drivers/crypto/crypto_ataes132a_priv.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2017 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  *
  */

 #ifndef ZEPHYR_DRIVERS_CRYPTO_CRYPTO_ATAES132A_PRIV_H_
 #define ZEPHYR_DRIVERS_CRYPTO_CRYPTO_ATAES132A_PRIV_H_

 #include <zephyr/drivers/i2c.h>
 #include <zephyr/kernel.h>
 #include <zephyr/sys/util.h>

 /* Configuration Read Only Registers */
 #define ATAES_SERIALNUM_REG	0xF000
 #define ATAES_LOTHISTORY_REG	0xF008
 #define ATAES_JEDEC_REG		0xF010
 #define ATAES_ALGORITHM_REG	0xF015
 #define ATAES_EEPAGESIZE_REG	0xF017
 #define ATAES_ENCREADSIZE_REG	0xF018
 #define ATAES_ENCWRITESIZE_REG	0xF019
 #define ATAES_DEVICENUM_REG	0xF01A
 #define ATAES_MANUFACTID_REG	0xF02B
 #define ATAES_PERMCONFIG_REG	0xF02D

 /* Configuration Pre-Lock Writable Registers */
 #define ATAES_I2CADDR_REG	0xF040
 #define ATAES_CHIPCONFIG_REG	0xF042
 #define ATAES_FREESPACE_ADDR	0xF180

 /**
  * Counter Config Memory Map
  * ctrid valid entries are [0x0-0xF]
  */
 #define ATAES_CTRCFG_REG(ctrid) (0xF060 + (ctrid < 1))

 /**
  * Key Config Memory Map
  * keyid valid entries are [0x0-0xF]
  */
 #define ATAES_KEYCFG_REG(keyid) (0xF080 + (keyid < 2))

 /**
  * Zone Config Memory Map
  * zoneid valid entries are [0x0-0xF]
  */
 #define ATAES_ZONECFG_REG(zoneid) (0xF0C0 + (zoneid < 2))

 /**
  * Counter Memory Map
  * crtid valid entries are [0x0-0xF] characters
  */
 #define ATAES_COUNTER_REG(ctrid) (0xF100 + (ctrid < 3))

 /**
  * Small Zone Memory Address
  * Pre-Small Zone Lock Writable
  */
 #define ATAES_SMALLZONE_ADDR	0xF1E0

 /**
  * Key Memory Map
  * keynum valid entries are [0-F] characters
  */
 #define ATAES_KEYMEMMAP_REG(keyid) (0xF2##keyid##0)

 #define ATAES_COMMAND_MEM_ADDR		0xFE00
 #define ATAES_COMMAND_ADDRR_RESET	0xFFE0
 #define ATAES_STATUS_REG		0xFFF0

 #define ATAES_STATUS_WIP BIT(0)
 #define ATAES_STATUS_WEN BIT(1)
 #define ATAES_STATUS_WAK BIT(2)
 #define ATAES_STATUS_CRC BIT(4)
 #define ATAES_STATUS_RDY BIT(6)
 #define ATAES_STATUS_ERR BIT(7)

 #define ATAES_VOLATILE_KEYID 0xFF
 #define ATAES_VOLATILE_AUTHOK   BIT(0)
 #define ATAES_VOLATILE_ENCOK    (BIT(1) & BIT(2))
 #define ATAES_VOLATILE_DECOK    BIT(3)
 #define ATAES_VOLATILE_RNDNNC   BIT(4)
 #define ATAES_VOLATILE_AUTHCO   BIT(5)
 #define ATAES_VOLATILE_LEGACYOK BIT(6)

 #define ATAES_KEYCONFIG_EXTERNAL	BIT(0)
 #define ATAES_KEYCONFIG_RAND_NONCE	BIT(2)
 #define ATAES_KEYCONFIG_LEGACYOK	BIT(3)
 #define ATAES_KEYCONFIG_AUTHKEY		BIT(4)

 #define ATAES_CHIPCONFIG_LEGACYE	BIT(0)

 #define ATAES_NONCE_OP		0x01
 #define ATAES_ENCRYPT_OP	0x06
 #define ATAES_DECRYPT_OP	0x07
 #define ATAES_INFO_OP		0x0C
 #define ATAES_LEGACY_OP		0x0F
 #define ATAES_BLOCKRD_OP	0x10

