X-Git-Url: https://git.proxmox.com/?a=blobdiff_plain;f=IntelFrameworkPkg%2FInclude%2FProtocol%2FLegacyBios.h;h=36761da39740271d833abacfa23e9a323bc9b94c;hb=aa7fc1c11c3d57d82842dbede50d064639671a98;hp=88f598044a5c886d5e81be81c7b071dd9e1a8b9d;hpb=c5b900bed8bab2f16149c48f11c525690611b33d;p=mirror_edk2.git
diff --git a/IntelFrameworkPkg/Include/Protocol/LegacyBios.h b/IntelFrameworkPkg/Include/Protocol/LegacyBios.h
index 88f598044a..36761da397 100644
--- a/IntelFrameworkPkg/Include/Protocol/LegacyBios.h
+++ b/IntelFrameworkPkg/Include/Protocol/LegacyBios.h
@@ -7,20 +7,14 @@
well known naming conventions.
Thunk is the code that switches from 32-bit protected environment into the 16-bit real-mode
- environment. Reverse thunk is the code that does the opposite.
+ environment. Reverse thunk is the code that does the opposite.
-Copyright (c) 2007 - 2010, Intel Corporation. All rights reserved.
-This program and the accompanying materials are licensed and made available under
-the terms and conditions of the BSD License that accompanies this distribution.
-The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php.
-
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
+Copyright (c) 2007 - 2018, Intel Corporation. All rights reserved.
+SPDX-License-Identifier: BSD-2-Clause-Patent
@par Revision Reference:
This protocol is defined in Framework for EFI Compatibility Support Module spec
- Version 0.97.
+ Version 0.98.
**/
@@ -28,7 +22,7 @@ WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
#define _EFI_LEGACY_BIOS_H_
///
-///
+///
///
#pragma pack(1)
@@ -51,75 +45,75 @@ typedef struct {
/// 1 is "F," byte 2 is "E," and byte 3 is "$" and is normally accessed as a DWORD or UINT32.
///
UINT32 Signature;
-
+
///
/// The value required such that byte checksum of TableLength equals zero.
///
UINT8 TableChecksum;
-
+
///
/// The length of this table.
///
UINT8 TableLength;
-
+
///
/// The major EFI revision for which this table was generated.
- ///
+ ///
UINT8 EfiMajorRevision;
-
+
///
/// The minor EFI revision for which this table was generated.
///
UINT8 EfiMinorRevision;
-
+
///
/// The major revision of this table.
///
UINT8 TableMajorRevision;
-
+
///
/// The minor revision of this table.
///
UINT8 TableMinorRevision;
-
+
///
/// Reserved for future usage.
///
UINT16 Reserved;
-
+
///
/// The segment of the entry point within the traditional BIOS for Compatibility16 functions.
///
UINT16 Compatibility16CallSegment;
-
+
///
/// The offset of the entry point within the traditional BIOS for Compatibility16 functions.
///
UINT16 Compatibility16CallOffset;
-
+
///
- /// The segment of the entry point within the traditional BIOS for EfiCompatibility
+ /// The segment of the entry point within the traditional BIOS for EfiCompatibility
/// to invoke the PnP installation check.
///
UINT16 PnPInstallationCheckSegment;
-
+
///
- /// The Offset of the entry point within the traditional BIOS for EfiCompatibility
+ /// The Offset of the entry point within the traditional BIOS for EfiCompatibility
/// to invoke the PnP installation check.
///
UINT16 PnPInstallationCheckOffset;
-
+
///
- /// EFI system resources table. Type EFI_SYSTEM_TABLE is defined in the IntelPlatform
+ /// EFI system resources table. Type EFI_SYSTEM_TABLE is defined in the IntelPlatform
///Innovation Framework for EFI Driver Execution Environment Core Interface Specification (DXE CIS).
///
- UINT32 EfiSystemTable;
-
+ UINT32 EfiSystemTable;
+
///
/// The address of an OEM-provided identifier string. The string is null terminated.
///
UINT32 OemIdStringPointer;
-
+
///
/// The 32-bit physical address where ACPI RSD PTR is stored within the traditional
/// BIOS. The remained of the ACPI tables are located at their EFI addresses. The size
@@ -127,93 +121,93 @@ typedef struct {
/// RSD PTR with either the ACPI 1.0b or 2.0 values.
///
UINT32 AcpiRsdPtrPointer;
-
+
///
/// The OEM revision number. Usage is undefined but provided for OEM module usage.
