lib/libutee/include/tee_api.h - optee-os-mtk - Git at Google

 /* SPDX-License-Identifier: BSD-2-Clause */
 /*
  * Copyright (c) 2014, STMicroelectronics International N.V.
  */

 /* Based on GP TEE Internal API Specification Version 1.1 */
 #ifndef TEE_API_H
 #define TEE_API_H

 #include <stddef.h>
 #include <compiler.h>
 #include <tee_api_defines.h>
 #include <tee_api_types.h>
 #include <trace.h>

 /* Property access functions */

 TEE_Result TEE_GetPropertyAsString(TEE_PropSetHandle propsetOrEnumerator,
 				   const char *name, char *valueBuffer,
 				   uint32_t *valueBufferLen);

 TEE_Result TEE_GetPropertyAsBool(TEE_PropSetHandle propsetOrEnumerator,
 				 const char *name, bool *value);

 TEE_Result TEE_GetPropertyAsU32(TEE_PropSetHandle propsetOrEnumerator,
 				const char *name, uint32_t *value);

 TEE_Result TEE_GetPropertyAsBinaryBlock(TEE_PropSetHandle propsetOrEnumerator,
 					const char *name, void *valueBuffer,
 					uint32_t *valueBufferLen);

 TEE_Result TEE_GetPropertyAsUUID(TEE_PropSetHandle propsetOrEnumerator,
 				 const char *name, TEE_UUID *value);

 TEE_Result TEE_GetPropertyAsIdentity(TEE_PropSetHandle propsetOrEnumerator,
 				     const char *name, TEE_Identity *value);

 TEE_Result TEE_AllocatePropertyEnumerator(TEE_PropSetHandle *enumerator);

 void TEE_FreePropertyEnumerator(TEE_PropSetHandle enumerator);

 void TEE_StartPropertyEnumerator(TEE_PropSetHandle enumerator,
 				 TEE_PropSetHandle propSet);

 void TEE_ResetPropertyEnumerator(TEE_PropSetHandle enumerator);

 TEE_Result TEE_GetPropertyName(TEE_PropSetHandle enumerator,
 			       void *nameBuffer, uint32_t *nameBufferLen);

 TEE_Result TEE_GetNextProperty(TEE_PropSetHandle enumerator);

 /* System API - Misc */

 void TEE_Panic(TEE_Result panicCode);

 /* System API - Internal Client API */

 TEE_Result TEE_OpenTASession(const TEE_UUID *destination,
 				uint32_t cancellationRequestTimeout,
 				uint32_t paramTypes,
 				TEE_Param params[TEE_NUM_PARAMS],
 				TEE_TASessionHandle *session,
 				uint32_t *returnOrigin);

 void TEE_CloseTASession(TEE_TASessionHandle session);

 TEE_Result TEE_InvokeTACommand(TEE_TASessionHandle session,
 				uint32_t cancellationRequestTimeout,
 				uint32_t commandID, uint32_t paramTypes,
 				TEE_Param params[TEE_NUM_PARAMS],
 				uint32_t *returnOrigin);

 /* System API - Cancellations */

 bool TEE_GetCancellationFlag(void);

 bool TEE_UnmaskCancellation(void);

 bool TEE_MaskCancellation(void);

 /* System API - Memory Management */

 TEE_Result TEE_CheckMemoryAccessRights(uint32_t accessFlags, void *buffer,
 				       uint32_t size);

 void TEE_SetInstanceData(const void *instanceData);

 const void *TEE_GetInstanceData(void);

 void *TEE_Malloc(uint32_t size, uint32_t hint);

 void *TEE_Realloc(void *buffer, uint32_t newSize);

 void TEE_Free(void *buffer);

 void *TEE_MemMove(void *dest, const void *src, uint32_t size);

 /*
  * Note: TEE_MemCompare() has a constant-time implementation (execution time
  * does not depend on buffer content but only on buffer size). It is the main
  * difference with memcmp().
  */
 int32_t TEE_MemCompare(const void *buffer1, const void *buffer2, uint32_t size);

 void *TEE_MemFill(void *buff, uint32_t x, uint32_t size);

 /* Data and Key Storage API  - Generic Object Functions */

 void TEE_GetObjectInfo(TEE_ObjectHandle object, TEE_ObjectInfo *objectInfo);
 TEE_Result TEE_GetObjectInfo1(TEE_ObjectHandle object, TEE_ObjectInfo *objectInfo);

 void TEE_RestrictObjectUsage(TEE_ObjectHandle object, uint32_t objectUsage);
 TEE_Result TEE_RestrictObjectUsage1(TEE_ObjectHandle object, uint32_t objectUsage);

 TEE_Result TEE_GetObjectBufferAttribute(TEE_ObjectHandle object,
 					uint32_t attributeID, void *buffer,
 					uint32_t *size);

