MCUX CLNS
MCUX Crypto Library Normal Secure
Loading...
Searching...
No Matches
mcuxClCipherModes_Ecb_Aes128_Multipart_example.c

Example for the mcuxClCipherModes component.

Example for the mcuxClCipherModes component

/*--------------------------------------------------------------------------*/
/* Copyright 2020-2025 NXP */
/* */
/* NXP Confidential and Proprietary. This software is owned or controlled */
/* by NXP and may only be used strictly in accordance with the applicable */
/* license terms. By expressly accepting such terms or by downloading, */
/* installing, activating and/or otherwise using the software, you are */
/* agreeing that you have read, and that you agree to comply with and are */
/* bound by, such license terms. If you do not agree to be bound by the */
/* applicable license terms, then you may not retain, install, activate or */
/* otherwise use the software. */
/*--------------------------------------------------------------------------*/
#include <mcuxClToolchain.h>
#include <mcuxClSession.h>
#include <mcuxClKey.h>
#include <mcuxClAes.h> // Interface to AES-related definitions and types
#include <mcuxClCipher.h> // Interface to the entire mcuxClCipher component
#include <mcuxClCipherModes.h> // Interface to the entire mcuxClCipherModes component
#include <mcuxCsslFlowProtection.h>
#include <mcuxClCore_FunctionIdentifiers.h> // Code flow protection
#include <mcuxClBuffer.h>
#include <mcuxClCore_Examples.h>
#include <mcuxClExample_Session_Helper.h>
#include <mcuxClExample_RNG_Helper.h>
static const uint8_t plain[64] = {
0x61u, 0x62u, 0x63u, 0x64u, 0x65u, 0x66u, 0x67u, 0x68u,
0x69u, 0x6Au, 0x6Bu, 0x6Cu, 0x6Du, 0x6Eu, 0x6Fu, 0x70u,
0x62u, 0x63u, 0x64u, 0x65u, 0x66u, 0x67u, 0x68u, 0x69u,
0x6Au, 0x6Bu, 0x6Cu, 0x6Du, 0x6Eu, 0x6Fu, 0x70u, 0x71u,
0x63u, 0x64u, 0x65u, 0x66u, 0x67u, 0x68u, 0x69u, 0x6Au,
0x6Bu, 0x6Cu, 0x6Du, 0x6Eu, 0x6Fu, 0x70u, 0x71u, 0x72u,
0x64u, 0x65u, 0x66u, 0x67u, 0x68u, 0x69u, 0x6Au, 0x6Bu,
0x6Cu, 0x6Du, 0x6Eu, 0x6Fu, 0x70u, 0x71u, 0x72u, 0x73u,
};
/* ECB encrypted data */
static const uint8_t encryptedRef[64] = {
0x82u, 0x4fu, 0x7au, 0xb3u, 0xdfu, 0x5eu, 0x73u, 0x42u,
0x35u, 0xbbu, 0xcfu, 0xeau, 0xdau, 0x7eu, 0x74u, 0xc1u,
0x7au, 0x08u, 0x34u, 0x2du, 0x49u, 0xacu, 0xadu, 0x72u,
0x0eu, 0xb3u, 0x23u, 0xb6u, 0x49u, 0x42u, 0x01u, 0xf2u,
0x06u, 0x87u, 0x58u, 0xcfu, 0x41u, 0xb0u, 0xd6u, 0x63u,
0x66u, 0x50u, 0x1bu, 0xe8u, 0x05u, 0x66u, 0xa8u, 0xfbu,
0xa9u, 0xc3u, 0x3fu, 0x14u, 0xcau, 0x96u, 0xb0u, 0x5cu,
0xbfu, 0x0eu, 0x0au, 0x07u, 0x90u, 0xa9u, 0x1bu, 0xbau
};
static const uint8_t keyBytes[16] = {
0x6Bu, 0x6Cu, 0x6Du, 0x6Eu, 0x6Fu, 0x70u, 0x71u, 0x72u,
0x73u, 0x74u, 0x75u, 0x76u, 0x77u, 0x78u, 0x79u, 0x7Au,
};
MCUXCLEXAMPLE_FUNCTION(mcuxClCipherModes_Ecb_Aes128_Multipart_example)
{
/**************************************************************************/
/* Preparation */
/**************************************************************************/
mcuxClSession_Descriptor_t sessionDesc;
mcuxClSession_Handle_t session = &sessionDesc;
#define MCUXCLCIPHERMODES_CPU_WA MCUXCLCIPHER_AES_PROCESS_CPU_WA_BUFFER_SIZE
#define MCUXCLCIPHERMODES_CONTEXT_SIZE MCUXCLCIPHER_AES_CONTEXT_SIZE
/* Allocate and initialize session */
MCUXCLEXAMPLE_ALLOCATE_AND_INITIALIZE_SESSION(session, MCUXCLEXAMPLE_MAX_WA(MCUXCLCIPHERMODES_CPU_WA, MCUXCLRANDOM_NCINIT_WACPU_SIZE), 0u);
/* Initialize the PRNG */
MCUXCLEXAMPLE_INITIALIZE_PRNG(session);
uint32_t keyDesc[MCUXCLKEY_DESCRIPTOR_SIZE_IN_WORDS];
MCUX_CSSL_ANALYSIS_START_PATTERN_REINTERPRET_MEMORY_OF_OPAQUE_TYPES()
mcuxClKey_Handle_t key = (mcuxClKey_Handle_t) &keyDesc;
MCUX_CSSL_ANALYSIS_STOP_PATTERN_REINTERPRET_MEMORY_OF_OPAQUE_TYPES()
