ArmPkg/Library/OpteeLib/Optee.c - edk2 - Git at Google

 /** @file
   Api's to communicate with OP-TEE OS (Trusted OS based on ARM TrustZone) via
   secure monitor calls.

   Copyright (c) 2018, Linaro Ltd. All rights reserved.<BR>
   Copyright (c) 2021, Arm Limited. All rights reserved.<BR>

   SPDX-License-Identifier: BSD-2-Clause-Patent

 **/

 #include <Library/ArmMmuLib.h>
 #include <Library/ArmSmcLib.h>
 #include <Library/BaseMemoryLib.h>
 #include <Library/BaseLib.h>
 #include <Library/DebugLib.h>
 #include <Library/OpteeLib.h>

 #include <IndustryStandard/ArmStdSmc.h>
 #include <OpteeSmc.h>
 #include <Uefi.h>

 STATIC OPTEE_SHARED_MEMORY_INFORMATION  OpteeSharedMemoryInformation = { 0 };

 /**
   Check for OP-TEE presence.
 **/
 BOOLEAN
 EFIAPI
 IsOpteePresent (
   VOID
   )
 {
   ARM_SMC_ARGS  ArmSmcArgs;

   ZeroMem (&ArmSmcArgs, sizeof (ARM_SMC_ARGS));
   // Send a Trusted OS Calls UID command
   ArmSmcArgs.Arg0 = ARM_SMC_ID_TOS_UID;
   ArmCallSmc (&ArmSmcArgs);

   if ((ArmSmcArgs.Arg0 == OPTEE_OS_UID0) &&
       (ArmSmcArgs.Arg1 == OPTEE_OS_UID1) &&
       (ArmSmcArgs.Arg2 == OPTEE_OS_UID2) &&
       (ArmSmcArgs.Arg3 == OPTEE_OS_UID3))
   {
     return TRUE;
   } else {
     return FALSE;
   }
 }

 STATIC
 EFI_STATUS
 OpteeSharedMemoryRemap (
   VOID
   )
 {
   ARM_SMC_ARGS          ArmSmcArgs;
   EFI_PHYSICAL_ADDRESS  PhysicalAddress;
   EFI_PHYSICAL_ADDRESS  Start;
   EFI_PHYSICAL_ADDRESS  End;
   EFI_STATUS            Status;
   UINTN                 Size;

   ZeroMem (&ArmSmcArgs, sizeof (ARM_SMC_ARGS));
   ArmSmcArgs.Arg0 = OPTEE_SMC_GET_SHARED_MEMORY_CONFIG;

   ArmCallSmc (&ArmSmcArgs);
   if (ArmSmcArgs.Arg0 != OPTEE_SMC_RETURN_OK) {
     DEBUG ((DEBUG_WARN, "OP-TEE shared memory not supported\n"));
     return EFI_UNSUPPORTED;
   }

   if (ArmSmcArgs.Arg3 != OPTEE_SMC_SHARED_MEMORY_CACHED) {
     DEBUG ((DEBUG_WARN, "OP-TEE: Only normal cached shared memory supported\n"));
     return EFI_UNSUPPORTED;
   }

   Start           = (ArmSmcArgs.Arg1 + SIZE_4KB - 1) & ~(SIZE_4KB - 1);
   End             = (ArmSmcArgs.Arg1 + ArmSmcArgs.Arg2) & ~(SIZE_4KB - 1);
   PhysicalAddress = Start;
   Size            = End - Start;

   if (Size < SIZE_4KB) {
     DEBUG ((DEBUG_WARN, "OP-TEE shared memory too small\n"));
     return EFI_BUFFER_TOO_SMALL;
   }

   Status = ArmSetMemoryAttributes (
              PhysicalAddress,
              Size,
              EFI_MEMORY_WB | EFI_MEMORY_XP,
              0
              );
   if (EFI_ERROR (Status)) {
     return Status;
   }

   OpteeSharedMemoryInformation.Base = (UINTN)PhysicalAddress;
   OpteeSharedMemoryInformation.Size = Size;

   return EFI_SUCCESS;
 }

 EFI_STATUS
 EFIAPI
 OpteeInit (
   VOID
   )
 {
   EFI_STATUS  Status;

   if (!IsOpteePresent ()) {
     DEBUG ((DEBUG_WARN, "OP-TEE not present\n"));
     return EFI_UNSUPPORTED;
   }

