MdePkg/Library/BaseIoLibIntrinsic/IoLibInternalTdx.c - edk2 - Git at Google

 /** @file
   TDX I/O Library routines.

   Copyright (c) 2020-2021, Intel Corporation. All rights reserved.<BR>
   SPDX-License-Identifier: BSD-2-Clause-Patent

 **/
 #include "BaseIoLibIntrinsicInternal.h"
 #include <Uefi/UefiBaseType.h>
 #include <Include/IndustryStandard/Tdx.h>
 #include <Library/TdxLib.h>
 #include <Register/Intel/Cpuid.h>
 #include <Library/CcProbeLib.h>
 #include "IoLibTdx.h"

 // Size of TDVMCALL Access, including IO and MMIO
 #define TDVMCALL_ACCESS_SIZE_1  1
 #define TDVMCALL_ACCESS_SIZE_2  2
 #define TDVMCALL_ACCESS_SIZE_4  4
 #define TDVMCALL_ACCESS_SIZE_8  8

 // Direction of TDVMCALL Access, including IO and MMIO
 #define TDVMCALL_ACCESS_READ   0
 #define TDVMCALL_ACCESS_WRITE  1

 /**
   Check if it is Tdx guest.

   @return TRUE    It is Tdx guest
   @return FALSE   It is not Tdx guest

 **/
 BOOLEAN
 EFIAPI
 IsTdxGuest (
   VOID
   )
 {
   return CcProbe () == CcGuestTypeIntelTdx;
 }

 /**
   Reads an 8-bit I/O port.

   TDVMCALL_IO is invoked to read I/O port.

   @param  Port  The I/O port to read.

   @return The value read.

 **/
 UINT8
 EFIAPI
 TdIoRead8 (
   IN      UINTN  Port
   )
 {
   UINT64  Status;
   UINT64  Val;

   Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_READ, Port, 0, &Val);
   if (Status != 0) {
     TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
   }

   return (UINT8)Val;
 }

 /**
   Reads a 16-bit I/O port.

   TDVMCALL_IO is invoked to write I/O port.

   @param  Port  The I/O port to read.

   @return The value read.

 **/
 UINT16
 EFIAPI
 TdIoRead16 (
   IN      UINTN  Port
   )
 {
   UINT64  Status;
   UINT64  Val;

   ASSERT ((Port & 1) == 0);

   Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_READ, Port, 0, &Val);
   if (Status != 0) {
     TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
   }

   return (UINT16)Val;
 }

 /**
   Reads a 32-bit I/O port.

   TDVMCALL_IO is invoked to read I/O port.

   @param  Port  The I/O port to read.

   @return The value read.

 **/
 UINT32
 EFIAPI
 TdIoRead32 (
   IN      UINTN  Port
   )
 {
   UINT64  Status;
   UINT64  Val;

   ASSERT ((Port & 3) == 0);

   Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_READ, Port, 0, &Val);
   if (Status != 0) {
     TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
   }

   return (UINT32)Val;
 }

 /**
   Writes an 8-bit I/O port.

   TDVMCALL_IO is invoked to write I/O port.

   @param  Port  The I/O port to write.
   @param  Value The value to write to the I/O port.

   @return The value written the I/O port.

 **/
 UINT8
 EFIAPI
 TdIoWrite8 (
   IN      UINTN  Port,
   IN      UINT8  Value
   )
 {
   UINT64  Status;
   UINT64  Val;

   Val    = Value;
   Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_WRITE, Port, Val, 0);
   if (Status != 0) {
     TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
   }

   return Value;
 }

 /**
   Writes a 16-bit I/O port.

   TDVMCALL_IO is invoked to write I/O port.

   @param  Port  The I/O port to write.
   @param  Value The value to write to the I/O port.

   @return The value written the I/O port.