 TEE_Result TEE_GetObjectValueAttribute(TEE_ObjectHandle object,
 				       uint32_t attributeID, uint32_t *a,
 				       uint32_t *b);

 void TEE_CloseObject(TEE_ObjectHandle object);

 /* Data and Key Storage API  - Transient Object Functions */

 TEE_Result TEE_AllocateTransientObject(TEE_ObjectType objectType,
 				       uint32_t maxKeySize,
 				       TEE_ObjectHandle *object);

 void TEE_FreeTransientObject(TEE_ObjectHandle object);

 void TEE_ResetTransientObject(TEE_ObjectHandle object);

 TEE_Result TEE_PopulateTransientObject(TEE_ObjectHandle object,
 				       const TEE_Attribute *attrs,
 				       uint32_t attrCount);

 void TEE_InitRefAttribute(TEE_Attribute *attr, uint32_t attributeID,
 			  const void *buffer, uint32_t length);

 void TEE_InitValueAttribute(TEE_Attribute *attr, uint32_t attributeID,
 			    uint32_t a, uint32_t b);

 void TEE_CopyObjectAttributes(TEE_ObjectHandle destObject,
 			      TEE_ObjectHandle srcObject);

 TEE_Result TEE_CopyObjectAttributes1(TEE_ObjectHandle destObject,
 			      TEE_ObjectHandle srcObject);

 TEE_Result TEE_GenerateKey(TEE_ObjectHandle object, uint32_t keySize,
 			   const TEE_Attribute *params, uint32_t paramCount);

 /* Data and Key Storage API  - Persistent Object Functions */

 TEE_Result TEE_OpenPersistentObject(uint32_t storageID, const void *objectID,
 				    uint32_t objectIDLen, uint32_t flags,
 				    TEE_ObjectHandle *object);

 TEE_Result TEE_CreatePersistentObject(uint32_t storageID, const void *objectID,
 				      uint32_t objectIDLen, uint32_t flags,
 				      TEE_ObjectHandle attributes,
 				      const void *initialData,
 				      uint32_t initialDataLen,
 				      TEE_ObjectHandle *object);

 void TEE_CloseAndDeletePersistentObject(TEE_ObjectHandle object);

 TEE_Result TEE_CloseAndDeletePersistentObject1(TEE_ObjectHandle object);

 TEE_Result TEE_RenamePersistentObject(TEE_ObjectHandle object,
 				      const void *newObjectID,
 				      uint32_t newObjectIDLen);

 TEE_Result TEE_AllocatePersistentObjectEnumerator(TEE_ObjectEnumHandle *
 						  objectEnumerator);

 void TEE_FreePersistentObjectEnumerator(TEE_ObjectEnumHandle objectEnumerator);

 void TEE_ResetPersistentObjectEnumerator(TEE_ObjectEnumHandle objectEnumerator);

 TEE_Result TEE_StartPersistentObjectEnumerator(TEE_ObjectEnumHandle
 					       objectEnumerator,
 					       uint32_t storageID);

 TEE_Result TEE_GetNextPersistentObject(TEE_ObjectEnumHandle objectEnumerator,
 				       TEE_ObjectInfo *objectInfo,
 				       void *objectID, uint32_t *objectIDLen);

 /* Data and Key Storage API  - Data Stream Access Functions */

 TEE_Result TEE_ReadObjectData(TEE_ObjectHandle object, void *buffer,
 			      uint32_t size, uint32_t *count);

 TEE_Result TEE_WriteObjectData(TEE_ObjectHandle object, const void *buffer,
 			       uint32_t size);

 TEE_Result TEE_TruncateObjectData(TEE_ObjectHandle object, uint32_t size);

 TEE_Result TEE_SeekObjectData(TEE_ObjectHandle object, int32_t offset,
 			      TEE_Whence whence);

 /* Cryptographic Operations API - Generic Operation Functions */

 TEE_Result TEE_AllocateOperation(TEE_OperationHandle *operation,
 				 uint32_t algorithm, uint32_t mode,
 				 uint32_t maxKeySize);

 void TEE_FreeOperation(TEE_OperationHandle operation);

 void TEE_GetOperationInfo(TEE_OperationHandle operation,
 			  TEE_OperationInfo *operationInfo);

 TEE_Result TEE_GetOperationInfoMultiple(TEE_OperationHandle operation,
 			  TEE_OperationInfoMultiple *operationInfoMultiple,
 			  uint32_t *operationSize);

 void TEE_ResetOperation(TEE_OperationHandle operation);

 TEE_Result TEE_SetOperationKey(TEE_OperationHandle operation,
 			       TEE_ObjectHandle key);