   Status = OpteeSharedMemoryRemap ();
   if (EFI_ERROR (Status)) {
     DEBUG ((DEBUG_WARN, "OP-TEE shared memory remap failed\n"));
     return Status;
   }

   return EFI_SUCCESS;
 }

 STATIC
 BOOLEAN
 IsOpteeSmcReturnRpc (
   UINT32  Return
   )
 {
   return (Return != OPTEE_SMC_RETURN_UNKNOWN_FUNCTION) &&
          ((Return & OPTEE_SMC_RETURN_RPC_PREFIX_MASK) ==
           OPTEE_SMC_RETURN_RPC_PREFIX);
 }

 /**
   Does Standard SMC to OP-TEE in secure world.

   @param[in]  PhysicalArg   Physical address of message to pass to secure world

   @return                   0 on success, secure world return code otherwise

 **/
 STATIC
 UINT32
 OpteeCallWithArg (
   IN UINT64  PhysicalArg
   )
 {
   ARM_SMC_ARGS  ArmSmcArgs;

   ZeroMem (&ArmSmcArgs, sizeof (ARM_SMC_ARGS));
   ArmSmcArgs.Arg0 = OPTEE_SMC_CALL_WITH_ARG;
   ArmSmcArgs.Arg1 = (UINT32)(PhysicalArg >> 32);
   ArmSmcArgs.Arg2 = (UINT32)PhysicalArg;

   while (TRUE) {
     ArmCallSmc (&ArmSmcArgs);

     if (IsOpteeSmcReturnRpc (ArmSmcArgs.Arg0)) {
       switch (ArmSmcArgs.Arg0) {
         case OPTEE_SMC_RETURN_RPC_FOREIGN_INTERRUPT:
           //
           // A foreign interrupt was raised while secure world was
           // executing, since they are handled in UEFI a dummy RPC is
           // performed to let UEFI take the interrupt through the normal
           // vector.
           //
           break;

         default:
           // Do nothing in case RPC is not implemented.
           break;
       }

       ArmSmcArgs.Arg0 = OPTEE_SMC_RETURN_FROM_RPC;
     } else {
       break;
     }
   }

   return ArmSmcArgs.Arg0;
 }

 STATIC
 VOID
 EfiGuidToRfc4122Uuid (
   OUT RFC4122_UUID  *Rfc4122Uuid,
   IN EFI_GUID       *Guid
   )
 {
   Rfc4122Uuid->Data1 = SwapBytes32 (Guid->Data1);
   Rfc4122Uuid->Data2 = SwapBytes16 (Guid->Data2);
   Rfc4122Uuid->Data3 = SwapBytes16 (Guid->Data3);
   CopyMem (Rfc4122Uuid->Data4, Guid->Data4, sizeof (Rfc4122Uuid->Data4));
 }

 EFI_STATUS
 EFIAPI
 OpteeOpenSession (
   IN OUT OPTEE_OPEN_SESSION_ARG  *OpenSessionArg
   )
 {
   OPTEE_MESSAGE_ARG  *MessageArg;

   MessageArg = NULL;

   if (OpteeSharedMemoryInformation.Base == 0) {
     DEBUG ((DEBUG_WARN, "OP-TEE not initialized\n"));
     return EFI_NOT_STARTED;
   }

   MessageArg = (OPTEE_MESSAGE_ARG *)OpteeSharedMemoryInformation.Base;
   ZeroMem (MessageArg, sizeof (OPTEE_MESSAGE_ARG));

   MessageArg->Command = OPTEE_MESSAGE_COMMAND_OPEN_SESSION;

   //
   // Initialize and add the meta parameters needed when opening a
   // session.
   //
   MessageArg->Params[0].Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT |
                                     OPTEE_MESSAGE_ATTRIBUTE_META;
   MessageArg->Params[1].Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT |
                                     OPTEE_MESSAGE_ATTRIBUTE_META;
   EfiGuidToRfc4122Uuid (
     (RFC4122_UUID *)&MessageArg->Params[0].Union.Value,
     &OpenSessionArg->Uuid
     );
   ZeroMem (&MessageArg->Params[1].Union.Value, sizeof (EFI_GUID));
   MessageArg->Params[1].Union.Value.C = OPTEE_LOGIN_PUBLIC;