///
UINT16 OemRevision;
-
+
///
/// The 32-bit physical address where INT15 E820 data is stored within the traditional
/// BIOS. The EfiCompatibility code will fill in the E820Pointer value and copy the
/// data to the indicated area.
///
UINT32 E820Pointer;
-
+
///
/// The length of the E820 data and is filled in by the EfiCompatibility code.
///
UINT32 E820Length;
-
+
///
/// The 32-bit physical address where the $PIR table is stored in the traditional BIOS.
/// The EfiCompatibility code will fill in the IrqRoutingTablePointer value and
/// copy the data to the indicated area.
///
UINT32 IrqRoutingTablePointer;
-
+
///
/// The length of the $PIR table and is filled in by the EfiCompatibility code.
///
UINT32 IrqRoutingTableLength;
-
+
///
/// The 32-bit physical address where the MP table is stored in the traditional BIOS.
- /// The EfiCompatibility code will fill in the MpTablePtr value and copy the data
+ /// The EfiCompatibility code will fill in the MpTablePtr value and copy the data
/// to the indicated area.
///
UINT32 MpTablePtr;
-
+
///
/// The length of the MP table and is filled in by the EfiCompatibility code.
///
UINT32 MpTableLength;
-
+
///
/// The segment of the OEM-specific INT table/code.
- ///
+ ///
UINT16 OemIntSegment;
-
+
///
/// The offset of the OEM-specific INT table/code.
///
UINT16 OemIntOffset;
-
+
///
/// The segment of the OEM-specific 32-bit table/code.
///
UINT16 Oem32Segment;
-
+
///
/// The offset of the OEM-specific 32-bit table/code.
///
UINT16 Oem32Offset;
-
+
///
/// The segment of the OEM-specific 16-bit table/code.
///
UINT16 Oem16Segment;
-
+
///
/// The offset of the OEM-specific 16-bit table/code.
///
UINT16 Oem16Offset;
-
+
///
/// The segment of the TPM binary passed to 16-bit CSM.
///
UINT16 TpmSegment;
-
+
///
/// The offset of the TPM binary passed to 16-bit CSM.
///
UINT16 TpmOffset;
-
+
///
/// A pointer to a string identifying the independent BIOS vendor.
///
UINT32 IbvPointer;
-
+
///
/// This field is NULL for all systems not supporting PCI Express. This field is the base
/// value of the start of the PCI Express memory-mapped configuration registers and
@@ -223,20 +217,45 @@ typedef struct {
/// Functions.
///
UINT32 PciExpressBase;
-
+
///
/// Maximum PCI bus number assigned.
///
UINT8 LastPciBus;
+
+ ///
+ /// Start Address of Upper Memory Area (UMA) to be set as Read/Write. If
+ /// UmaAddress is a valid address in the shadow RAM, it also indicates that the region
+ /// from 0xC0000 to (UmaAddress - 1) can be used for Option ROM.
+ ///
+ UINT32 UmaAddress;
+
+ ///
+ /// Upper Memory Area size in bytes to be set as Read/Write. If zero, no UMA region
+ /// will be set as Read/Write (i.e. all Shadow RAM is set as Read-Only).
+ ///
+ UINT32 UmaSize;
+
+ ///
+ /// Start Address of high memory that can be used for permanent allocation. If zero,
+ /// high memory is not available for permanent allocation.
+ ///
+ UINT32 HiPermanentMemoryAddress;
+
+ ///
+ /// Size of high memory that can be used for permanent allocation in bytes. If zero,
+ /// high memory is not available for permanent allocation.
+ ///
+ UINT32 HiPermanentMemorySize;
} EFI_COMPATIBILITY16_TABLE;
///
-/// Functions provided by the CSM binary which communicate between the EfiCompatibility
+/// Functions provided by the CSM binary which communicate between the EfiCompatibility
/// and Compatability16 code.
///
-/// Inconsistent with the specification here:
-/// The member's name started with "Compatibility16" [defined in Intel Framework
-/// Compatibility Support Module Specification / 0.97 version]
+/// Inconsistent with the specification here:
+/// The member's name started with "Compatibility16" [defined in Intel Framework
+/// Compatibility Support Module Specification / 0.97 version]
/// has been changed to "Legacy16" since keeping backward compatible.