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(ki_status, ki_token, mcuxClKey_init(
/* mcuxClSession_Handle_t session: */ session,
/* mcuxClKey_Handle_t key: */ key,
/* mcuxClKey_Type_t type: */ mcuxClKey_Type_Aes128,
/* uint8_t * pKeyData: */ keyBytes,
/* uint32_t keyDataLength: */ sizeof(keyBytes))
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClKey_init) != ki_token) || (MCUXCLKEY_STATUS_OK != ki_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
/**************************************************************************/
/* Encryption */
/**************************************************************************/
uint32_t outLength = 0u;
uint32_t encryptedSize = 0u;
uint8_t encryptedData[sizeof(encryptedRef)];
/* Create a buffer for the context */
ALIGNED uint8_t ctxBuf[MCUXCLCIPHERMODES_CONTEXT_SIZE];
MCUX_CSSL_ANALYSIS_START_PATTERN_REINTERPRET_MEMORY_OF_OPAQUE_TYPES()
mcuxClCipher_Context_t * const ctx = (mcuxClCipher_Context_t *) ctxBuf;
MCUX_CSSL_ANALYSIS_STOP_PATTERN_REINTERPRET_MEMORY_OF_OPAQUE_TYPES()
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(ei_status, ei_token, mcuxClCipher_init_encrypt(
/* mcuxClSession_Handle_t session: */ session,
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
/* const mcuxClKey_Handle_t key: */ key,
/* mcuxClCipher_Mode_t mode: */ mcuxClCipher_Mode_AES_ECB_NoPadding,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_NULL_POINTER_CONSTANT("NULL is used in code")
/* mcuxCl_InputBuffer_t pIv: */ NULL,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_NULL_POINTER_CONSTANT()
/* uint32_t ivLength: */ 0)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_init_encrypt) != ei_token) || (MCUXCLCIPHER_STATUS_OK != ei_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
MCUXCLBUFFER_INIT_RO(plainBuf, session, plain, sizeof(plain));
MCUXCLBUFFER_INIT(encryptedDataBuf, session, encryptedData, sizeof(encryptedData));
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(ep1_status, ep1_token, mcuxClCipher_process(
/* mcuxClSession_Handle_t session: */ session,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_ALREADY_INITIALIZED("Initialized by mcuxClCipher_init_encrypt")
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_ALREADY_INITIALIZED()
/* mcuxCl_InputBuffer_t pIn: */ plainBuf,
/* uint32_t inLength: */ sizeof(plain) / 2u,
/* mcuxCl_Buffer_t pOut: */ encryptedDataBuf,
/* uint32_t * const outLength: */ &outLength)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_process) != ep1_token) || (MCUXCLCIPHER_STATUS_OK != ep1_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
MCUX_CSSL_ANALYSIS_START_SUPPRESS_INTEGER_OVERFLOW("Calculation does not overflow")
encryptedSize += outLength;
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_INTEGER_OVERFLOW()
MCUXCLBUFFER_UPDATE(plainBuf, sizeof(plain)/2u);
MCUXCLBUFFER_UPDATE(encryptedDataBuf, encryptedSize);
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(ep2_status, ep2_token, mcuxClCipher_process(
/* mcuxClSession_Handle_t session: */ session,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_ALREADY_INITIALIZED("Initialized by mcuxClCipher_init_encrypt")
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_ALREADY_INITIALIZED()
/* mcuxCl_InputBuffer_t pIn: */ plainBuf,
/* uint32_t inLength: */ sizeof(plain) - sizeof(plain) / 2u,
/* mcuxCl_Buffer_t pOut: */ encryptedDataBuf,
/* uint32_t * const outLength: */ &outLength)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_process) != ep2_token) || (MCUXCLCIPHER_STATUS_OK != ep2_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
MCUX_CSSL_ANALYSIS_START_SUPPRESS_INTEGER_OVERFLOW("Calculation does not overflow")
encryptedSize += outLength;