 **/
 UINT16
 EFIAPI
 TdIoWrite16 (
   IN      UINTN   Port,
   IN      UINT16  Value
   )
 {
   UINT64  Status;
   UINT64  Val;

   ASSERT ((Port & 1) == 0);
   Val    = Value;
   Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_WRITE, Port, Val, 0);
   if (Status != 0) {
     TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
   }

   return Value;
 }

 /**
   Writes a 32-bit I/O port.

   TDVMCALL_IO is invoked to write I/O port.

   @param  Port  The I/O port to write.
   @param  Value The value to write to the I/O port.

   @return The value written the I/O port.

 **/
 UINT32
 EFIAPI
 TdIoWrite32 (
   IN      UINTN   Port,
   IN      UINT32  Value
   )
 {
   UINT64  Status;
   UINT64  Val;

   ASSERT ((Port & 3) == 0);
   Val    = Value;
   Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_WRITE, Port, Val, 0);
   if (Status != 0) {
     TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
   }

   return Value;
 }

 /**
   Reads an 8-bit MMIO register.

   TDVMCALL_MMIO is invoked to read MMIO registers.

   @param  Address The MMIO register to read.

   @return The value read.

 **/
 UINT8
 EFIAPI
 TdMmioRead8 (
   IN      UINTN  Address
   )
 {
   UINT64  Value;
   UINT64  Status;

   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_READ, Address | TdSharedPageMask (), 0, &Value);
   if (Status != 0) {
     Value = *(volatile UINT64 *)Address;
   }

   return (UINT8)Value;
 }

 /**
   Writes an 8-bit MMIO register.

   TDVMCALL_MMIO is invoked to read write registers.

   @param  Address The MMIO register to write.
   @param  Value   The value to write to the MMIO register.

   @return Value.

 **/
 UINT8
 EFIAPI
 TdMmioWrite8 (
   IN      UINTN  Address,
   IN      UINT8  Value
   )
 {
   UINT64  Val;
   UINT64  Status;

   Val    = Value;
   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_WRITE, Address | TdSharedPageMask (), Val, 0);
   if (Status != 0) {
     *(volatile UINT8 *)Address = Value;
   }

   return Value;
 }

 /**
   Reads a 16-bit MMIO register.

   TDVMCALL_MMIO is invoked to read MMIO registers.

   @param  Address The MMIO register to read.

   @return The value read.

 **/
 UINT16
 EFIAPI
 TdMmioRead16 (
   IN      UINTN  Address
   )
 {
   UINT64  Value;
   UINT64  Status;

   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_READ, Address | TdSharedPageMask (), 0, &Value);
   if (Status != 0) {
     Value = *(volatile UINT64 *)Address;
   }

   return (UINT16)Value;
 }

 /**
   Writes a 16-bit MMIO register.

   TDVMCALL_MMIO is invoked to write MMIO registers.

   @param  Address The MMIO register to write.
   @param  Value   The value to write to the MMIO register.

   @return Value.

 **/
 UINT16
 EFIAPI
 TdMmioWrite16 (
   IN      UINTN   Address,
   IN      UINT16  Value
   )
 {
   UINT64  Val;
   UINT64  Status;

   ASSERT ((Address & 1) == 0);

   Val    = Value;
   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_WRITE, Address | TdSharedPageMask (), Val, 0);
   if (Status != 0) {
     *(volatile UINT16 *)Address = Value;
   }

   return Value;
 }

 /**
   Reads a 32-bit MMIO register.

   TDVMCALL_MMIO is invoked to read MMIO registers.

   @param  Address The MMIO register to read.

   @return The value read.

 **/
 UINT32
 EFIAPI
 TdMmioRead32 (
   IN      UINTN  Address
   )
 {
   UINT64  Value;
   UINT64  Status;

   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_READ, Address | TdSharedPageMask (), 0, &Value);
   if (Status != 0) {
     Value = *(volatile UINT64 *)Address;
   }

   return (UINT32)Value;
 }

 /**
   Writes a 32-bit MMIO register.