   MessageArg->NumParams = 2;

   if (OpteeCallWithArg ((UINTN)MessageArg) != 0) {
     MessageArg->Return       = OPTEE_ERROR_COMMUNICATION;
     MessageArg->ReturnOrigin = OPTEE_ORIGIN_COMMUNICATION;
   }

   OpenSessionArg->Session      = MessageArg->Session;
   OpenSessionArg->Return       = MessageArg->Return;
   OpenSessionArg->ReturnOrigin = MessageArg->ReturnOrigin;

   return EFI_SUCCESS;
 }

 EFI_STATUS
 EFIAPI
 OpteeCloseSession (
   IN UINT32  Session
   )
 {
   OPTEE_MESSAGE_ARG  *MessageArg;

   MessageArg = NULL;

   if (OpteeSharedMemoryInformation.Base == 0) {
     DEBUG ((DEBUG_WARN, "OP-TEE not initialized\n"));
     return EFI_NOT_STARTED;
   }

   MessageArg = (OPTEE_MESSAGE_ARG *)OpteeSharedMemoryInformation.Base;
   ZeroMem (MessageArg, sizeof (OPTEE_MESSAGE_ARG));

   MessageArg->Command = OPTEE_MESSAGE_COMMAND_CLOSE_SESSION;
   MessageArg->Session = Session;

   OpteeCallWithArg ((UINTN)MessageArg);

   return EFI_SUCCESS;
 }

 STATIC
 EFI_STATUS
 OpteeToMessageParam (
   OUT OPTEE_MESSAGE_PARAM  *MessageParams,
   IN UINT32                NumParams,
   IN OPTEE_MESSAGE_PARAM   *InParams
   )
 {
   UINT32  Idx;
   UINTN   ParamSharedMemoryAddress;
   UINTN   SharedMemorySize;
   UINTN   Size;

   Size = (sizeof (OPTEE_MESSAGE_ARG) + sizeof (UINT64) - 1) &
          ~(sizeof (UINT64) - 1);
   ParamSharedMemoryAddress = OpteeSharedMemoryInformation.Base + Size;
   SharedMemorySize         = OpteeSharedMemoryInformation.Size - Size;

   for (Idx = 0; Idx < NumParams; Idx++) {
     CONST OPTEE_MESSAGE_PARAM  *InParam;
     OPTEE_MESSAGE_PARAM        *MessageParam;
     UINT32                     Attribute;

     InParam      = InParams + Idx;
     MessageParam = MessageParams + Idx;
     Attribute    = InParam->Attribute & OPTEE_MESSAGE_ATTRIBUTE_TYPE_MASK;

     switch (Attribute) {
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE:
         MessageParam->Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE;
         ZeroMem (&MessageParam->Union, sizeof (MessageParam->Union));
         break;

       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_OUTPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INOUT:
         MessageParam->Attribute     = Attribute;
         MessageParam->Union.Value.A = InParam->Union.Value.A;
         MessageParam->Union.Value.B = InParam->Union.Value.B;
         MessageParam->Union.Value.C = InParam->Union.Value.C;
         break;

       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_OUTPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INOUT:
         MessageParam->Attribute = Attribute;

         if (InParam->Union.Memory.Size > SharedMemorySize) {
           return EFI_OUT_OF_RESOURCES;
         }

         CopyMem (
           (VOID *)ParamSharedMemoryAddress,
           (VOID *)(UINTN)InParam->Union.Memory.BufferAddress,
           InParam->Union.Memory.Size
           );
         MessageParam->Union.Memory.BufferAddress = (UINT64)ParamSharedMemoryAddress;
         MessageParam->Union.Memory.Size          = InParam->Union.Memory.Size;