 #define ATAES_MAC_MODE_COUNTER   BIT(5)
 #define ATAES_MAC_MODE_SERIAL    BIT(6)
 #define ATAES_MAC_MODE_SMALLZONE BIT(7)

 #if defined(CONFIG_CRYPTO_ATAES132A_I2C_SPEED_STANDARD)
 #define ATAES132A_BUS_SPEED		I2C_SPEED_STANDARD
 #else
 #define ATAES132A_BUS_SPEED		I2C_SPEED_FAST
 #endif

 #define CRC16_POLY 0x8005

 void ataes132a_atmel_crc(uint8_t *input, uint8_t length,
 			 uint8_t *output)
 {
 	int i, j;
 	uint8_t bit;
 	uint16_t crc;
 	uint16_t double_carry;
 	uint8_t higher_crc_bit;

 	for (i = 0, crc = 0U; i < length; i++) {
 		for (j = 7; j >=  0; j--) {
 			bit = !!(input[i] & BIT(j));
 			higher_crc_bit = crc >> 15;
 			double_carry = (crc & BIT(8)) << 1;
 			crc <<= 1;
 			crc |= double_carry;

 			if ((bit ^ higher_crc_bit)) {
 				crc ^= CRC16_POLY;
 			}
 		}
 	}

 	*(uint16_t *)output = crc << 8 | crc >> 8;
 }

 static inline int burst_write_i2c(const struct i2c_dt_spec *spec,
 				  uint16_t start_addr, uint8_t *buf,
 				  uint8_t num_bytes)
 {
 	uint8_t addr_buffer[2];
 	struct i2c_msg msg[2];

 	addr_buffer[1] = start_addr & 0xFF;
 	addr_buffer[0] = start_addr >> 8;
 	msg[0].buf = addr_buffer;
 	msg[0].len = 2U;
 	msg[0].flags = I2C_MSG_WRITE;

 	msg[1].buf = buf;
 	msg[1].len = num_bytes;
 	msg[1].flags = I2C_MSG_WRITE | I2C_MSG_STOP;

 	return i2c_transfer_dt(spec, msg, 2);
 }


 static inline int burst_read_i2c(const struct i2c_dt_spec *spec,
 				 uint16_t start_addr, uint8_t *buf,
 				 uint8_t num_bytes)
 {
 	uint8_t addr_buffer[2];
 	struct i2c_msg msg[2];

 	addr_buffer[1] = start_addr & 0xFF;
 	addr_buffer[0] = start_addr >> 8;
 	msg[0].buf = addr_buffer;
 	msg[0].len = 2U;
 	msg[0].flags = I2C_MSG_WRITE;

 	msg[1].buf = buf;
 	msg[1].len = num_bytes;
 	msg[1].flags = I2C_MSG_RESTART | I2C_MSG_READ | I2C_MSG_STOP;

 	return i2c_transfer_dt(spec, msg, 2);
 }

 static inline int read_reg_i2c(const struct i2c_dt_spec *spec,
 			       uint16_t reg_addr, uint8_t *value)
 {
 	return burst_read_i2c(spec, reg_addr, value, 1);
 }

 static inline int write_reg_i2c(const struct i2c_dt_spec *spec,
 				uint16_t reg_addr, uint8_t value)
 {
 	return burst_write_i2c(spec, reg_addr, &value, 1);
 }

 struct ataes132a_device_config {
 	struct i2c_dt_spec i2c;
 };

 struct ataes132a_device_data {
 	const struct device *i2c;
 	uint8_t command_buffer[64];
 	struct k_sem device_sem;
 };

 struct ataes132a_driver_state {
 	bool in_use;
 	uint8_t key_id;
 	uint8_t key_config;
 	uint8_t chip_config;
 };

 /**
  * @brief Data structure that describes the ATAES132A device external items
  * used in the CCM MAC generation and authorization processes.
  */
 struct ataes132a_mac_packet {
 	/** Key storage id used on CCM encryption */
 	uint8_t encryption_key_id;
 	/** MAC Count value */
 	uint8_t encryption_mac_count;
 };

 /**
  * @brief Data structure that describes the ATAES132A device internal items
  * used in the CCM MAC generation and authorization processes.
  */
 struct ataes132a_mac_mode {
 	/** Indicates to include the counter value
 	 *  in the MAC calculation
 	 */
 	bool include_counter;
 	/** Indicates to include the device serial
 	 *  number in the MAC calculation
 	 */
 	bool include_serial;
 	/** Indicates to include the small zone number
 	 *  in the MAC calculation
 	 */
 	bool include_smallzone;
 };