 TEE_Result TEE_SetOperationKey2(TEE_OperationHandle operation,
 				TEE_ObjectHandle key1, TEE_ObjectHandle key2);

 void TEE_CopyOperation(TEE_OperationHandle dstOperation,
 		       TEE_OperationHandle srcOperation);

 /* Cryptographic Operations API - Message Digest Functions */

 void TEE_DigestUpdate(TEE_OperationHandle operation,
 		      const void *chunk, uint32_t chunkSize);

 TEE_Result TEE_DigestDoFinal(TEE_OperationHandle operation, const void *chunk,
 			     uint32_t chunkLen, void *hash, uint32_t *hashLen);

 /* Cryptographic Operations API - Symmetric Cipher Functions */

 void TEE_CipherInit(TEE_OperationHandle operation, const void *IV,
 		    uint32_t IVLen);

 TEE_Result TEE_CipherUpdate(TEE_OperationHandle operation, const void *srcData,
 			    uint32_t srcLen, void *destData, uint32_t *destLen);

 TEE_Result TEE_CipherDoFinal(TEE_OperationHandle operation,
 			     const void *srcData, uint32_t srcLen,
 			     void *destData, uint32_t *destLen);

 /* Cryptographic Operations API - MAC Functions */

 void TEE_MACInit(TEE_OperationHandle operation, const void *IV,
 		 uint32_t IVLen);

 void TEE_MACUpdate(TEE_OperationHandle operation, const void *chunk,
 		   uint32_t chunkSize);

 TEE_Result TEE_MACComputeFinal(TEE_OperationHandle operation,
 			       const void *message, uint32_t messageLen,
 			       void *mac, uint32_t *macLen);

 TEE_Result TEE_MACCompareFinal(TEE_OperationHandle operation,
 			       const void *message, uint32_t messageLen,
 			       const void *mac, uint32_t macLen);

 /* Cryptographic Operations API - Authenticated Encryption Functions */

 TEE_Result TEE_AEInit(TEE_OperationHandle operation, const void *nonce,
 		      uint32_t nonceLen, uint32_t tagLen, uint32_t AADLen,
 		      uint32_t payloadLen);

 void TEE_AEUpdateAAD(TEE_OperationHandle operation, const void *AADdata,
 		     uint32_t AADdataLen);

 TEE_Result TEE_AEUpdate(TEE_OperationHandle operation, const void *srcData,
 			uint32_t srcLen, void *destData, uint32_t *destLen);

 TEE_Result TEE_AEEncryptFinal(TEE_OperationHandle operation,
 			      const void *srcData, uint32_t srcLen,
 			      void *destData, uint32_t *destLen, void *tag,
 			      uint32_t *tagLen);

 TEE_Result TEE_AEDecryptFinal(TEE_OperationHandle operation,
 			      const void *srcData, uint32_t srcLen,
 			      void *destData, uint32_t *destLen, void *tag,
 			      uint32_t tagLen);

 /* Cryptographic Operations API - Asymmetric Functions */

 TEE_Result TEE_AsymmetricEncrypt(TEE_OperationHandle operation,
 				 const TEE_Attribute *params,
 				 uint32_t paramCount, const void *srcData,
 				 uint32_t srcLen, void *destData,
 				 uint32_t *destLen);

 TEE_Result TEE_AsymmetricDecrypt(TEE_OperationHandle operation,
 				 const TEE_Attribute *params,
 				 uint32_t paramCount, const void *srcData,
 				 uint32_t srcLen, void *destData,
 				 uint32_t *destLen);

 TEE_Result TEE_AsymmetricSignDigest(TEE_OperationHandle operation,
 				    const TEE_Attribute *params,
 				    uint32_t paramCount, const void *digest,
 				    uint32_t digestLen, void *signature,
 				    uint32_t *signatureLen);

 TEE_Result TEE_AsymmetricVerifyDigest(TEE_OperationHandle operation,
 				      const TEE_Attribute *params,
 				      uint32_t paramCount, const void *digest,
 				      uint32_t digestLen, const void *signature,
 				      uint32_t signatureLen);

 /* Cryptographic Operations API - Key Derivation Functions */

 void TEE_DeriveKey(TEE_OperationHandle operation,
 		   const TEE_Attribute *params, uint32_t paramCount,
 		   TEE_ObjectHandle derivedKey);

 /* Cryptographic Operations API - Random Number Generation Functions */

 void TEE_GenerateRandom(void *randomBuffer, uint32_t randomBufferLen);

 /* Date & Time API */

 void TEE_GetSystemTime(TEE_Time *time);

 TEE_Result TEE_Wait(uint32_t timeout);

 TEE_Result TEE_GetTAPersistentTime(TEE_Time *time);

 TEE_Result TEE_SetTAPersistentTime(const TEE_Time *time);

 void TEE_GetREETime(TEE_Time *time);