         Size = (InParam->Union.Memory.Size + sizeof (UINT64) - 1) &
                ~(sizeof (UINT64) - 1);
         ParamSharedMemoryAddress += Size;
         SharedMemorySize         -= Size;
         break;

       default:
         return EFI_INVALID_PARAMETER;
     }
   }

   return EFI_SUCCESS;
 }

 STATIC
 EFI_STATUS
 OpteeFromMessageParam (
   OUT OPTEE_MESSAGE_PARAM  *OutParams,
   IN UINT32                NumParams,
   IN OPTEE_MESSAGE_PARAM   *MessageParams
   )
 {
   UINT32  Idx;

   for (Idx = 0; Idx < NumParams; Idx++) {
     OPTEE_MESSAGE_PARAM        *OutParam;
     CONST OPTEE_MESSAGE_PARAM  *MessageParam;
     UINT32                     Attribute;

     OutParam     = OutParams + Idx;
     MessageParam = MessageParams + Idx;
     Attribute    = MessageParam->Attribute & OPTEE_MESSAGE_ATTRIBUTE_TYPE_MASK;

     switch (Attribute) {
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE:
         OutParam->Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE;
         ZeroMem (&OutParam->Union, sizeof (OutParam->Union));
         break;

       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_OUTPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INOUT:
         OutParam->Attribute     = Attribute;
         OutParam->Union.Value.A = MessageParam->Union.Value.A;
         OutParam->Union.Value.B = MessageParam->Union.Value.B;
         OutParam->Union.Value.C = MessageParam->Union.Value.C;
         break;

       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_OUTPUT:
       case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INOUT:
         OutParam->Attribute = Attribute;

         if (MessageParam->Union.Memory.Size > OutParam->Union.Memory.Size) {
           return EFI_BAD_BUFFER_SIZE;
         }

         CopyMem (
           (VOID *)(UINTN)OutParam->Union.Memory.BufferAddress,
           (VOID *)(UINTN)MessageParam->Union.Memory.BufferAddress,
           MessageParam->Union.Memory.Size
           );
         OutParam->Union.Memory.Size = MessageParam->Union.Memory.Size;
         break;

       default:
         return EFI_INVALID_PARAMETER;
     }
   }

   return EFI_SUCCESS;
 }

 EFI_STATUS
 EFIAPI
 OpteeInvokeFunction (
   IN OUT OPTEE_INVOKE_FUNCTION_ARG  *InvokeFunctionArg
   )
 {
   EFI_STATUS         Status;
   OPTEE_MESSAGE_ARG  *MessageArg;

   MessageArg = NULL;

   if (OpteeSharedMemoryInformation.Base == 0) {
     DEBUG ((DEBUG_WARN, "OP-TEE not initialized\n"));
     return EFI_NOT_STARTED;
   }

   MessageArg = (OPTEE_MESSAGE_ARG *)OpteeSharedMemoryInformation.Base;
   ZeroMem (MessageArg, sizeof (OPTEE_MESSAGE_ARG));

   MessageArg->Command  = OPTEE_MESSAGE_COMMAND_INVOKE_FUNCTION;
   MessageArg->Function = InvokeFunctionArg->Function;
   MessageArg->Session  = InvokeFunctionArg->Session;

   Status = OpteeToMessageParam (
              MessageArg->Params,
              OPTEE_MAX_CALL_PARAMS,
              InvokeFunctionArg->Params
              );
   if (Status) {
     return Status;
   }

   MessageArg->NumParams = OPTEE_MAX_CALL_PARAMS;

   if (OpteeCallWithArg ((UINTN)MessageArg) != 0) {
     MessageArg->Return       = OPTEE_ERROR_COMMUNICATION;
     MessageArg->ReturnOrigin = OPTEE_ORIGIN_COMMUNICATION;
   }

   if (OpteeFromMessageParam (
         InvokeFunctionArg->Params,
         OPTEE_MAX_CALL_PARAMS,
         MessageArg->Params
         ) != 0)
   {
     MessageArg->Return       = OPTEE_ERROR_COMMUNICATION;
     MessageArg->ReturnOrigin = OPTEE_ORIGIN_COMMUNICATION;
   }

   InvokeFunctionArg->Return       = MessageArg->Return;
   InvokeFunctionArg->ReturnOrigin = MessageArg->ReturnOrigin;

   return EFI_SUCCESS;
 }
	/** @file
	Api's to communicate with OP-TEE OS (Trusted OS based on ARM TrustZone) via
	secure monitor calls.