   TDVMCALL_MMIO is invoked to write MMIO registers.

   @param  Address The MMIO register to write.
   @param  Value   The value to write to the MMIO register.

   @return Value.

 **/
 UINT32
 EFIAPI
 TdMmioWrite32 (
   IN      UINTN   Address,
   IN      UINT32  Value
   )
 {
   UINT64  Val;
   UINT64  Status;

   ASSERT ((Address & 3) == 0);

   Val    = Value;
   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_WRITE, Address | TdSharedPageMask (), Val, 0);
   if (Status != 0) {
     *(volatile UINT32 *)Address = Value;
   }

   return Value;
 }

 /**
   Reads a 64-bit MMIO register.

   TDVMCALL_MMIO is invoked to read MMIO registers.

   @param  Address The MMIO register to read.

   @return The value read.

 **/
 UINT64
 EFIAPI
 TdMmioRead64 (
   IN      UINTN  Address
   )
 {
   UINT64  Value;
   UINT64  Status;

   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_8, TDVMCALL_ACCESS_READ, Address | TdSharedPageMask (), 0, &Value);
   if (Status != 0) {
     Value = *(volatile UINT64 *)Address;
   }

   return Value;
 }

 /**
   Writes a 64-bit MMIO register.

   TDVMCALL_MMIO is invoked to write MMIO registers.

   @param  Address The MMIO register to write.
   @param  Value   The value to write to the MMIO register.

 **/
 UINT64
 EFIAPI
 TdMmioWrite64 (
   IN      UINTN   Address,
   IN      UINT64  Value
   )
 {
   UINT64  Status;
   UINT64  Val;

   ASSERT ((Address & 7) == 0);

   Val    = Value;
   Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_8, TDVMCALL_ACCESS_WRITE, Address | TdSharedPageMask (), Val, 0);
   if (Status != 0) {
     *(volatile UINT64 *)Address = Value;
   }

   return Value;
 }

 /**
   Reads an 8-bit I/O port fifo into a block of memory.

   Reads the 8-bit I/O fifo port specified by Port.
   The port is read Count times, and the read data is
   stored in the provided Buffer.

   This function must guarantee that all I/O read and write operations are
   serialized.

   If 8-bit I/O port operations are not supported, then ASSERT().

   In TDX a serial of TdIoRead8 is invoked to read the I/O port fifo.

   @param  Port    The I/O port to read.
   @param  Count   The number of times to read I/O port.
   @param  Buffer  The buffer to store the read data into.

 **/
 VOID
 EFIAPI
 TdIoReadFifo8 (
   IN      UINTN  Port,
   IN      UINTN  Count,
   OUT     VOID   *Buffer
   )
 {
   UINT8  *Buf8;
   UINTN  Index;

   Buf8 = (UINT8 *)Buffer;
   for (Index = 0; Index < Count; Index++) {
     Buf8[Index] = TdIoRead8 (Port);
   }
 }

 /**
   Writes a block of memory into an 8-bit I/O port fifo.

   Writes the 8-bit I/O fifo port specified by Port.
   The port is written Count times, and the write data is
   retrieved from the provided Buffer.

   This function must guarantee that all I/O write and write operations are
   serialized.

   If 8-bit I/O port operations are not supported, then ASSERT().

   In TDX a serial of TdIoWrite8 is invoked to write data to the I/O port.

   @param  Port    The I/O port to write.
   @param  Count   The number of times to write I/O port.
   @param  Buffer  The buffer to retrieve the write data from.

 **/
 VOID
 EFIAPI
 TdIoWriteFifo8 (
   IN      UINTN  Port,
   IN      UINTN  Count,
   IN      VOID   *Buffer
   )
 {
   UINT8  *Buf8;
   UINTN  Index;

   Buf8 = (UINT8 *)Buffer;
   for (Index = 0; Index < Count; Index++) {
     TdIoWrite8 (Port, Buf8[Index]);
   }
 }

 /**
   Reads a 16-bit I/O port fifo into a block of memory.