 /* TEE Arithmetical API - Memory allocation and size of objects */

 uint32_t TEE_BigIntFMMSizeInU32(uint32_t modulusSizeInBits);

 uint32_t TEE_BigIntFMMContextSizeInU32(uint32_t modulusSizeInBits);

 /* TEE Arithmetical API - Initialization functions */

 void TEE_BigIntInit(TEE_BigInt *bigInt, uint32_t len);

 void TEE_BigIntInitFMMContext(TEE_BigIntFMMContext *context, uint32_t len,
 			      const TEE_BigInt *modulus);

 void TEE_BigIntInitFMM(TEE_BigIntFMM *bigIntFMM, uint32_t len);

 /* TEE Arithmetical API - Converter functions */

 TEE_Result TEE_BigIntConvertFromOctetString(TEE_BigInt *dest,
 					    const uint8_t *buffer,
 					    uint32_t bufferLen,
 					    int32_t sign);

 TEE_Result TEE_BigIntConvertToOctetString(uint8_t *buffer, uint32_t *bufferLen,
 					  const TEE_BigInt *bigInt);

 void TEE_BigIntConvertFromS32(TEE_BigInt *dest, int32_t shortVal);

 TEE_Result TEE_BigIntConvertToS32(int32_t *dest, const TEE_BigInt *src);

 /* TEE Arithmetical API - Logical operations */

 int32_t TEE_BigIntCmp(const TEE_BigInt *op1, const TEE_BigInt *op2);

 int32_t TEE_BigIntCmpS32(const TEE_BigInt *op, int32_t shortVal);

 void TEE_BigIntShiftRight(TEE_BigInt *dest, const TEE_BigInt *op,
 			  size_t bits);

 bool TEE_BigIntGetBit(const TEE_BigInt *src, uint32_t bitIndex);

 uint32_t TEE_BigIntGetBitCount(const TEE_BigInt *src);

 void TEE_BigIntAdd(TEE_BigInt *dest, const TEE_BigInt *op1,
 		   const TEE_BigInt *op2);

 void TEE_BigIntSub(TEE_BigInt *dest, const TEE_BigInt *op1,
 		   const TEE_BigInt *op2);

 void TEE_BigIntNeg(TEE_BigInt *dest, const TEE_BigInt *op);

 void TEE_BigIntMul(TEE_BigInt *dest, const TEE_BigInt *op1,
 		   const TEE_BigInt *op2);

 void TEE_BigIntSquare(TEE_BigInt *dest, const TEE_BigInt *op);

 void TEE_BigIntDiv(TEE_BigInt *dest_q, TEE_BigInt *dest_r,
 		   const TEE_BigInt *op1, const TEE_BigInt *op2);

 /* TEE Arithmetical API - Modular arithmetic operations */

 void TEE_BigIntMod(TEE_BigInt *dest, const TEE_BigInt *op,
 		   const TEE_BigInt *n);

 void TEE_BigIntAddMod(TEE_BigInt *dest, const TEE_BigInt *op1,
 		      const TEE_BigInt *op2, const TEE_BigInt *n);

 void TEE_BigIntSubMod(TEE_BigInt *dest, const TEE_BigInt *op1,
 		      const TEE_BigInt *op2, const TEE_BigInt *n);

 void TEE_BigIntMulMod(TEE_BigInt *dest, const  TEE_BigInt *op1,
 		      const TEE_BigInt *op2, const TEE_BigInt *n);

 void TEE_BigIntSquareMod(TEE_BigInt *dest, const TEE_BigInt *op,
 			 const TEE_BigInt *n);

 void TEE_BigIntInvMod(TEE_BigInt *dest, const TEE_BigInt *op,
 		      const TEE_BigInt *n);

 /* TEE Arithmetical API - Other arithmetic operations */

 bool TEE_BigIntRelativePrime(const TEE_BigInt *op1, const TEE_BigInt *op2);

 void TEE_BigIntComputeExtendedGcd(TEE_BigInt *gcd, TEE_BigInt *u,
 				  TEE_BigInt *v, const TEE_BigInt *op1,
 				  const TEE_BigInt *op2);

 int32_t TEE_BigIntIsProbablePrime(const TEE_BigInt *op,
 				  uint32_t confidenceLevel);

 /* TEE Arithmetical API - Fast modular multiplication operations */

 void TEE_BigIntConvertToFMM(TEE_BigIntFMM *dest, const TEE_BigInt *src,
 			    const TEE_BigInt *n,
 			    const TEE_BigIntFMMContext *context);

 void TEE_BigIntConvertFromFMM(TEE_BigInt *dest, const TEE_BigIntFMM *src,
 			      const TEE_BigInt *n,
 			      const TEE_BigIntFMMContext *context);

 void TEE_BigIntFMMConvertToBigInt(TEE_BigInt *dest, const TEE_BigIntFMM *src,
 				  const TEE_BigInt *n,
 				  const TEE_BigIntFMMContext *context);

 void TEE_BigIntComputeFMM(TEE_BigIntFMM *dest, const TEE_BigIntFMM *op1,
 			  const TEE_BigIntFMM *op2, const TEE_BigInt *n,
 			  const TEE_BigIntFMMContext *context);