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_INTEGER_OVERFLOW()
/* Using MCUXCLBUFFER_SET instead of MCUXCLBUFFER_UPDATE is needed to properly advance the buffer to the correct offset */
MCUXCLBUFFER_SET(encryptedDataBuf, &encryptedData[encryptedSize], sizeof(encryptedData) /* unused */);
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(ef_status, ef_token, mcuxClCipher_finish(
/* mcuxClSession_Handle_t session: */ session,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_ALREADY_INITIALIZED("Initialized by mcuxClCipher_init_encrypt")
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_ALREADY_INITIALIZED()
/* mcuxCl_Buffer_t pOut: */ encryptedDataBuf,
/* uint32_t * const outLength: */ &outLength)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_finish) != ef_token) || (MCUXCLCIPHER_STATUS_OK != ef_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
MCUX_CSSL_ANALYSIS_START_SUPPRESS_INTEGER_OVERFLOW("Calculation does not overflow")
encryptedSize += outLength;
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_INTEGER_OVERFLOW()
/**************************************************************************/
/* Decryption */
/**************************************************************************/
uint32_t decryptedSize = 0u;
uint8_t decryptedData[sizeof(plain)];
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(di_status, di_token, mcuxClCipher_init_decrypt(
/* mcuxClSession_Handle_t session: */ session,
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
/* const mcuxClKey_Handle_t key: */ key,
/* mcuxClCipher_Mode_t mode: */ mcuxClCipher_Mode_AES_ECB_NoPadding,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_NULL_POINTER_CONSTANT("NULL is used in code")
/* mcuxCl_InputBuffer_t pIv: */ NULL,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_NULL_POINTER_CONSTANT()
/* uint32_t ivLength: */ 0)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_init_decrypt) != di_token) || (MCUXCLCIPHER_STATUS_OK != di_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
/* Process again from the beginning of encryptedDataBuf */
MCUXCLBUFFER_SET(encryptedDataBuf, encryptedData, sizeof(encryptedData) /* unused */);
MCUXCLBUFFER_INIT(decryptedDataBuf, session, decryptedData, sizeof(decryptedData));
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(dp1_status, dp1_token, mcuxClCipher_process(
/* mcuxClSession_Handle_t session: */ session,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_ALREADY_INITIALIZED("Initialized by mcuxClCipher_init_decrypt")
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_ALREADY_INITIALIZED()
/* mcuxCl_InputBuffer_t pIn: */ (mcuxCl_InputBuffer_t)encryptedDataBuf,
/* uint32_t inLength: */ encryptedSize / 3u,
/* mcuxCl_Buffer_t pOut: */ decryptedDataBuf,
/* uint32_t * const outLength: */ &outLength)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_process) != dp1_token) || (MCUXCLCIPHER_STATUS_OK != dp1_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
MCUX_CSSL_ANALYSIS_START_SUPPRESS_INTEGER_OVERFLOW("Calculation does not overflow")
decryptedSize += outLength;
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_INTEGER_OVERFLOW()
MCUXCLBUFFER_UPDATE(encryptedDataBuf, encryptedSize / 3u);
MCUXCLBUFFER_UPDATE(decryptedDataBuf, decryptedSize);
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(dp2_status, dp2_token, mcuxClCipher_process(
/* mcuxClSession_Handle_t session: */ session,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_ALREADY_INITIALIZED("Initialized by mcuxClCipher_init_decrypt")
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_ALREADY_INITIALIZED()