   Reads the 16-bit I/O fifo port specified by Port.
   The port is read Count times, and the read data is
   stored in the provided Buffer.

   This function must guarantee that all I/O read and write operations are
   serialized.

   If 16-bit I/O port operations are not supported, then ASSERT().

   In TDX a serial of TdIoRead16 is invoked to read data from the I/O port.

   @param  Port    The I/O port to read.
   @param  Count   The number of times to read I/O port.
   @param  Buffer  The buffer to store the read data into.

 **/
 VOID
 EFIAPI
 TdIoReadFifo16 (
   IN      UINTN  Port,
   IN      UINTN  Count,
   OUT     VOID   *Buffer
   )
 {
   UINT16  *Buf16;
   UINTN   Index;

   Buf16 = (UINT16 *)Buffer;
   for (Index = 0; Index < Count; Index++) {
     Buf16[Index] = TdIoRead16 (Port);
   }
 }

 /**
   Writes a block of memory into a 16-bit I/O port fifo.

   Writes the 16-bit I/O fifo port specified by Port.
   The port is written Count times, and the write data is
   retrieved from the provided Buffer.

   This function must guarantee that all I/O write and write operations are
   serialized.

   If 16-bit I/O port operations are not supported, then ASSERT().

   In TDX a serial of TdIoWrite16 is invoked to write data to the I/O port.

   @param  Port    The I/O port to write.
   @param  Count   The number of times to write I/O port.
   @param  Buffer  The buffer to retrieve the write data from.

 **/
 VOID
 EFIAPI
 TdIoWriteFifo16 (
   IN      UINTN  Port,
   IN      UINTN  Count,
   IN      VOID   *Buffer
   )
 {
   UINT16  *Buf16;
   UINTN   Index;

   Buf16 = (UINT16 *)Buffer;
   for (Index = 0; Index < Count; Index++) {
     TdIoWrite16 (Port, Buf16[Index]);
   }
 }

 /**
   Reads a 32-bit I/O port fifo into a block of memory.

   Reads the 32-bit I/O fifo port specified by Port.
   The port is read Count times, and the read data is
   stored in the provided Buffer.

   This function must guarantee that all I/O read and write operations are
   serialized.

   If 32-bit I/O port operations are not supported, then ASSERT().

   In TDX a serial of TdIoRead32 is invoked to read data from the I/O port.

   @param  Port    The I/O port to read.
   @param  Count   The number of times to read I/O port.
   @param  Buffer  The buffer to store the read data into.

 **/
 VOID
 EFIAPI
 TdIoReadFifo32 (
   IN      UINTN  Port,
   IN      UINTN  Count,
   OUT     VOID   *Buffer
   )
 {
   UINT32  *Buf32;
   UINTN   Index;

   Buf32 = (UINT32 *)Buffer;
   for (Index = 0; Index < Count; Index++) {
     Buf32[Index] = TdIoRead32 (Port);
   }
 }

 /**
   Writes a block of memory into a 32-bit I/O port fifo.

   Writes the 32-bit I/O fifo port specified by Port.
   The port is written Count times, and the write data is
   retrieved from the provided Buffer.

   This function must guarantee that all I/O write and write operations are
   serialized.

   If 32-bit I/O port operations are not supported, then ASSERT().

   In TDX a serial of TdIoWrite32 is invoked to write data to the I/O port.

   @param  Port    The I/O port to write.
   @param  Count   The number of times to write I/O port.
   @param  Buffer  The buffer to retrieve the write data from.

 **/
 VOID
 EFIAPI
 TdIoWriteFifo32 (
   IN      UINTN  Port,
   IN      UINTN  Count,
   IN      VOID   *Buffer
   )
 {
   UINT32  *Buf32;
   UINTN   Index;

   Buf32 = (UINT32 *)Buffer;
   for (Index = 0; Index < Count; Index++) {
     TdIoWrite32 (Port, Buf32[Index]);
   }
 }
	/** @file
	TDX I/O Library routines.