///
typedef enum {
@@ -249,7 +268,7 @@ typedef enum {
/// AX = Return Status codes
///
Legacy16InitializeYourself = 0x0000,
-
+
///
/// Causes the Compatibility16 BIOS to perform any drive number translations to match the boot sequence.
/// Input:
@@ -259,18 +278,18 @@ typedef enum {
/// AX = Returned status codes
///
Legacy16UpdateBbs = 0x0001,
-
+
///
/// Allows the Compatibility16 code to perform any final actions before booting. The Compatibility16
/// code is read/write.
/// Input:
/// AX = Compatibility16PrepareToBoot
- /// ES:BX = Pointer to EFI_TO_COMPATIBILITY16_BOOT_TABLE structure
+ /// ES:BX = Pointer to EFI_TO_COMPATIBILITY16_BOOT_TABLE structure
/// Return:
/// AX = Returned status codes
///
Legacy16PrepareToBoot = 0x0002,
-
+
///
/// Causes the Compatibility16 BIOS to boot. The Compatibility16 code is Read/Only.
/// Input:
@@ -279,7 +298,7 @@ typedef enum {
/// AX = Returned status codes
///
Legacy16Boot = 0x0003,
-
+
///
/// Allows the Compatibility16 code to get the last device from which a boot was attempted. This is
/// stored in CMOS and is the priority number of the last attempted boot device.
@@ -290,7 +309,7 @@ typedef enum {
/// BX = Priority number of the boot device.
///
Legacy16RetrieveLastBootDevice = 0x0004,
-
+
///
/// Allows the Compatibility16 code rehook INT13, INT18, and/or INT19 after dispatching a legacy OpROM.
/// Input:
@@ -301,7 +320,7 @@ typedef enum {
/// BX = Number of non-BBS-compliant devices found. Equals 0 if BBS compliant.
///
Legacy16DispatchOprom = 0x0005,
-
+
///
/// Finds a free area in the 0xFxxxx or 0xExxxx region of the specified length and returns the address
/// of that region.
@@ -318,7 +337,7 @@ typedef enum {
/// DS:BX = Address of the region
///
Legacy16GetTableAddress = 0x0006,
-
+
///
/// Enables the EfiCompatibility module to do any nonstandard processing of keyboard LEDs or state.
/// Input:
@@ -331,7 +350,7 @@ typedef enum {
/// AX = Returned status codes
///
Legacy16SetKeyboardLeds = 0x0007,
-
+
///
/// Enables the EfiCompatibility module to install an interrupt handler for PCI mass media devices that
/// do not have an OpROM associated with them. An example is SATA.
@@ -360,8 +379,8 @@ typedef struct {
UINT32 BbsTablePointer; ///< A pointer to the BBS table.
UINT16 RuntimeSegment; ///< The segment where the OpROM can be relocated to. If this value is 0x0000, this
///< means that the relocation of this run time code is not supported.
- ///< Inconsistent with specification here:
- ///< The member's name "OpromDestinationSegment" [defined in Intel Framework Compatibility Support Module Specification / 0.97 version]
+ ///< Inconsistent with specification here:
+ ///< The member's name "OpromDestinationSegment" [defined in Intel Framework Compatibility Support Module Specification / 0.97 version]
///< has been changed to "RuntimeSegment" since keeping backward compatible.
} EFI_DISPATCH_OPROM_TABLE;
@@ -374,52 +393,52 @@ typedef struct {
/// Starting address of memory under 1 MB. The ending address is assumed to be 640 KB or 0x9FFFF.
///
UINT32 BiosLessThan1MB;
-
+
///
/// The starting address of the high memory block.
///
UINT32 HiPmmMemory;
-
+
///
/// The length of high memory block.
///
UINT32 HiPmmMemorySizeInBytes;
-
+
///
/// The segment of the reverse thunk call code.
///
UINT16 ReverseThunkCallSegment;
-
+
///
/// The offset of the reverse thunk call code.
///
UINT16 ReverseThunkCallOffset;
-
+
///
/// The number of E820 entries copied to the Compatibility16 BIOS.
///
UINT32 NumberE820Entries;
-
+
///
/// The amount of usable memory above 1 MB, e.g., E820 type 1 memory.
///
UINT32 OsMemoryAbove1Mb;
-
+
///
/// The start of thunk code in main memory. Memory cannot be used by BIOS or PMM.
///
UINT32 ThunkStart;
-
+
///
/// The size of the thunk code.
///
UINT32 ThunkSizeInBytes;
-
+
///
/// Starting address of memory under 1 MB.