	Copyright (c) 2018, Linaro Ltd. All rights reserved.<BR>
	Copyright (c) 2021, Arm Limited. All rights reserved.<BR>

	SPDX-License-Identifier: BSD-2-Clause-Patent

	**/

	#include <Library/ArmMmuLib.h>
	#include <Library/ArmSmcLib.h>
	#include <Library/BaseMemoryLib.h>
	#include <Library/BaseLib.h>
	#include <Library/DebugLib.h>
	#include <Library/OpteeLib.h>

	#include <IndustryStandard/ArmStdSmc.h>
	#include <OpteeSmc.h>
	#include <Uefi.h>

	STATIC OPTEE_SHARED_MEMORY_INFORMATION OpteeSharedMemoryInformation = { 0 };

	/**
	Check for OP-TEE presence.
	**/
	BOOLEAN
	EFIAPI
	IsOpteePresent (
	VOID
	)
	{
	ARM_SMC_ARGS ArmSmcArgs;

	ZeroMem (&ArmSmcArgs, sizeof (ARM_SMC_ARGS));
	// Send a Trusted OS Calls UID command
	ArmSmcArgs.Arg0 = ARM_SMC_ID_TOS_UID;
	ArmCallSmc (&ArmSmcArgs);

	if ((ArmSmcArgs.Arg0 == OPTEE_OS_UID0) &&
	(ArmSmcArgs.Arg1 == OPTEE_OS_UID1) &&
	(ArmSmcArgs.Arg2 == OPTEE_OS_UID2) &&
	(ArmSmcArgs.Arg3 == OPTEE_OS_UID3))
	{
	return TRUE;
	} else {
	return FALSE;
	}
	}

	STATIC
	EFI_STATUS
	OpteeSharedMemoryRemap (
	VOID
	)
	{
	ARM_SMC_ARGS ArmSmcArgs;
	EFI_PHYSICAL_ADDRESS PhysicalAddress;
	EFI_PHYSICAL_ADDRESS Start;
	EFI_PHYSICAL_ADDRESS End;
	EFI_STATUS Status;
	UINTN Size;

	ZeroMem (&ArmSmcArgs, sizeof (ARM_SMC_ARGS));
	ArmSmcArgs.Arg0 = OPTEE_SMC_GET_SHARED_MEMORY_CONFIG;

	ArmCallSmc (&ArmSmcArgs);
	if (ArmSmcArgs.Arg0 != OPTEE_SMC_RETURN_OK) {
	DEBUG ((DEBUG_WARN, "OP-TEE shared memory not supported\n"));
	return EFI_UNSUPPORTED;
	}

	if (ArmSmcArgs.Arg3 != OPTEE_SMC_SHARED_MEMORY_CACHED) {
	DEBUG ((DEBUG_WARN, "OP-TEE: Only normal cached shared memory supported\n"));
	return EFI_UNSUPPORTED;
	}

	Start = (ArmSmcArgs.Arg1 + SIZE_4KB - 1) & ~(SIZE_4KB - 1);
	End = (ArmSmcArgs.Arg1 + ArmSmcArgs.Arg2) & ~(SIZE_4KB - 1);
	PhysicalAddress = Start;
	Size = End - Start;

	if (Size < SIZE_4KB) {
	DEBUG ((DEBUG_WARN, "OP-TEE shared memory too small\n"));
	return EFI_BUFFER_TOO_SMALL;
	}

	Status = ArmSetMemoryAttributes (
	PhysicalAddress,
	Size,
	EFI_MEMORY_WB \| EFI_MEMORY_XP,
	0
	);
	if (EFI_ERROR (Status)) {
	return Status;
	}

	OpteeSharedMemoryInformation.Base = (UINTN)PhysicalAddress;
	OpteeSharedMemoryInformation.Size = Size;

	return EFI_SUCCESS;
	}

	EFI_STATUS
	EFIAPI
	OpteeInit (
	VOID
	)
	{
	EFI_STATUS Status;

	if (!IsOpteePresent ()) {
	DEBUG ((DEBUG_WARN, "OP-TEE not present\n"));
	return EFI_UNSUPPORTED;
	}