	Copyright (c) 2020-2021, Intel Corporation. All rights reserved.<BR>
	SPDX-License-Identifier: BSD-2-Clause-Patent

	**/
	#include "BaseIoLibIntrinsicInternal.h"
	#include <Uefi/UefiBaseType.h>
	#include <Include/IndustryStandard/Tdx.h>
	#include <Library/TdxLib.h>
	#include <Register/Intel/Cpuid.h>
	#include <Library/CcProbeLib.h>
	#include "IoLibTdx.h"

	// Size of TDVMCALL Access, including IO and MMIO
	#define TDVMCALL_ACCESS_SIZE_1 1
	#define TDVMCALL_ACCESS_SIZE_2 2
	#define TDVMCALL_ACCESS_SIZE_4 4
	#define TDVMCALL_ACCESS_SIZE_8 8

	// Direction of TDVMCALL Access, including IO and MMIO
	#define TDVMCALL_ACCESS_READ 0
	#define TDVMCALL_ACCESS_WRITE 1

	/**
	Check if it is Tdx guest.

	@return TRUE It is Tdx guest
	@return FALSE It is not Tdx guest

	**/
	BOOLEAN
	EFIAPI
	IsTdxGuest (
	VOID
	)
	{
	return CcProbe () == CcGuestTypeIntelTdx;
	}

	/**
	Reads an 8-bit I/O port.

	TDVMCALL_IO is invoked to read I/O port.

	@param Port The I/O port to read.

	@return The value read.

	**/
	UINT8
	EFIAPI
	TdIoRead8 (
	IN UINTN Port
	)
	{
	UINT64 Status;
	UINT64 Val;

	Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_READ, Port, 0, &Val);
	if (Status != 0) {
	TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
	}

	return (UINT8)Val;
	}

	/**
	Reads a 16-bit I/O port.

	TDVMCALL_IO is invoked to write I/O port.

	@param Port The I/O port to read.

	@return The value read.

	**/
	UINT16
	EFIAPI
	TdIoRead16 (
	IN UINTN Port
	)
	{
	UINT64 Status;
	UINT64 Val;

	ASSERT ((Port & 1) == 0);

	Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_READ, Port, 0, &Val);
	if (Status != 0) {
	TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
	}

	return (UINT16)Val;
	}

	/**
	Reads a 32-bit I/O port.

	TDVMCALL_IO is invoked to read I/O port.

	@param Port The I/O port to read.

	@return The value read.

	**/
	UINT32
	EFIAPI
	TdIoRead32 (
	IN UINTN Port
	)
	{
	UINT64 Status;
	UINT64 Val;

	ASSERT ((Port & 3) == 0);

	Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_READ, Port, 0, &Val);
	if (Status != 0) {
	TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
	}

	return (UINT32)Val;
	}

	/**
	Writes an 8-bit I/O port.

	TDVMCALL_IO is invoked to write I/O port.

	@param Port The I/O port to write.
	@param Value The value to write to the I/O port.

	@return The value written the I/O port.

	**/
	UINT8
	EFIAPI
	TdIoWrite8 (
	IN UINTN Port,
	IN UINT8 Value
	)
	{
	UINT64 Status;
	UINT64 Val;

	Val = Value;
	Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_WRITE, Port, Val, 0);
	if (Status != 0) {
	TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
	}

	return Value;
	}

	/**
	Writes a 16-bit I/O port.

	TDVMCALL_IO is invoked to write I/O port.

	@param Port The I/O port to write.
	@param Value The value to write to the I/O port.

	@return The value written the I/O port.

	**/
	UINT16
	EFIAPI
	TdIoWrite16 (
	IN UINTN Port,
	IN UINT16 Value
	)
	{
	UINT64 Status;
	UINT64 Val;

	ASSERT ((Port & 1) == 0);
	Val = Value;
	Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_WRITE, Port, Val, 0);
	if (Status != 0) {
	TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
	}

	return Value;
	}

	/**
	Writes a 32-bit I/O port.

