secure_fw/partitions/crypto/crypto_aead.c - TF-M/trusted-firmware-m - TrustedFirmware Git Browser

 /*
  * Copyright (c) 2019-2021, Arm Limited. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  *
  */

 #include <stddef.h>
 #include <stdint.h>

 #include "tfm_mbedcrypto_include.h"

 #include "tfm_crypto_api.h"
 #include "tfm_crypto_defs.h"
 #include "tfm_crypto_private.h"

 /*!
  * \defgroup public_psa Public functions, PSA
  *
  */

 /*!@{*/
 psa_status_t tfm_crypto_aead_encrypt(psa_invec in_vec[],
                                      size_t in_len,
                                      psa_outvec out_vec[],
                                      size_t out_len)
 {
 #ifdef TFM_CRYPTO_AEAD_MODULE_DISABLED
     return PSA_ERROR_NOT_SUPPORTED;
 #else
     psa_status_t status = PSA_SUCCESS;

     CRYPTO_IN_OUT_LEN_VALIDATE(in_len, 1, 3, out_len, 0, 1);

     if ((in_vec[0].len != sizeof(struct tfm_crypto_pack_iovec))) {
         return PSA_ERROR_PROGRAMMER_ERROR;
     }

     const struct tfm_crypto_pack_iovec *iov = in_vec[0].base;
     const struct tfm_crypto_aead_pack_input *aead_pack_input = &iov->aead_in;
     psa_key_id_t key_id = iov->key_id;
     psa_algorithm_t alg = iov->alg;
     const uint8_t *nonce = aead_pack_input->nonce;
     size_t nonce_length = aead_pack_input->nonce_length;
     const uint8_t *plaintext = in_vec[1].base;
     size_t plaintext_length = in_vec[1].len;
     uint8_t *ciphertext = out_vec[0].base;
     size_t ciphertext_size = out_vec[0].len;
     const uint8_t *additional_data = in_vec[2].base;
     size_t additional_data_length = in_vec[2].len;
     mbedtls_svc_key_id_t encoded_key;

     /* Initialise ciphertext_length to zero. */
     out_vec[0].len = 0;

     status = tfm_crypto_encode_id_and_owner(key_id, &encoded_key);
     if (status != PSA_SUCCESS) {
         return status;
     }

     return psa_aead_encrypt(encoded_key, alg, nonce, nonce_length,
                             additional_data, additional_data_length,
                             plaintext, plaintext_length,
                             ciphertext, ciphertext_size, &out_vec[0].len);
 #endif /* TFM_CRYPTO_AEAD_MODULE_DISABLED */
 }

 psa_status_t tfm_crypto_aead_decrypt(psa_invec in_vec[],
                                      size_t in_len,
                                      psa_outvec out_vec[],
                                      size_t out_len)
 {
 #ifdef TFM_CRYPTO_AEAD_MODULE_DISABLED
     return PSA_ERROR_NOT_SUPPORTED;
 #else
     psa_status_t status = PSA_SUCCESS;

     CRYPTO_IN_OUT_LEN_VALIDATE(in_len, 1, 3, out_len, 0, 1);

     if ((in_vec[0].len != sizeof(struct tfm_crypto_pack_iovec))) {
         return PSA_ERROR_PROGRAMMER_ERROR;
     }

     const struct tfm_crypto_pack_iovec *iov = in_vec[0].base;
     const struct tfm_crypto_aead_pack_input *aead_pack_input = &iov->aead_in;
     psa_key_id_t key_id = iov->key_id;
     psa_algorithm_t alg = iov->alg;
     const uint8_t *nonce = aead_pack_input->nonce;
     size_t nonce_length = aead_pack_input->nonce_length;
     const uint8_t *ciphertext = in_vec[1].base;
     size_t ciphertext_length = in_vec[1].len;
     uint8_t *plaintext = out_vec[0].base;
     size_t plaintext_size = out_vec[0].len;
     const uint8_t *additional_data = in_vec[2].base;
     size_t additional_data_length = in_vec[2].len;
     mbedtls_svc_key_id_t encoded_key;

     /* Initialise plaintext_length to zero. */
     out_vec[0].len = 0;

     status = tfm_crypto_encode_id_and_owner(key_id, &encoded_key);
     if (status != PSA_SUCCESS) {
         return status;
     }

     return psa_aead_decrypt(encoded_key, alg, nonce, nonce_length,
                             additional_data, additional_data_length,
                             ciphertext, ciphertext_length,
                             plaintext, plaintext_size, &out_vec[0].len);
 #endif /* TFM_CRYPTO_AEAD_MODULE_DISABLED */
 }

 psa_status_t tfm_crypto_aead_encrypt_setup(psa_invec in_vec[],
                                            size_t in_len,
                                            psa_outvec out_vec[],
                                            size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_decrypt_setup(psa_invec in_vec[],
                                            size_t in_len,
                                            psa_outvec out_vec[],
                                            size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_abort(psa_invec in_vec[],
                                    size_t in_len,
                                    psa_outvec out_vec[],
                                    size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_finish(psa_invec in_vec[],
                                     size_t in_len,
                                     psa_outvec out_vec[],
                                     size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_generate_nonce(psa_invec in_vec[],
                                             size_t in_len,
                                             psa_outvec out_vec[],
                                             size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_set_nonce(psa_invec in_vec[],
                                        size_t in_len,
                                        psa_outvec out_vec[],
                                        size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_set_lengths(psa_invec in_vec[],
                                          size_t in_len,
                                          psa_outvec out_vec[],
                                          size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_update(psa_invec in_vec[],
                                     size_t in_len,
                                     psa_outvec out_vec[],
                                     size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_update_ad(psa_invec in_vec[],
                                        size_t in_len,
                                        psa_outvec out_vec[],
                                        size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }

 psa_status_t tfm_crypto_aead_verify(psa_invec in_vec[],
                                     size_t in_len,
                                     psa_outvec out_vec[],
                                     size_t out_len)
 {
     /* FixMe: To be implemented */
     return PSA_ERROR_NOT_SUPPORTED;
 }
 /*!@}*/
	/*
	* Copyright (c) 2019-2021, Arm Limited. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*
	*/

