_TABLE_HEADER;
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typedef struct {
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///
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/// If nonzero, a value assigned by the IBV.
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///
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UINT8 Pirq;
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///
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/// If nonzero, the IRQs that can be assigned to this device.
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///
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UINT16 IrqMask;
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} EFI_LEGACY_PIRQ_ENTRY;
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typedef struct {
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///
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/// PCI bus of the entry.
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///
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UINT8 Bus;
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///
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/// PCI device of this entry.
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///
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UINT8 Device;
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///
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/// An IBV value and IRQ mask for PIRQ pins A through D.
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///
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EFI_LEGACY_PIRQ_ENTRY PirqEntry[4];
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///
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/// If nonzero, the slot number assigned by the board manufacturer.
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///
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UINT8 Slot;
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///
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/// Reserved for future use.
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///
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UINT8 Reserved;
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} EFI_LEGACY_IRQ_ROUTING_ENTRY;
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#pragma pack()
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/**
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Finds the binary data or other platform information.
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@param This The protocol instance pointer.
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@param Mode Specifies what data to return. See See EFI_GET_PLATFORM_INFO_MODE enum.
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@param Table Mode specific. See EFI_GET_PLATFORM_INFO_MODE enum.
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@param TableSize Mode specific. See EFI_GET_PLATFORM_INFO_MODE enum.
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@param Location Mode specific. See EFI_GET_PLATFORM_INFO_MODE enum.
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@param Alignment Mode specific. See EFI_GET_PLATFORM_INFO_MODE enum.
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@param LegacySegment Mode specific. See EFI_GET_PLATFORM_INFO_MODE enum.
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@param LegacyOffset Mode specific. See EFI_GET_PLATFORM_INFO_MODE enum.
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@retval EFI_SUCCESS Data returned successfully.
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@retval EFI_UNSUPPORTED Mode is not supported on the platform.
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@retval EFI_NOT_FOUND Binary image or table not found.
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_LEGACY_BIOS_PLATFORM_GET_PLATFORM_INFO)(
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IN EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *This,
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IN EFI_GET_PLATFORM_INFO_MODE Mode,
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OUT VOID **Table,
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OUT UINTN *TableSize,
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OUT UINTN *Location,
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OUT UINTN *Alignment,
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IN UINT16 LegacySegment,
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IN UINT16 LegacyOffset
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);
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/**
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Returns a buffer of handles for the requested subfunction.
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@param This The protocol instance pointer.
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@param Mode Specifies what handle to return. See EFI_GET_PLATFORM_HANDLE_MODE enum.
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@param Type Mode specific. See EFI_GET_PLATFORM_HANDLE_MODE enum.
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@param HandleBuffer Mode specific. See EFI_GET_PLATFORM_HANDLE_MODE enum.
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@param HandleCount Mode specific. See EFI_GET_PLATFORM_HANDLE_MODE enum.
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@param AdditionalData Mode specific. See EFI_GET_PLATFORM_HANDLE_MODE enum.
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@retval EFI_SUCCESS Handle is valid.
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@retval EFI_UNSUPPORTED Mode is not supported on the platform.
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@retval EFI_NOT_FOUND Handle is not known.
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_LEGACY_BIOS_PLATFORM_GET_PLATFORM_HANDLE)(
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IN EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *This,
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IN EFI_GET_PLATFORM_HANDLE_MODE Mode,
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IN UINT16 Type,
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OUT EFI_HANDLE **HandleBuffer,
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OUT UINTN *HandleCount,
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IN VOID **AdditionalData OPTIONAL
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);
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/**
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Load and initialize the Legacy BIOS SMM handler.
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@param This The protocol instance pointer.
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@param EfiToLegacy16BootTable A pointer to Legacy16 boot table.
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@retval EFI_SUCCESS SMM code loaded.
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@retval EFI_DEVICE_ERROR SMM code failed to load
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_LEGACY_BIOS_PLATFORM_SMM_INIT)(
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IN EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *This,
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IN VOID *EfiToLegacy16BootTable
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);
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/**
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Allows platform to perform any required action after a LegacyBios operation.
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Invokes the specific sub function specified by Mode.
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@param This The protocol instance pointer.
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@param Mode Specifies what handle to return. See EFI_GET_PLATFORM_HOOK_MODE enum.
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@param Type Mode specific. See EFI_GET_PLATFORM_HOOK_MODE enum.
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@param DeviceHandle Mode specific. See EFI_GET_PLATFORM_HOOK_MODE enum.
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@param ShadowAddress Mode specific. See EFI_GET_PLATFORM_HOOK_MODE enum.
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@param Compatibility16Table Mode specific. See EFI_GET_PLATFORM_HOOK_MODE enum.
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@param AdditionalData Mode specific. See EFI_GET_PLATFORM_HOOK_MODE enum.
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@retval EFI_SUCCESS The operation performed successfully. Mode specific.
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@retval EFI_UNSUPPORTED Mode is not supported on the platform.