	Status = OpteeSharedMemoryRemap ();
	if (EFI_ERROR (Status)) {
	DEBUG ((DEBUG_WARN, "OP-TEE shared memory remap failed\n"));
	return Status;
	}

	return EFI_SUCCESS;
	}

	STATIC
	BOOLEAN
	IsOpteeSmcReturnRpc (
	UINT32 Return
	)
	{
	return (Return != OPTEE_SMC_RETURN_UNKNOWN_FUNCTION) &&
	((Return & OPTEE_SMC_RETURN_RPC_PREFIX_MASK) ==
	OPTEE_SMC_RETURN_RPC_PREFIX);
	}

	/**
	Does Standard SMC to OP-TEE in secure world.

	@param[in] PhysicalArg Physical address of message to pass to secure world

	@return 0 on success, secure world return code otherwise

	**/
	STATIC
	UINT32
	OpteeCallWithArg (
	IN UINT64 PhysicalArg
	)
	{
	ARM_SMC_ARGS ArmSmcArgs;

	ZeroMem (&ArmSmcArgs, sizeof (ARM_SMC_ARGS));
	ArmSmcArgs.Arg0 = OPTEE_SMC_CALL_WITH_ARG;
	ArmSmcArgs.Arg1 = (UINT32)(PhysicalArg >> 32);
	ArmSmcArgs.Arg2 = (UINT32)PhysicalArg;

	while (TRUE) {
	ArmCallSmc (&ArmSmcArgs);

	if (IsOpteeSmcReturnRpc (ArmSmcArgs.Arg0)) {
	switch (ArmSmcArgs.Arg0) {
	case OPTEE_SMC_RETURN_RPC_FOREIGN_INTERRUPT:
	//
	// A foreign interrupt was raised while secure world was
	// executing, since they are handled in UEFI a dummy RPC is
	// performed to let UEFI take the interrupt through the normal
	// vector.
	//
	break;

	default:
	// Do nothing in case RPC is not implemented.
	break;
	}

	ArmSmcArgs.Arg0 = OPTEE_SMC_RETURN_FROM_RPC;
	} else {
	break;
	}
	}

	return ArmSmcArgs.Arg0;
	}

	STATIC
	VOID
	EfiGuidToRfc4122Uuid (
	OUT RFC4122_UUID *Rfc4122Uuid,
	IN EFI_GUID *Guid
	)
	{
	Rfc4122Uuid->Data1 = SwapBytes32 (Guid->Data1);
	Rfc4122Uuid->Data2 = SwapBytes16 (Guid->Data2);
	Rfc4122Uuid->Data3 = SwapBytes16 (Guid->Data3);
	CopyMem (Rfc4122Uuid->Data4, Guid->Data4, sizeof (Rfc4122Uuid->Data4));
	}

	EFI_STATUS
	EFIAPI
	OpteeOpenSession (
	IN OUT OPTEE_OPEN_SESSION_ARG *OpenSessionArg
	)
	{
	OPTEE_MESSAGE_ARG *MessageArg;

	MessageArg = NULL;

	if (OpteeSharedMemoryInformation.Base == 0) {
	DEBUG ((DEBUG_WARN, "OP-TEE not initialized\n"));
	return EFI_NOT_STARTED;
	}

	MessageArg = (OPTEE_MESSAGE_ARG *)OpteeSharedMemoryInformation.Base;
	ZeroMem (MessageArg, sizeof (OPTEE_MESSAGE_ARG));

	MessageArg->Command = OPTEE_MESSAGE_COMMAND_OPEN_SESSION;

	//
	// Initialize and add the meta parameters needed when opening a
	// session.
	//
	MessageArg->Params[0].Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT \|
	OPTEE_MESSAGE_ATTRIBUTE_META;
	MessageArg->Params[1].Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT \|
	OPTEE_MESSAGE_ATTRIBUTE_META;
	EfiGuidToRfc4122Uuid (
	(RFC4122_UUID *)&MessageArg->Params[0].Union.Value,
	&OpenSessionArg->Uuid
	);
	ZeroMem (&MessageArg->Params[1].Union.Value, sizeof (EFI_GUID));
	MessageArg->Params[1].Union.Value.C = OPTEE_LOGIN_PUBLIC;