///
UINT32 LowPmmMemory;
-
+
///
/// The length of low Memory block.
///
@@ -510,40 +529,40 @@ typedef struct {
/// per IDE controller. The IdentifyDrive is per drive. Index 0 is master and index
/// 1 is slave.
///
- UINT16 Status;
-
+ UINT16 Status;
+
///
/// PCI bus of IDE controller.
///
UINT32 Bus;
-
+
///
/// PCI device of IDE controller.
///
UINT32 Device;
-
+
///
/// PCI function of IDE controller.
///
UINT32 Function;
-
+
///
/// Command ports base address.
///
UINT16 CommandBaseAddress;
-
+
///
/// Control ports base address.
///
UINT16 ControlBaseAddress;
-
+
///
/// Bus master address.
///
UINT16 BusMasterAddress;
-
+
UINT8 HddIrq;
-
+
///
/// Data that identifies the drive data; one per possible attached drive.
///
@@ -571,7 +590,7 @@ typedef struct {
UINT16 Enabled : 1; ///< If 0, ignore this entry.
UINT16 Failed : 1; ///< 0 = Not known if boot failure occurred.
///< 1 = Boot attempted failed.
-
+
///
/// State of media present.
/// 00 = No bootable media is present in the device.
@@ -591,64 +610,64 @@ typedef struct {
/// The boot priority for this boot device. Values are defined below.
///
UINT16 BootPriority;
-
+
///
/// The PCI bus for this boot device.
///
UINT32 Bus;
-
+
///
/// The PCI device for this boot device.
///
UINT32 Device;
-
+
///
/// The PCI function for the boot device.
///
UINT32 Function;
-
+
///
/// The PCI class for this boot device.
///
UINT8 Class;
-
+
///
/// The PCI Subclass for this boot device.
///
UINT8 SubClass;
-
+
///
/// Segment:offset address of an ASCIIZ description string describing the manufacturer.
///
UINT16 MfgStringOffset;
-
+
///
/// Segment:offset address of an ASCIIZ description string describing the manufacturer.
- ///
+ ///
UINT16 MfgStringSegment;
-
+
///
/// BBS device type. BBS device types are defined below.
///
UINT16 DeviceType;
-
+
///
/// Status of this boot device. Type BBS_STATUS_FLAGS is defined below.
///
BBS_STATUS_FLAGS StatusFlags;
-
+
///
/// Segment:Offset address of boot loader for IPL devices or install INT13 handler for
/// BCV devices.
///
UINT16 BootHandlerOffset;
-
+
///
/// Segment:Offset address of boot loader for IPL devices or install INT13 handler for
/// BCV devices.
- ///
+ ///
UINT16 BootHandlerSegment;
-
+
///
/// Segment:offset address of an ASCIIZ description string describing this device.
///
@@ -658,38 +677,38 @@ typedef struct {
/// Segment:offset address of an ASCIIZ description string describing this device.
///
UINT16 DescStringSegment;
-
+
///
/// Reserved.
///
UINT32 InitPerReserved;
-
+
///
/// The use of these fields is IBV dependent. They can be used to flag that an OpROM
/// has hooked the specified IRQ. The OpROM may be BBS compliant as some SCSI
/// BBS-compliant OpROMs also hook IRQ vectors in order to run their BIOS Setup
///
UINT32 AdditionalIrq13Handler;
-
+
///
/// The use of these fields is IBV dependent. They can be used to flag that an OpROM
/// has hooked the specified IRQ. The OpROM may be BBS compliant as some SCSI
/// BBS-compliant OpROMs also hook IRQ vectors in order to run their BIOS Setup
- ///
+ ///
UINT32 AdditionalIrq18Handler;
-
+
///
/// The use of these fields is IBV dependent. They can be used to flag that an OpROM
/// has hooked the specified IRQ. The OpROM may be BBS compliant as some SCSI
/// BBS-compliant OpROMs also hook IRQ vectors in order to run their BIOS Setup
- ///
+ ///
UINT32 AdditionalIrq19Handler;
-
+
///
/// The use of these fields is IBV dependent. They can be used to flag that an OpROM
/// has hooked the specified IRQ. The OpROM may be BBS compliant as some SCSI
/// BBS-compliant OpROMs also hook IRQ vectors in order to run their BIOS Setup
- ///
+ ///
UINT32 AdditionalIrq40Handler;
UINT8 AssignedDriveNumber;
UINT32 AdditionalIrq41Handler;
@@ -729,17 +748,17 @@ typedef struct {
/// values are reserved for future usage.