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_LEGACY_BIOS_PLATFORM_HOOKS)(
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IN EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *This,
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IN EFI_GET_PLATFORM_HOOK_MODE Mode,
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IN UINT16 Type,
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IN EFI_HANDLE DeviceHandle, OPTIONAL
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IN OUT UINTN *ShadowAddress, OPTIONAL
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IN EFI_COMPATIBILITY16_TABLE *Compatibility16Table, OPTIONAL
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OUT VOID **AdditionalData OPTIONAL
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);
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/**
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Returns information associated with PCI IRQ routing.
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This function returns the following information associated with PCI IRQ routing:
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* An IRQ routing table and number of entries in the table.
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* The $PIR table and its size.
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* A list of PCI IRQs and the priority order to assign them.
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@param This The protocol instance pointer.
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@param RoutingTable The pointer to PCI IRQ Routing table.
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This location is the $PIR table minus the header.
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@param RoutingTableEntries The number of entries in table.
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@param LocalPirqTable $PIR table.
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@param PirqTableSize $PIR table size.
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@param LocalIrqPriorityTable A list of interrupts in priority order to assign.
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@param IrqPriorityTableEntries The number of entries in the priority table.
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@retval EFI_SUCCESS Data was successfully returned.
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_LEGACY_BIOS_PLATFORM_GET_ROUTING_TABLE)(
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IN EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *This,
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OUT VOID **RoutingTable,
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OUT UINTN *RoutingTableEntries,
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OUT VOID **LocalPirqTable, OPTIONAL
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OUT UINTN *PirqTableSize, OPTIONAL
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OUT VOID **LocalIrqPriorityTable, OPTIONAL
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OUT UINTN *IrqPriorityTableEntries OPTIONAL
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);
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/**
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Translates the given PIRQ accounting for bridge.
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This function translates the given PIRQ back through all buses, if required,
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and returns the true PIRQ and associated IRQ.
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@param This The protocol instance pointer.
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@param PciBus The PCI bus number for this device.
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@param PciDevice The PCI device number for this device.
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@param PciFunction The PCI function number for this device.
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@param Pirq Input is PIRQ reported by device, and output is true PIRQ.
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@param PciIrq The IRQ already assigned to the PIRQ, or the IRQ to be
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assigned to the PIRQ.
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@retval EFI_SUCCESS The PIRQ was translated.
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_LEGACY_BIOS_PLATFORM_TRANSLATE_PIRQ)(
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IN EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *This,
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IN UINTN PciBus,
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IN UINTN PciDevice,
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IN UINTN PciFunction,
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IN OUT UINT8 *Pirq,
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OUT UINT8 *PciIrq
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);
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/**
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Attempt to legacy boot the BootOption. If the EFI contexted has been
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compromised this function will not return.
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@param This The protocol instance pointer.
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@param BbsDevicePath The EFI Device Path from BootXXXX variable.
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@param BbsTable The Internal BBS table.
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@param LoadOptionSize The size of LoadOption in size.
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@param LoadOption The LoadOption from BootXXXX variable
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@param EfiToLegacy16BootTable A pointer to BootTable structure
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@retval EFI_SUCCESS Ready to boot.
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**/
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typedef
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EFI_STATUS
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(EFIAPI *EFI_LEGACY_BIOS_PLATFORM_PREPARE_TO_BOOT)(
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IN EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *This,
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IN BBS_BBS_DEVICE_PATH *BbsDevicePath,
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IN VOID *BbsTable,
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IN UINT32 LoadOptionsSize,
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IN VOID *LoadOptions,
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IN VOID *EfiToLegacy16BootTable
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);
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/**
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This protocol abstracts the platform portion of the traditional BIOS.
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**/
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struct _EFI_LEGACY_BIOS_PLATFORM_PROTOCOL {
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///
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/// Gets binary data or other platform information.
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///
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EFI_LEGACY_BIOS_PLATFORM_GET_PLATFORM_INFO GetPlatformInfo;
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///
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/// Returns a buffer of all handles matching the requested subfunction.
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///
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EFI_LEGACY_BIOS_PLATFORM_GET_PLATFORM_HANDLE GetPlatformHandle;
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///
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/// Loads and initializes the traditional BIOS SMM handler.
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EFI_LEGACY_BIOS_PLATFORM_SMM_INIT SmmInit;
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///
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/// Allows platform to perform any required actions after a LegacyBios operation.
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///
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EFI_LEGACY_BIOS_PLATFORM_HOOKS PlatformHooks;
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///
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/// Gets $PIR table.
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EFI_LEGACY_BIOS_PLATFORM_GET_ROUTING_TABLE GetRoutingTable;
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///
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/// Translates the given PIRQ to the final value after traversing any PCI bridges.
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///
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EFI_LEGACY_BIOS_PLATFORM_TRANSLATE_PIRQ TranslatePirq;
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///
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/// Final platform function before the system attempts to boot to a traditional OS.
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///
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EFI_LEGACY_BIOS_PLATFORM_PREPARE_TO_BOOT PrepareToBoot;
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};
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extern EFI_GUID gEfiLegacyBiosPlatformProtocolGuid;
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#endif
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