/* mcuxCl_InputBuffer_t pIn: */ (mcuxCl_InputBuffer_t)encryptedDataBuf,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_INTEGER_OVERFLOW("Calculation does not wrap")
/* uint32_t inLength: */ encryptedSize - encryptedSize / 3u,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_INTEGER_OVERFLOW()
/* mcuxCl_Buffer_t pOut: */ decryptedDataBuf,
/* uint32_t * const outLength: */ &outLength)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_process) != dp2_token) || (MCUXCLCIPHER_STATUS_OK != dp2_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
MCUX_CSSL_ANALYSIS_START_SUPPRESS_INTEGER_OVERFLOW("Calculation does not overflow")
decryptedSize += outLength;
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_INTEGER_OVERFLOW()
/* Using MCUXCLBUFFER_SET instead of MCUXCLBUFFER_UPDATE is needed to properly advance the buffer to the correct offset */
MCUXCLBUFFER_SET(decryptedDataBuf, &decryptedData[decryptedSize], sizeof(decryptedData) /* unused */);
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(df_status, df_token, mcuxClCipher_finish(
/* mcuxClSession_Handle_t session: */ session,
MCUX_CSSL_ANALYSIS_START_SUPPRESS_ALREADY_INITIALIZED("Initialized by mcuxClCipher_init_decrypt")
/* mcuxClCipher_Context_t * const pContext:*/ ctx,
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_ALREADY_INITIALIZED()
/* mcuxCl_Buffer_t pOut: */ decryptedDataBuf,
/* uint32_t * const outLength: */ &outLength)
);
if((MCUX_CSSL_FP_FUNCTION_CALLED(mcuxClCipher_finish) != df_token) || (MCUXCLCIPHER_STATUS_OK != df_status))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
MCUX_CSSL_FP_FUNCTION_CALL_END();
MCUX_CSSL_ANALYSIS_START_SUPPRESS_INTEGER_OVERFLOW("Calculation does not overflow")
decryptedSize += outLength;
MCUX_CSSL_ANALYSIS_STOP_SUPPRESS_INTEGER_OVERFLOW()
/**************************************************************************/
/* Destroy the current session */
/**************************************************************************/
if(!mcuxClExample_Session_Clean(session))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
/**************************************************************************/
/* Verification */
/**************************************************************************/
if(sizeof(encryptedRef) != encryptedSize)
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
if(!mcuxClCore_assertEqual(encryptedRef, encryptedData, sizeof(encryptedRef)))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
if(sizeof(plain) != decryptedSize)
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
if(!mcuxClCore_assertEqual(plain, decryptedData, sizeof(plain)))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
return MCUXCLEXAMPLE_STATUS_OK;
}
mcuxClAes.h
Top-level include file for the mcuxClAes component.
mcuxClBuffer.h
Top-level include file for the mcuxClBuffer component.
mcuxClCipher.h
Top-level include file for the mcuxClCipher component.
mcuxClCipherModes.h
Top-level include file for the mcuxClCipherModes component.
mcuxClCore_FunctionIdentifiers.h
Definition of function identifiers for the flow protection mechanism.
mcuxClKey.h
Top-level include file for the mcuxClKey component.
mcuxClSession.h
Top-level include file for the mcuxClSession component.
mcuxCsslFlowProtection.h
Provides the API for the CSSL flow protection mechanism.
mcuxClKey_Type_Aes128
static const mcuxClKey_Type_t mcuxClKey_Type_Aes128
Key type pointer for AES-128 based keys.
Definition mcuxClAes_KeyTypes.h:51
MCUXCLBUFFER_INIT
#define MCUXCLBUFFER_INIT(name, info, ptr, size)
Initialize an input/output buffer (mcuxCl_Buffer_t).
Definition mcuxClBuffer.h:67
MCUXCLBUFFER_INIT_RO
#define MCUXCLBUFFER_INIT_RO(name, info, ptr, size)
Initialize an input buffer (mcuxCl_InputBuffer_t) with plain CPU handling.