	MessageArg->NumParams = 2;

	if (OpteeCallWithArg ((UINTN)MessageArg) != 0) {
	MessageArg->Return = OPTEE_ERROR_COMMUNICATION;
	MessageArg->ReturnOrigin = OPTEE_ORIGIN_COMMUNICATION;
	}

	OpenSessionArg->Session = MessageArg->Session;
	OpenSessionArg->Return = MessageArg->Return;
	OpenSessionArg->ReturnOrigin = MessageArg->ReturnOrigin;

	return EFI_SUCCESS;
	}

	EFI_STATUS
	EFIAPI
	OpteeCloseSession (
	IN UINT32 Session
	)
	{
	OPTEE_MESSAGE_ARG *MessageArg;

	MessageArg = NULL;

	if (OpteeSharedMemoryInformation.Base == 0) {
	DEBUG ((DEBUG_WARN, "OP-TEE not initialized\n"));
	return EFI_NOT_STARTED;
	}

	MessageArg = (OPTEE_MESSAGE_ARG *)OpteeSharedMemoryInformation.Base;
	ZeroMem (MessageArg, sizeof (OPTEE_MESSAGE_ARG));

	MessageArg->Command = OPTEE_MESSAGE_COMMAND_CLOSE_SESSION;
	MessageArg->Session = Session;

	OpteeCallWithArg ((UINTN)MessageArg);

	return EFI_SUCCESS;
	}

	STATIC
	EFI_STATUS
	OpteeToMessageParam (
	OUT OPTEE_MESSAGE_PARAM *MessageParams,
	IN UINT32 NumParams,
	IN OPTEE_MESSAGE_PARAM *InParams
	)
	{
	UINT32 Idx;
	UINTN ParamSharedMemoryAddress;
	UINTN SharedMemorySize;
	UINTN Size;

	Size = (sizeof (OPTEE_MESSAGE_ARG) + sizeof (UINT64) - 1) &
	~(sizeof (UINT64) - 1);
	ParamSharedMemoryAddress = OpteeSharedMemoryInformation.Base + Size;
	SharedMemorySize = OpteeSharedMemoryInformation.Size - Size;

	for (Idx = 0; Idx < NumParams; Idx++) {
	CONST OPTEE_MESSAGE_PARAM *InParam;
	OPTEE_MESSAGE_PARAM *MessageParam;
	UINT32 Attribute;

	InParam = InParams + Idx;
	MessageParam = MessageParams + Idx;
	Attribute = InParam->Attribute & OPTEE_MESSAGE_ATTRIBUTE_TYPE_MASK;

	switch (Attribute) {
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE:
	MessageParam->Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE;
	ZeroMem (&MessageParam->Union, sizeof (MessageParam->Union));
	break;

	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_OUTPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INOUT:
	MessageParam->Attribute = Attribute;
	MessageParam->Union.Value.A = InParam->Union.Value.A;
	MessageParam->Union.Value.B = InParam->Union.Value.B;
	MessageParam->Union.Value.C = InParam->Union.Value.C;
	break;

	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_OUTPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INOUT:
	MessageParam->Attribute = Attribute;

	if (InParam->Union.Memory.Size > SharedMemorySize) {
	return EFI_OUT_OF_RESOURCES;
	}

	CopyMem (
	(VOID *)ParamSharedMemoryAddress,
	(VOID *)(UINTN)InParam->Union.Memory.BufferAddress,
	InParam->Union.Memory.Size
	);
	MessageParam->Union.Memory.BufferAddress = (UINT64)ParamSharedMemoryAddress;
	MessageParam->Union.Memory.Size = InParam->Union.Memory.Size;