///
UINT16 Type : 3;
-
+
///
/// The size of "port" in bits. Defined values are below.
///
UINT16 PortGranularity : 3;
-
+
///
/// The size of data in bits. Defined values are below.
///
UINT16 DataGranularity : 3;
-
+
///
/// Reserved for future use.
///
@@ -804,17 +823,17 @@ typedef struct {
/// SMM_ATTRIBUTES is defined below.
///
SMM_ATTRIBUTES SmmAttributes;
-
+
///
/// Function Soft SMI is to perform. Type SMM_FUNCTION is defined below.
///
SMM_FUNCTION SmmFunction;
-
+
///
/// SmmPort size depends upon SmmAttributes and ranges from2 bytes to 16 bytes.
///
UINT8 SmmPort;
-
+
///
/// SmmData size depends upon SmmAttributes and ranges from2 bytes to 16 bytes.
///
@@ -837,18 +856,18 @@ typedef struct {
/// This bit set indicates that the ServiceAreaData is valid.
///
UINT8 DirectoryServiceValidity : 1;
-
+
///
/// This bit set indicates to use the Reserve Area Boot Code Address (RACBA) only if
/// DirectoryServiceValidity is 0.
///
UINT8 RabcaUsedFlag : 1;
-
+
///
/// This bit set indicates to execute hard disk diagnostics.
///
UINT8 ExecuteHddDiagnosticsFlag : 1;
-
+
///
/// Reserved for future use. Set to 0.
///
@@ -864,35 +883,35 @@ typedef struct {
/// UDC_ATTRIBUTES is defined below.
///
UDC_ATTRIBUTES Attributes;
-
+
///
/// This field contains the zero-based device on which the selected
- /// ServiceDataArea is present. It is 0 for master and 1 for the slave device.
+ /// ServiceDataArea is present. It is 0 for master and 1 for the slave device.
///
UINT8 DeviceNumber;
-
+
///
/// This field contains the zero-based index into the BbsTable for the parent device.
/// This index allows the user to reference the parent device information such as PCI
/// bus, device function.
///
UINT8 BbsTableEntryNumberForParentDevice;
-
+
///
/// This field contains the zero-based index into the BbsTable for the boot entry.
///
UINT8 BbsTableEntryNumberForBoot;
-
+
///
/// This field contains the zero-based index into the BbsTable for the HDD diagnostics entry.
///
UINT8 BbsTableEntryNumberForHddDiag;
-
+
///
/// The raw Beer data.
///
UINT8 BeerData[128];
-
+
///
/// The raw data of selected service area.
///
@@ -983,8 +1002,8 @@ typedef struct _EFI_LEGACY_BIOS_PROTOCOL EFI_LEGACY_BIOS_PROTOCOL;
#define ROM_WITH_CONFIG 0x04 ///< Not defined in the Framework CSM Specification.
///
-/// The following macros do not appear in the Framework CSM Specification and
-/// are kept for backward compatibility only. They convert 32-bit address (_Adr)
+/// The following macros do not appear in the Framework CSM Specification and
+/// are kept for backward compatibility only. They convert 32-bit address (_Adr)
/// to Segment:Offset 16-bit form.
///
///@{
@@ -1122,7 +1141,7 @@ typedef union {
@param[in,out] Reg Register contexted passed into (and returned) from thunk to
16-bit mode.
- @retval TRUE Thunk completed with no BIOS errors in the target code. See Regs for status.
+ @retval TRUE Thunk completed with no BIOS errors in the target code. See Regs for status.
@retval FALSE There was a BIOS error in the target code.
**/
typedef
@@ -1172,7 +1191,7 @@ BOOLEAN
- 01 = ROM Found.
- 02 = ROM is a valid legacy ROM.
- @retval EFI_SUCCESS The Legacy Option ROM availible for this device
+ @retval EFI_SUCCESS The Legacy Option ROM available for this device
@retval EFI_UNSUPPORTED The Legacy Option ROM is not supported.
**/
@@ -1267,8 +1286,8 @@ EFI_STATUS
);
/**
- This function takes the Leds input parameter and sets/resets the BDA accordingly.
- Leds is also passed to Compatibility16 code, in case any special processing is required.
+ This function takes the Leds input parameter and sets/resets the BDA accordingly.
+ Leds is also passed to Compatibility16 code, in case any special processing is required.