	TDVMCALL_IO is invoked to write I/O port.

	@param Port The I/O port to write.
	@param Value The value to write to the I/O port.

	@return The value written the I/O port.

	**/
	UINT32
	EFIAPI
	TdIoWrite32 (
	IN UINTN Port,
	IN UINT32 Value
	)
	{
	UINT64 Status;
	UINT64 Val;

	ASSERT ((Port & 3) == 0);
	Val = Value;
	Status = TdVmCall (TDVMCALL_IO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_WRITE, Port, Val, 0);
	if (Status != 0) {
	TdVmCall (TDVMCALL_HALT, 0, 0, 0, 0, 0);
	}

	return Value;
	}

	/**
	Reads an 8-bit MMIO register.

	TDVMCALL_MMIO is invoked to read MMIO registers.

	@param Address The MMIO register to read.

	@return The value read.

	**/
	UINT8
	EFIAPI
	TdMmioRead8 (
	IN UINTN Address
	)
	{
	UINT64 Value;
	UINT64 Status;

	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_READ, Address \| TdSharedPageMask (), 0, &Value);
	if (Status != 0) {
	Value = (volatile UINT64 )Address;
	}

	return (UINT8)Value;
	}

	/**
	Writes an 8-bit MMIO register.

	TDVMCALL_MMIO is invoked to read write registers.

	@param Address The MMIO register to write.
	@param Value The value to write to the MMIO register.

	@return Value.

	**/
	UINT8
	EFIAPI
	TdMmioWrite8 (
	IN UINTN Address,
	IN UINT8 Value
	)
	{
	UINT64 Val;
	UINT64 Status;

	Val = Value;
	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_1, TDVMCALL_ACCESS_WRITE, Address \| TdSharedPageMask (), Val, 0);
	if (Status != 0) {
	(volatile UINT8 )Address = Value;
	}

	return Value;
	}

	/**
	Reads a 16-bit MMIO register.

	TDVMCALL_MMIO is invoked to read MMIO registers.

	@param Address The MMIO register to read.

	@return The value read.

	**/
	UINT16
	EFIAPI
	TdMmioRead16 (
	IN UINTN Address
	)
	{
	UINT64 Value;
	UINT64 Status;

	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_READ, Address \| TdSharedPageMask (), 0, &Value);
	if (Status != 0) {
	Value = (volatile UINT64 )Address;
	}

	return (UINT16)Value;
	}

	/**
	Writes a 16-bit MMIO register.

	TDVMCALL_MMIO is invoked to write MMIO registers.

	@param Address The MMIO register to write.
	@param Value The value to write to the MMIO register.

	@return Value.

	**/
	UINT16
	EFIAPI
	TdMmioWrite16 (
	IN UINTN Address,
	IN UINT16 Value
	)
	{
	UINT64 Val;
	UINT64 Status;

	ASSERT ((Address & 1) == 0);

	Val = Value;
	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_2, TDVMCALL_ACCESS_WRITE, Address \| TdSharedPageMask (), Val, 0);
	if (Status != 0) {
	(volatile UINT16 )Address = Value;
	}

	return Value;
	}

	/**
	Reads a 32-bit MMIO register.

	TDVMCALL_MMIO is invoked to read MMIO registers.

	@param Address The MMIO register to read.

	@return The value read.

	**/
	UINT32
	EFIAPI
	TdMmioRead32 (
	IN UINTN Address
	)
	{
	UINT64 Value;
	UINT64 Status;

	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_READ, Address \| TdSharedPageMask (), 0, &Value);
	if (Status != 0) {
	Value = (volatile UINT64 )Address;
	}

	return (UINT32)Value;
	}

	/**
	Writes a 32-bit MMIO register.