 #endif /* TEE_API_H */
	/* SPDX-License-Identifier: BSD-2-Clause */
	/*
	* Copyright (c) 2014, STMicroelectronics International N.V.
	*/

	/* Based on GP TEE Internal API Specification Version 1.1 */
	#ifndef TEE_API_H
	#define TEE_API_H

	#include <stddef.h>
	#include <compiler.h>
	#include <tee_api_defines.h>
	#include <tee_api_types.h>
	#include <trace.h>

	/* Property access functions */

	TEE_Result TEE_GetPropertyAsString(TEE_PropSetHandle propsetOrEnumerator,
	const char name, char valueBuffer,
	uint32_t *valueBufferLen);

	TEE_Result TEE_GetPropertyAsBool(TEE_PropSetHandle propsetOrEnumerator,
	const char name, bool value);

	TEE_Result TEE_GetPropertyAsU32(TEE_PropSetHandle propsetOrEnumerator,
	const char name, uint32_t value);

	TEE_Result TEE_GetPropertyAsBinaryBlock(TEE_PropSetHandle propsetOrEnumerator,
	const char name, void valueBuffer,
	uint32_t *valueBufferLen);

	TEE_Result TEE_GetPropertyAsUUID(TEE_PropSetHandle propsetOrEnumerator,
	const char name, TEE_UUID value);

	TEE_Result TEE_GetPropertyAsIdentity(TEE_PropSetHandle propsetOrEnumerator,
	const char name, TEE_Identity value);

	TEE_Result TEE_AllocatePropertyEnumerator(TEE_PropSetHandle *enumerator);

	void TEE_FreePropertyEnumerator(TEE_PropSetHandle enumerator);

	void TEE_StartPropertyEnumerator(TEE_PropSetHandle enumerator,
	TEE_PropSetHandle propSet);

	void TEE_ResetPropertyEnumerator(TEE_PropSetHandle enumerator);

	TEE_Result TEE_GetPropertyName(TEE_PropSetHandle enumerator,
	void nameBuffer, uint32_t nameBufferLen);

	TEE_Result TEE_GetNextProperty(TEE_PropSetHandle enumerator);

	/* System API - Misc */

	void TEE_Panic(TEE_Result panicCode);

	/* System API - Internal Client API */

	TEE_Result TEE_OpenTASession(const TEE_UUID *destination,
	uint32_t cancellationRequestTimeout,
	uint32_t paramTypes,
	TEE_Param params[TEE_NUM_PARAMS],
	TEE_TASessionHandle *session,
	uint32_t *returnOrigin);

	void TEE_CloseTASession(TEE_TASessionHandle session);

	TEE_Result TEE_InvokeTACommand(TEE_TASessionHandle session,
	uint32_t cancellationRequestTimeout,
	uint32_t commandID, uint32_t paramTypes,
	TEE_Param params[TEE_NUM_PARAMS],
	uint32_t *returnOrigin);

	/* System API - Cancellations */

	bool TEE_GetCancellationFlag(void);

	bool TEE_UnmaskCancellation(void);

	bool TEE_MaskCancellation(void);

	/* System API - Memory Management */

	TEE_Result TEE_CheckMemoryAccessRights(uint32_t accessFlags, void *buffer,
	uint32_t size);

	void TEE_SetInstanceData(const void *instanceData);

	const void *TEE_GetInstanceData(void);

	void *TEE_Malloc(uint32_t size, uint32_t hint);

	void TEE_Realloc(void buffer, uint32_t newSize);

	void TEE_Free(void *buffer);

	void TEE_MemMove(void dest, const void *src, uint32_t size);

	/*
	* Note: TEE_MemCompare() has a constant-time implementation (execution time
	* does not depend on buffer content but only on buffer size). It is the main
	* difference with memcmp().
	*/
	int32_t TEE_MemCompare(const void buffer1, const void buffer2, uint32_t size);

	void TEE_MemFill(void buff, uint32_t x, uint32_t size);

	/* Data and Key Storage API - Generic Object Functions */

	void TEE_GetObjectInfo(TEE_ObjectHandle object, TEE_ObjectInfo *objectInfo);
	TEE_Result TEE_GetObjectInfo1(TEE_ObjectHandle object, TEE_ObjectInfo *objectInfo);

	void TEE_RestrictObjectUsage(TEE_ObjectHandle object, uint32_t objectUsage);
	TEE_Result TEE_RestrictObjectUsage1(TEE_ObjectHandle object, uint32_t objectUsage);