This function is normally called from EFI Setup drivers that handle user-selectable
keyboard options such as boot with NUM LOCK on/off. This function does not
touch the keyboard or keyboard LEDs but only the BDA.
@@ -1361,9 +1380,9 @@ EFI_STATUS
Warning: Use this with caution. This routine disconnects all EFI
drivers. If used externally, then the caller must re-connect EFI
drivers.
-
+
@param[in] This The protocol instance pointer.
-
+
@retval EFI_SUCCESS OPROMs were shadowed.
**/
@@ -1435,64 +1454,100 @@ struct _EFI_LEGACY_BIOS_PROTOCOL {
/// Performs traditional software INT. See the Int86() function description.
///
EFI_LEGACY_BIOS_INT86 Int86;
-
+
///
/// Performs a far call into Compatibility16 or traditional OpROM code.
///
EFI_LEGACY_BIOS_FARCALL86 FarCall86;
-
+
///
/// Checks if a traditional OpROM exists for this device.
///
EFI_LEGACY_BIOS_CHECK_ROM CheckPciRom;
-
+
///
/// Loads a traditional OpROM in traditional OpROM address space.
///
EFI_LEGACY_BIOS_INSTALL_ROM InstallPciRom;
-
+
///
/// Boots a traditional OS.
///
EFI_LEGACY_BIOS_BOOT LegacyBoot;
-
+
///
/// Updates BDA to reflect the current EFI keyboard LED status.
///
EFI_LEGACY_BIOS_UPDATE_KEYBOARD_LED_STATUS UpdateKeyboardLedStatus;
-
+
///
/// Allows an external agent, such as BIOS Setup, to get the BBS data.
///
EFI_LEGACY_BIOS_GET_BBS_INFO GetBbsInfo;
-
+
///
/// Causes all legacy OpROMs to be shadowed.
///
EFI_LEGACY_BIOS_SHADOW_ALL_LEGACY_OPROMS ShadowAllLegacyOproms;
-
+
///
/// Performs all actions prior to boot. Used when booting an EFI-aware OS
- /// rather than a legacy OS.
+ /// rather than a legacy OS.
///
EFI_LEGACY_BIOS_PREPARE_TO_BOOT_EFI PrepareToBootEfi;
-
+
///
/// Allows EFI to reserve an area in the 0xE0000 or 0xF0000 block.
///
EFI_LEGACY_BIOS_GET_LEGACY_REGION GetLegacyRegion;
-
+
///
/// Allows EFI to copy data to the area specified by GetLegacyRegion.
///
EFI_LEGACY_BIOS_COPY_LEGACY_REGION CopyLegacyRegion;
-
+
///
/// Allows the user to boot off an unconventional device such as a PARTIES partition.
///
EFI_LEGACY_BIOS_BOOT_UNCONVENTIONAL_DEVICE BootUnconventionalDevice;
};
+//
+// Legacy BIOS needs to access memory in page 0 (0-4095), which is disabled if
+// NULL pointer detection feature is enabled. Following macro can be used to
+// enable/disable page 0 before/after accessing it.
+//
+#define ACCESS_PAGE0_CODE(statements) \
+ do { \
+ EFI_STATUS Status_; \
+ EFI_GCD_MEMORY_SPACE_DESCRIPTOR Desc_; \
+ \
+ Desc_.Attributes = 0; \
+ Status_ = gDS->GetMemorySpaceDescriptor (0, &Desc_); \
+ ASSERT_EFI_ERROR (Status_); \
+ if ((Desc_.Attributes & EFI_MEMORY_RP) != 0) { \
+ Status_ = gDS->SetMemorySpaceAttributes ( \
+ 0, \
+ EFI_PAGES_TO_SIZE(1), \
+ Desc_.Attributes & ~(UINT64)EFI_MEMORY_RP \
+ ); \
+ ASSERT_EFI_ERROR (Status_); \
+ } \
+ \
+ { \
+ statements; \
+ } \
+ \
+ if ((Desc_.Attributes & EFI_MEMORY_RP) != 0) { \
+ Status_ = gDS->SetMemorySpaceAttributes ( \
+ 0, \
+ EFI_PAGES_TO_SIZE(1), \
+ Desc_.Attributes \
+ ); \
+ ASSERT_EFI_ERROR (Status_); \
+ } \
+ } while (FALSE)
+
extern EFI_GUID gEfiLegacyBiosProtocolGuid;
#endif