	TDVMCALL_MMIO is invoked to write MMIO registers.

	@param Address The MMIO register to write.
	@param Value The value to write to the MMIO register.

	@return Value.

	**/
	UINT32
	EFIAPI
	TdMmioWrite32 (
	IN UINTN Address,
	IN UINT32 Value
	)
	{
	UINT64 Val;
	UINT64 Status;

	ASSERT ((Address & 3) == 0);

	Val = Value;
	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_4, TDVMCALL_ACCESS_WRITE, Address \| TdSharedPageMask (), Val, 0);
	if (Status != 0) {
	(volatile UINT32 )Address = Value;
	}

	return Value;
	}

	/**
	Reads a 64-bit MMIO register.

	TDVMCALL_MMIO is invoked to read MMIO registers.

	@param Address The MMIO register to read.

	@return The value read.

	**/
	UINT64
	EFIAPI
	TdMmioRead64 (
	IN UINTN Address
	)
	{
	UINT64 Value;
	UINT64 Status;

	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_8, TDVMCALL_ACCESS_READ, Address \| TdSharedPageMask (), 0, &Value);
	if (Status != 0) {
	Value = (volatile UINT64 )Address;
	}

	return Value;
	}

	/**
	Writes a 64-bit MMIO register.

	TDVMCALL_MMIO is invoked to write MMIO registers.

	@param Address The MMIO register to write.
	@param Value The value to write to the MMIO register.

	**/
	UINT64
	EFIAPI
	TdMmioWrite64 (
	IN UINTN Address,
	IN UINT64 Value
	)
	{
	UINT64 Status;
	UINT64 Val;

	ASSERT ((Address & 7) == 0);

	Val = Value;
	Status = TdVmCall (TDVMCALL_MMIO, TDVMCALL_ACCESS_SIZE_8, TDVMCALL_ACCESS_WRITE, Address \| TdSharedPageMask (), Val, 0);
	if (Status != 0) {
	(volatile UINT64 )Address = Value;
	}

	return Value;
	}

	/**
	Reads an 8-bit I/O port fifo into a block of memory.

	Reads the 8-bit I/O fifo port specified by Port.
	The port is read Count times, and the read data is
	stored in the provided Buffer.

	This function must guarantee that all I/O read and write operations are
	serialized.

	If 8-bit I/O port operations are not supported, then ASSERT().

	In TDX a serial of TdIoRead8 is invoked to read the I/O port fifo.

	@param Port The I/O port to read.
	@param Count The number of times to read I/O port.
	@param Buffer The buffer to store the read data into.

	**/
	VOID
	EFIAPI
	TdIoReadFifo8 (
	IN UINTN Port,
	IN UINTN Count,
	OUT VOID *Buffer
	)
	{
	UINT8 *Buf8;
	UINTN Index;

	Buf8 = (UINT8 *)Buffer;
	for (Index = 0; Index < Count; Index++) {
	Buf8[Index] = TdIoRead8 (Port);
	}
	}

	/**
	Writes a block of memory into an 8-bit I/O port fifo.

	Writes the 8-bit I/O fifo port specified by Port.
	The port is written Count times, and the write data is
	retrieved from the provided Buffer.

	This function must guarantee that all I/O write and write operations are
	serialized.

	If 8-bit I/O port operations are not supported, then ASSERT().

	In TDX a serial of TdIoWrite8 is invoked to write data to the I/O port.

	@param Port The I/O port to write.
	@param Count The number of times to write I/O port.
	@param Buffer The buffer to retrieve the write data from.

	**/
	VOID
	EFIAPI
	TdIoWriteFifo8 (
	IN UINTN Port,
	IN UINTN Count,
	IN VOID *Buffer
	)
	{
	UINT8 *Buf8;
	UINTN Index;

	Buf8 = (UINT8 *)Buffer;
	for (Index = 0; Index < Count; Index++) {
	TdIoWrite8 (Port, Buf8[Index]);
	}
	}

	/**
	Reads a 16-bit I/O port fifo into a block of memory.