	TEE_Result TEE_GetObjectBufferAttribute(TEE_ObjectHandle object,
	uint32_t attributeID, void *buffer,
	uint32_t *size);

	TEE_Result TEE_GetObjectValueAttribute(TEE_ObjectHandle object,
	uint32_t attributeID, uint32_t *a,
	uint32_t *b);

	void TEE_CloseObject(TEE_ObjectHandle object);

	/* Data and Key Storage API - Transient Object Functions */

	TEE_Result TEE_AllocateTransientObject(TEE_ObjectType objectType,
	uint32_t maxKeySize,
	TEE_ObjectHandle *object);

	void TEE_FreeTransientObject(TEE_ObjectHandle object);

	void TEE_ResetTransientObject(TEE_ObjectHandle object);

	TEE_Result TEE_PopulateTransientObject(TEE_ObjectHandle object,
	const TEE_Attribute *attrs,
	uint32_t attrCount);

	void TEE_InitRefAttribute(TEE_Attribute *attr, uint32_t attributeID,
	const void *buffer, uint32_t length);

	void TEE_InitValueAttribute(TEE_Attribute *attr, uint32_t attributeID,
	uint32_t a, uint32_t b);

	void TEE_CopyObjectAttributes(TEE_ObjectHandle destObject,
	TEE_ObjectHandle srcObject);

	TEE_Result TEE_CopyObjectAttributes1(TEE_ObjectHandle destObject,
	TEE_ObjectHandle srcObject);

	TEE_Result TEE_GenerateKey(TEE_ObjectHandle object, uint32_t keySize,
	const TEE_Attribute *params, uint32_t paramCount);

	/* Data and Key Storage API - Persistent Object Functions */

	TEE_Result TEE_OpenPersistentObject(uint32_t storageID, const void *objectID,
	uint32_t objectIDLen, uint32_t flags,
	TEE_ObjectHandle *object);

	TEE_Result TEE_CreatePersistentObject(uint32_t storageID, const void *objectID,
	uint32_t objectIDLen, uint32_t flags,
	TEE_ObjectHandle attributes,
	const void *initialData,
	uint32_t initialDataLen,
	TEE_ObjectHandle *object);

	void TEE_CloseAndDeletePersistentObject(TEE_ObjectHandle object);

	TEE_Result TEE_CloseAndDeletePersistentObject1(TEE_ObjectHandle object);

	TEE_Result TEE_RenamePersistentObject(TEE_ObjectHandle object,
	const void *newObjectID,
	uint32_t newObjectIDLen);

	TEE_Result TEE_AllocatePersistentObjectEnumerator(TEE_ObjectEnumHandle *
	objectEnumerator);

	void TEE_FreePersistentObjectEnumerator(TEE_ObjectEnumHandle objectEnumerator);

	void TEE_ResetPersistentObjectEnumerator(TEE_ObjectEnumHandle objectEnumerator);

	TEE_Result TEE_StartPersistentObjectEnumerator(TEE_ObjectEnumHandle
	objectEnumerator,
	uint32_t storageID);

	TEE_Result TEE_GetNextPersistentObject(TEE_ObjectEnumHandle objectEnumerator,
	TEE_ObjectInfo *objectInfo,
	void objectID, uint32_t objectIDLen);

	/* Data and Key Storage API - Data Stream Access Functions */

	TEE_Result TEE_ReadObjectData(TEE_ObjectHandle object, void *buffer,
	uint32_t size, uint32_t *count);

	TEE_Result TEE_WriteObjectData(TEE_ObjectHandle object, const void *buffer,
	uint32_t size);

	TEE_Result TEE_TruncateObjectData(TEE_ObjectHandle object, uint32_t size);

	TEE_Result TEE_SeekObjectData(TEE_ObjectHandle object, int32_t offset,
	TEE_Whence whence);

	/* Cryptographic Operations API - Generic Operation Functions */

	TEE_Result TEE_AllocateOperation(TEE_OperationHandle *operation,
	uint32_t algorithm, uint32_t mode,
	uint32_t maxKeySize);

	void TEE_FreeOperation(TEE_OperationHandle operation);

	void TEE_GetOperationInfo(TEE_OperationHandle operation,
	TEE_OperationInfo *operationInfo);

	TEE_Result TEE_GetOperationInfoMultiple(TEE_OperationHandle operation,
	TEE_OperationInfoMultiple *operationInfoMultiple,
	uint32_t *operationSize);

	void TEE_ResetOperation(TEE_OperationHandle operation);

	TEE_Result TEE_SetOperationKey(TEE_OperationHandle operation,
	TEE_ObjectHandle key);