Definition mcuxClBuffer.h:84
MCUXCLBUFFER_UPDATE
#define MCUXCLBUFFER_UPDATE(name, offset)
Update the buffer pointer with the given offset.
Definition mcuxClBuffer.h:201
MCUXCLBUFFER_SET
#define MCUXCLBUFFER_SET(name, ptr, size)
Update the buffer pointer the a new memory location.
Definition mcuxClBuffer.h:240
mcuxCl_InputBuffer_t
const uint8_t * mcuxCl_InputBuffer_t
Input buffer type.
Definition mcuxClBuffer_Pointer.h:38
MCUXCLCIPHER_STATUS_OK
#define MCUXCLCIPHER_STATUS_OK
Blocking operation finished successfully.
Definition mcuxClCipher_Constants.h:35
mcuxClCipher_process
mcuxClCipher_Status_t mcuxClCipher_process(mcuxClSession_Handle_t session, mcuxClCipher_Context_t *const pContext, mcuxCl_InputBuffer_t pIn, uint32_t inLength, mcuxCl_Buffer_t pOut, uint32_t *const pOutLength)
Multi-part encryption/decryption processing function.
mcuxClCipher_init_encrypt
mcuxClCipher_Status_t mcuxClCipher_init_encrypt(mcuxClSession_Handle_t session, mcuxClCipher_Context_t *const pContext, mcuxClKey_Handle_t key, mcuxClCipher_Mode_t mode, mcuxCl_InputBuffer_t pIv, uint32_t ivLength)
Multi-part encryption initialization function.
mcuxClCipher_finish
mcuxClCipher_Status_t mcuxClCipher_finish(mcuxClSession_Handle_t session, mcuxClCipher_Context_t *const pContext, mcuxCl_Buffer_t pOut, uint32_t *const pOutLength)
Multi-part encryption/decryption finalization function.
mcuxClCipher_init_decrypt
mcuxClCipher_Status_t mcuxClCipher_init_decrypt(mcuxClSession_Handle_t session, mcuxClCipher_Context_t *const pContext, mcuxClKey_Handle_t key, mcuxClCipher_Mode_t mode, mcuxCl_InputBuffer_t pIv, uint32_t ivLength)
Multi-part decryption initialization function.
mcuxClCipher_Context_t
struct mcuxClCipher_Context mcuxClCipher_Context_t
Cipher context type.
Definition mcuxClCipher_Types.h:100
mcuxClCipher_Mode_AES_ECB_NoPadding
static mcuxClCipher_Mode_t mcuxClCipher_Mode_AES_ECB_NoPadding
AES-ECB mode without padding.
Definition mcuxClCipherModes_Modes.h:51
MCUXCLKEY_STATUS_OK
#define MCUXCLKEY_STATUS_OK
Key operation successful.
Definition mcuxClKey_Constants.h:40
mcuxClKey_init
mcuxClKey_Status_t mcuxClKey_init(mcuxClSession_Handle_t session, mcuxClKey_Handle_t key, mcuxClKey_Type_t type, const uint8_t *pKeyData, uint32_t keyDataLength)
Initializes a key handle.
mcuxClKey_Handle_t
mcuxClKey_Descriptor_t *const mcuxClKey_Handle_t
Key handle type.
Definition mcuxClKey_Types.h:91
mcuxClSession_Handle_t
mcuxClSession_Descriptor_t *const mcuxClSession_Handle_t
Type for mcuxClSession Handle.
Definition mcuxClSession_Types.h:98
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN
#define MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(...)
Call a flow protected function and check the protection token.
Definition mcuxCsslFlowProtection.h:623
MCUX_CSSL_FP_FUNCTION_CALLED
#define MCUX_CSSL_FP_FUNCTION_CALLED(...)
Expectation of a called function.
Definition mcuxCsslFlowProtection.h:777
MCUX_CSSL_FP_FUNCTION_CALL_END
#define MCUX_CSSL_FP_FUNCTION_CALL_END(...)
End a function call section started by MCUX_CSSL_FP_FUNCTION_CALL_BEGIN.
Definition mcuxCsslFlowProtection.h:658