	Size = (InParam->Union.Memory.Size + sizeof (UINT64) - 1) &
	~(sizeof (UINT64) - 1);
	ParamSharedMemoryAddress += Size;
	SharedMemorySize -= Size;
	break;

	default:
	return EFI_INVALID_PARAMETER;
	}
	}

	return EFI_SUCCESS;
	}

	STATIC
	EFI_STATUS
	OpteeFromMessageParam (
	OUT OPTEE_MESSAGE_PARAM *OutParams,
	IN UINT32 NumParams,
	IN OPTEE_MESSAGE_PARAM *MessageParams
	)
	{
	UINT32 Idx;

	for (Idx = 0; Idx < NumParams; Idx++) {
	OPTEE_MESSAGE_PARAM *OutParam;
	CONST OPTEE_MESSAGE_PARAM *MessageParam;
	UINT32 Attribute;

	OutParam = OutParams + Idx;
	MessageParam = MessageParams + Idx;
	Attribute = MessageParam->Attribute & OPTEE_MESSAGE_ATTRIBUTE_TYPE_MASK;

	switch (Attribute) {
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE:
	OutParam->Attribute = OPTEE_MESSAGE_ATTRIBUTE_TYPE_NONE;
	ZeroMem (&OutParam->Union, sizeof (OutParam->Union));
	break;

	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_OUTPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_VALUE_INOUT:
	OutParam->Attribute = Attribute;
	OutParam->Union.Value.A = MessageParam->Union.Value.A;
	OutParam->Union.Value.B = MessageParam->Union.Value.B;
	OutParam->Union.Value.C = MessageParam->Union.Value.C;
	break;

	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_OUTPUT:
	case OPTEE_MESSAGE_ATTRIBUTE_TYPE_MEMORY_INOUT:
	OutParam->Attribute = Attribute;

	if (MessageParam->Union.Memory.Size > OutParam->Union.Memory.Size) {
	return EFI_BAD_BUFFER_SIZE;
	}

	CopyMem (
	(VOID *)(UINTN)OutParam->Union.Memory.BufferAddress,
	(VOID *)(UINTN)MessageParam->Union.Memory.BufferAddress,
	MessageParam->Union.Memory.Size
	);
	OutParam->Union.Memory.Size = MessageParam->Union.Memory.Size;
	break;

	default:
	return EFI_INVALID_PARAMETER;
	}
	}

	return EFI_SUCCESS;
	}

	EFI_STATUS
	EFIAPI
	OpteeInvokeFunction (
	IN OUT OPTEE_INVOKE_FUNCTION_ARG *InvokeFunctionArg
	)
	{
	EFI_STATUS Status;
	OPTEE_MESSAGE_ARG *MessageArg;

	MessageArg = NULL;

	if (OpteeSharedMemoryInformation.Base == 0) {
	DEBUG ((DEBUG_WARN, "OP-TEE not initialized\n"));
	return EFI_NOT_STARTED;
	}

	MessageArg = (OPTEE_MESSAGE_ARG *)OpteeSharedMemoryInformation.Base;
	ZeroMem (MessageArg, sizeof (OPTEE_MESSAGE_ARG));

	MessageArg->Command = OPTEE_MESSAGE_COMMAND_INVOKE_FUNCTION;
	MessageArg->Function = InvokeFunctionArg->Function;
	MessageArg->Session = InvokeFunctionArg->Session;

	Status = OpteeToMessageParam (
	MessageArg->Params,
	OPTEE_MAX_CALL_PARAMS,
	InvokeFunctionArg->Params
	);
	if (Status) {
	return Status;
	}

	MessageArg->NumParams = OPTEE_MAX_CALL_PARAMS;

	if (OpteeCallWithArg ((UINTN)MessageArg) != 0) {
	MessageArg->Return = OPTEE_ERROR_COMMUNICATION;
	MessageArg->ReturnOrigin = OPTEE_ORIGIN_COMMUNICATION;
	}

	if (OpteeFromMessageParam (
	InvokeFunctionArg->Params,
	OPTEE_MAX_CALL_PARAMS,
	MessageArg->Params
	) != 0)
	{
	MessageArg->Return = OPTEE_ERROR_COMMUNICATION;
	MessageArg->ReturnOrigin = OPTEE_ORIGIN_COMMUNICATION;
	}

	InvokeFunctionArg->Return = MessageArg->Return;
	InvokeFunctionArg->ReturnOrigin = MessageArg->ReturnOrigin;

	return EFI_SUCCESS;
	}