	TEE_Result TEE_SetOperationKey2(TEE_OperationHandle operation,
	TEE_ObjectHandle key1, TEE_ObjectHandle key2);

	void TEE_CopyOperation(TEE_OperationHandle dstOperation,
	TEE_OperationHandle srcOperation);

	/* Cryptographic Operations API - Message Digest Functions */

	void TEE_DigestUpdate(TEE_OperationHandle operation,
	const void *chunk, uint32_t chunkSize);

	TEE_Result TEE_DigestDoFinal(TEE_OperationHandle operation, const void *chunk,
	uint32_t chunkLen, void hash, uint32_t hashLen);

	/* Cryptographic Operations API - Symmetric Cipher Functions */

	void TEE_CipherInit(TEE_OperationHandle operation, const void *IV,
	uint32_t IVLen);

	TEE_Result TEE_CipherUpdate(TEE_OperationHandle operation, const void *srcData,
	uint32_t srcLen, void destData, uint32_t destLen);

	TEE_Result TEE_CipherDoFinal(TEE_OperationHandle operation,
	const void *srcData, uint32_t srcLen,
	void destData, uint32_t destLen);

	/* Cryptographic Operations API - MAC Functions */

	void TEE_MACInit(TEE_OperationHandle operation, const void *IV,
	uint32_t IVLen);

	void TEE_MACUpdate(TEE_OperationHandle operation, const void *chunk,
	uint32_t chunkSize);

	TEE_Result TEE_MACComputeFinal(TEE_OperationHandle operation,
	const void *message, uint32_t messageLen,
	void mac, uint32_t macLen);

	TEE_Result TEE_MACCompareFinal(TEE_OperationHandle operation,
	const void *message, uint32_t messageLen,
	const void *mac, uint32_t macLen);

	/* Cryptographic Operations API - Authenticated Encryption Functions */

	TEE_Result TEE_AEInit(TEE_OperationHandle operation, const void *nonce,
	uint32_t nonceLen, uint32_t tagLen, uint32_t AADLen,
	uint32_t payloadLen);

	void TEE_AEUpdateAAD(TEE_OperationHandle operation, const void *AADdata,
	uint32_t AADdataLen);

	TEE_Result TEE_AEUpdate(TEE_OperationHandle operation, const void *srcData,
	uint32_t srcLen, void destData, uint32_t destLen);

	TEE_Result TEE_AEEncryptFinal(TEE_OperationHandle operation,
	const void *srcData, uint32_t srcLen,
	void destData, uint32_t destLen, void *tag,
	uint32_t *tagLen);

	TEE_Result TEE_AEDecryptFinal(TEE_OperationHandle operation,
	const void *srcData, uint32_t srcLen,
	void destData, uint32_t destLen, void *tag,
	uint32_t tagLen);

	/* Cryptographic Operations API - Asymmetric Functions */

	TEE_Result TEE_AsymmetricEncrypt(TEE_OperationHandle operation,
	const TEE_Attribute *params,
	uint32_t paramCount, const void *srcData,
	uint32_t srcLen, void *destData,
	uint32_t *destLen);

	TEE_Result TEE_AsymmetricDecrypt(TEE_OperationHandle operation,
	const TEE_Attribute *params,
	uint32_t paramCount, const void *srcData,
	uint32_t srcLen, void *destData,
	uint32_t *destLen);

	TEE_Result TEE_AsymmetricSignDigest(TEE_OperationHandle operation,
	const TEE_Attribute *params,
	uint32_t paramCount, const void *digest,
	uint32_t digestLen, void *signature,
	uint32_t *signatureLen);

	TEE_Result TEE_AsymmetricVerifyDigest(TEE_OperationHandle operation,
	const TEE_Attribute *params,
	uint32_t paramCount, const void *digest,
	uint32_t digestLen, const void *signature,
	uint32_t signatureLen);

	/* Cryptographic Operations API - Key Derivation Functions */

	void TEE_DeriveKey(TEE_OperationHandle operation,
	const TEE_Attribute *params, uint32_t paramCount,
	TEE_ObjectHandle derivedKey);

	/* Cryptographic Operations API - Random Number Generation Functions */

	void TEE_GenerateRandom(void *randomBuffer, uint32_t randomBufferLen);

	/* Date & Time API */

	void TEE_GetSystemTime(TEE_Time *time);

	TEE_Result TEE_Wait(uint32_t timeout);

	TEE_Result TEE_GetTAPersistentTime(TEE_Time *time);

	TEE_Result TEE_SetTAPersistentTime(const TEE_Time *time);

	void TEE_GetREETime(TEE_Time *time);

	/* TEE Arithmetical API - Memory allocation and size of objects */

	uint32_t TEE_BigIntFMMSizeInU32(uint32_t modulusSizeInBits);

	uint32_t TEE_BigIntFMMContextSizeInU32(uint32_t modulusSizeInBits);