	#include <stddef.h>
	#include <stdint.h>

	#include "tfm_mbedcrypto_include.h"

	#include "tfm_crypto_api.h"
	#include "tfm_crypto_defs.h"
	#include "tfm_crypto_private.h"

	/*!
	* \defgroup public_psa Public functions, PSA
	*
	*/

	/!@{/
	psa_status_t tfm_crypto_aead_encrypt(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	#ifdef TFM_CRYPTO_AEAD_MODULE_DISABLED
	return PSA_ERROR_NOT_SUPPORTED;
	#else
	psa_status_t status = PSA_SUCCESS;

	CRYPTO_IN_OUT_LEN_VALIDATE(in_len, 1, 3, out_len, 0, 1);

	if ((in_vec[0].len != sizeof(struct tfm_crypto_pack_iovec))) {
	return PSA_ERROR_PROGRAMMER_ERROR;
	}

	const struct tfm_crypto_pack_iovec *iov = in_vec[0].base;
	const struct tfm_crypto_aead_pack_input *aead_pack_input = &iov->aead_in;
	psa_key_id_t key_id = iov->key_id;
	psa_algorithm_t alg = iov->alg;
	const uint8_t *nonce = aead_pack_input->nonce;
	size_t nonce_length = aead_pack_input->nonce_length;
	const uint8_t *plaintext = in_vec[1].base;
	size_t plaintext_length = in_vec[1].len;
	uint8_t *ciphertext = out_vec[0].base;
	size_t ciphertext_size = out_vec[0].len;
	const uint8_t *additional_data = in_vec[2].base;
	size_t additional_data_length = in_vec[2].len;
	mbedtls_svc_key_id_t encoded_key;

	/* Initialise ciphertext_length to zero. */
	out_vec[0].len = 0;

	status = tfm_crypto_encode_id_and_owner(key_id, &encoded_key);
	if (status != PSA_SUCCESS) {
	return status;
	}

	return psa_aead_encrypt(encoded_key, alg, nonce, nonce_length,
	additional_data, additional_data_length,
	plaintext, plaintext_length,
	ciphertext, ciphertext_size, &out_vec[0].len);
	#endif /* TFM_CRYPTO_AEAD_MODULE_DISABLED */
	}

	psa_status_t tfm_crypto_aead_decrypt(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	#ifdef TFM_CRYPTO_AEAD_MODULE_DISABLED
	return PSA_ERROR_NOT_SUPPORTED;
	#else
	psa_status_t status = PSA_SUCCESS;

	CRYPTO_IN_OUT_LEN_VALIDATE(in_len, 1, 3, out_len, 0, 1);

	if ((in_vec[0].len != sizeof(struct tfm_crypto_pack_iovec))) {
	return PSA_ERROR_PROGRAMMER_ERROR;
	}

	const struct tfm_crypto_pack_iovec *iov = in_vec[0].base;
	const struct tfm_crypto_aead_pack_input *aead_pack_input = &iov->aead_in;
	psa_key_id_t key_id = iov->key_id;
	psa_algorithm_t alg = iov->alg;
	const uint8_t *nonce = aead_pack_input->nonce;
	size_t nonce_length = aead_pack_input->nonce_length;
	const uint8_t *ciphertext = in_vec[1].base;
	size_t ciphertext_length = in_vec[1].len;
	uint8_t *plaintext = out_vec[0].base;
	size_t plaintext_size = out_vec[0].len;
	const uint8_t *additional_data = in_vec[2].base;
	size_t additional_data_length = in_vec[2].len;
	mbedtls_svc_key_id_t encoded_key;

	/* Initialise plaintext_length to zero. */
	out_vec[0].len = 0;

	status = tfm_crypto_encode_id_and_owner(key_id, &encoded_key);
	if (status != PSA_SUCCESS) {
	return status;
	}

	return psa_aead_decrypt(encoded_key, alg, nonce, nonce_length,
	additional_data, additional_data_length,
	ciphertext, ciphertext_length,
	plaintext, plaintext_size, &out_vec[0].len);
	#endif /* TFM_CRYPTO_AEAD_MODULE_DISABLED */
	}

	psa_status_t tfm_crypto_aead_encrypt_setup(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_decrypt_setup(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_abort(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_finish(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_generate_nonce(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_set_nonce(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_set_lengths(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_update(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_update_ad(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}

	psa_status_t tfm_crypto_aead_verify(psa_invec in_vec[],
	size_t in_len,
	psa_outvec out_vec[],
	size_t out_len)
	{
	/* FixMe: To be implemented */
	return PSA_ERROR_NOT_SUPPORTED;
	}
	/!@}/