	Reads the 16-bit I/O fifo port specified by Port.
	The port is read Count times, and the read data is
	stored in the provided Buffer.

	This function must guarantee that all I/O read and write operations are
	serialized.

	If 16-bit I/O port operations are not supported, then ASSERT().

	In TDX a serial of TdIoRead16 is invoked to read data from the I/O port.

	@param Port The I/O port to read.
	@param Count The number of times to read I/O port.
	@param Buffer The buffer to store the read data into.

	**/
	VOID
	EFIAPI
	TdIoReadFifo16 (
	IN UINTN Port,
	IN UINTN Count,
	OUT VOID *Buffer
	)
	{
	UINT16 *Buf16;
	UINTN Index;

	Buf16 = (UINT16 *)Buffer;
	for (Index = 0; Index < Count; Index++) {
	Buf16[Index] = TdIoRead16 (Port);
	}
	}

	/**
	Writes a block of memory into a 16-bit I/O port fifo.

	Writes the 16-bit I/O fifo port specified by Port.
	The port is written Count times, and the write data is
	retrieved from the provided Buffer.

	This function must guarantee that all I/O write and write operations are
	serialized.

	If 16-bit I/O port operations are not supported, then ASSERT().

	In TDX a serial of TdIoWrite16 is invoked to write data to the I/O port.

	@param Port The I/O port to write.
	@param Count The number of times to write I/O port.
	@param Buffer The buffer to retrieve the write data from.

	**/
	VOID
	EFIAPI
	TdIoWriteFifo16 (
	IN UINTN Port,
	IN UINTN Count,
	IN VOID *Buffer
	)
	{
	UINT16 *Buf16;
	UINTN Index;

	Buf16 = (UINT16 *)Buffer;
	for (Index = 0; Index < Count; Index++) {
	TdIoWrite16 (Port, Buf16[Index]);
	}
	}

	/**
	Reads a 32-bit I/O port fifo into a block of memory.

	Reads the 32-bit I/O fifo port specified by Port.
	The port is read Count times, and the read data is
	stored in the provided Buffer.

	This function must guarantee that all I/O read and write operations are
	serialized.

	If 32-bit I/O port operations are not supported, then ASSERT().

	In TDX a serial of TdIoRead32 is invoked to read data from the I/O port.

	@param Port The I/O port to read.
	@param Count The number of times to read I/O port.
	@param Buffer The buffer to store the read data into.

	**/
	VOID
	EFIAPI
	TdIoReadFifo32 (
	IN UINTN Port,
	IN UINTN Count,
	OUT VOID *Buffer
	)
	{
	UINT32 *Buf32;
	UINTN Index;

	Buf32 = (UINT32 *)Buffer;
	for (Index = 0; Index < Count; Index++) {
	Buf32[Index] = TdIoRead32 (Port);
	}
	}

	/**
	Writes a block of memory into a 32-bit I/O port fifo.

	Writes the 32-bit I/O fifo port specified by Port.
	The port is written Count times, and the write data is
	retrieved from the provided Buffer.

	This function must guarantee that all I/O write and write operations are
	serialized.

	If 32-bit I/O port operations are not supported, then ASSERT().

	In TDX a serial of TdIoWrite32 is invoked to write data to the I/O port.

	@param Port The I/O port to write.
	@param Count The number of times to write I/O port.
	@param Buffer The buffer to retrieve the write data from.

	**/
	VOID
	EFIAPI
	TdIoWriteFifo32 (
	IN UINTN Port,
	IN UINTN Count,
	IN VOID *Buffer
	)
	{
	UINT32 *Buf32;
	UINTN Index;

	Buf32 = (UINT32 *)Buffer;
	for (Index = 0; Index < Count; Index++) {
	TdIoWrite32 (Port, Buf32[Index]);
	}
	}