	/* TEE Arithmetical API - Initialization functions */

	void TEE_BigIntInit(TEE_BigInt *bigInt, uint32_t len);

	void TEE_BigIntInitFMMContext(TEE_BigIntFMMContext *context, uint32_t len,
	const TEE_BigInt *modulus);

	void TEE_BigIntInitFMM(TEE_BigIntFMM *bigIntFMM, uint32_t len);

	/* TEE Arithmetical API - Converter functions */

	TEE_Result TEE_BigIntConvertFromOctetString(TEE_BigInt *dest,
	const uint8_t *buffer,
	uint32_t bufferLen,
	int32_t sign);

	TEE_Result TEE_BigIntConvertToOctetString(uint8_t buffer, uint32_t bufferLen,
	const TEE_BigInt *bigInt);

	void TEE_BigIntConvertFromS32(TEE_BigInt *dest, int32_t shortVal);

	TEE_Result TEE_BigIntConvertToS32(int32_t dest, const TEE_BigInt src);

	/* TEE Arithmetical API - Logical operations */

	int32_t TEE_BigIntCmp(const TEE_BigInt op1, const TEE_BigInt op2);

	int32_t TEE_BigIntCmpS32(const TEE_BigInt *op, int32_t shortVal);

	void TEE_BigIntShiftRight(TEE_BigInt dest, const TEE_BigInt op,
	size_t bits);

	bool TEE_BigIntGetBit(const TEE_BigInt *src, uint32_t bitIndex);

	uint32_t TEE_BigIntGetBitCount(const TEE_BigInt *src);

	void TEE_BigIntAdd(TEE_BigInt dest, const TEE_BigInt op1,
	const TEE_BigInt *op2);

	void TEE_BigIntSub(TEE_BigInt dest, const TEE_BigInt op1,
	const TEE_BigInt *op2);

	void TEE_BigIntNeg(TEE_BigInt dest, const TEE_BigInt op);

	void TEE_BigIntMul(TEE_BigInt dest, const TEE_BigInt op1,
	const TEE_BigInt *op2);

	void TEE_BigIntSquare(TEE_BigInt dest, const TEE_BigInt op);

	void TEE_BigIntDiv(TEE_BigInt dest_q, TEE_BigInt dest_r,
	const TEE_BigInt op1, const TEE_BigInt op2);

	/* TEE Arithmetical API - Modular arithmetic operations */

	void TEE_BigIntMod(TEE_BigInt dest, const TEE_BigInt op,
	const TEE_BigInt *n);

	void TEE_BigIntAddMod(TEE_BigInt dest, const TEE_BigInt op1,
	const TEE_BigInt op2, const TEE_BigInt n);

	void TEE_BigIntSubMod(TEE_BigInt dest, const TEE_BigInt op1,
	const TEE_BigInt op2, const TEE_BigInt n);

	void TEE_BigIntMulMod(TEE_BigInt dest, const TEE_BigInt op1,
	const TEE_BigInt op2, const TEE_BigInt n);

	void TEE_BigIntSquareMod(TEE_BigInt dest, const TEE_BigInt op,
	const TEE_BigInt *n);

	void TEE_BigIntInvMod(TEE_BigInt dest, const TEE_BigInt op,
	const TEE_BigInt *n);

	/* TEE Arithmetical API - Other arithmetic operations */

	bool TEE_BigIntRelativePrime(const TEE_BigInt op1, const TEE_BigInt op2);

	void TEE_BigIntComputeExtendedGcd(TEE_BigInt gcd, TEE_BigInt u,
	TEE_BigInt v, const TEE_BigInt op1,
	const TEE_BigInt *op2);

	int32_t TEE_BigIntIsProbablePrime(const TEE_BigInt *op,
	uint32_t confidenceLevel);

	/* TEE Arithmetical API - Fast modular multiplication operations */

	void TEE_BigIntConvertToFMM(TEE_BigIntFMM dest, const TEE_BigInt src,
	const TEE_BigInt *n,
	const TEE_BigIntFMMContext *context);

	void TEE_BigIntConvertFromFMM(TEE_BigInt dest, const TEE_BigIntFMM src,
	const TEE_BigInt *n,
	const TEE_BigIntFMMContext *context);

	void TEE_BigIntFMMConvertToBigInt(TEE_BigInt dest, const TEE_BigIntFMM src,
	const TEE_BigInt *n,
	const TEE_BigIntFMMContext *context);

	void TEE_BigIntComputeFMM(TEE_BigIntFMM dest, const TEE_BigIntFMM op1,
	const TEE_BigIntFMM op2, const TEE_BigInt n,
	const TEE_BigIntFMMContext *context);

	#endif /* TEE_API_H */