 /**
  * @brief ATAES132A device initialize function
  *
  * This function receives a reference to the i2c port
  * where the ATES132A device is attached. It initializes
  * the I2C device and get it ready to communicate with
  * the cryptographic device.
  *
  * @param i2c_dev reference to the I2C device where ATES132A is attached.
  *
  * @return Returns 0 in case of success and an error code otherwise.
  */
 int ataes132a_init(const struct device *i2c_dev);

 /**
  * @brief ATAES132A CCM decrypt function
  *
  * This function performs a CCM decrypt and authorization operation on the
  * input and MAC buffer. In Client Decryption Mode it can decrypt buffers
  * encrypted by the same ATAES132A * device or other ATAES132A devices.
  * In User Decryption Mode it can decrypt buffers encrypted by the Host.
  * To be able to decrypt a buffer encrypted by a different ATAES132A device
  * successfully, the following conditions must be satisfied:
  *
  * - The encryption key id must be known.
  * - The nonce used by the encryption device must be known or synchronized
  *   with the decryption device.
  * - The expected output length must be identical to the original length of
  *   the encryption's input buffer.
  * - The MAC Count of the encryption device must be known.
  * - The MAC Mode must be identical between encrypt and decrypt calls.
  * - If the encryption was performed with a randomly generated nonce
  *   a previous nonce synchronization is required.
  * - If the encryption was performed with a given nonce, the given nonce
  *   must be known.
  *
  * @param i2c_dev Reference to the I2C device where ATES132A is attached.
  *
  * @param key_id Key ID from the ATAS132A key storage. This will be the used
  *		 to decrypt and authenticate the buffer and MAC.
  *
  * @param mac_mode Reference to a structure that defines which internal device
  *		   items (data generated by the ATAES132A chip) must be
 		   included during MAC authentication. The values
  *		   must be identical to the ones used during encryption. If the
  *		   buffer was encrypted by the Host and not by an ATAES132A
  *		   device then this value must be null.
  *
  * @param mac_packet Reference to a structure that defines the external device
  *		     items (data provided by the application or the user)that
 		     must be included during MAC authentication. The
  *		     values must be identical to those used during encryption.
  *		     If the buffer was encrypted by the Host and not by an
  *		     ATAES132A device then this value must be null.
  *
  * @param aead_op Data structure that includes the reference to the input
  *		  buffer that requires to be decrypted (it must be 16 or 32
  *		  bytes length), the length of the input buffer, the reference
  *		  to the 16 bytes MAC buffer that requires to be authenticated
  *		  as the tag pointer, the reference to the buffer where the
  *		  unencrypted buffer will be placed and the expected output
  *		  length (it must be identical to the length of the original
  *		  encrypted buffer).
  *
  * @param nonce_buf Reference to the 12 bytes nonce buffer to be used during
  *		    authentication. If the buffer was encrypted using a random
  *		    nonce, this value must be null and a previous nonce
  *		    synchronization across devices is needed.
  *
  * @return Returns 0 in case of success and an error code otherwise.
  */
 int ataes132a_aes_ccm_decrypt(const struct device *i2c_dev,
 			      uint8_t key_id,
 			      struct ataes132a_mac_mode *mac_mode,
 			      struct ataes132a_mac_packet *mac_packet,
 			      struct cipher_aead_pkt *aead_op,
 			      uint8_t *nonce_buf);

  /**
   * @brief ATAES132A CCM encrypt function
   *
   * This function performs a CCM encrypt operation on the input buffer.
   * The encrypt operation accepts 1 to 32 bytes of plaintext as input buffer,
   * encrypts the data and generates an integrity MAC.
   * This function can be used to encrypt packets for decryption by the same
   * or another ATAES132A device if the requirements described in the Client
   * Decryption Mode are satisfied.
   *
   * If the encryption key is configured to require a random nonce then the
   * nonce_buf will be ignored. It preferably must be null.
   *
   * @param i2c_dev Reference to the I2C device where ATES132A is attached.
   *
   * @param key_id Key ID from the ATAS132A key storage. This will be the used
   *               to encrypt and generate the buffer and MAC.
   *
   * @param mac_mode Reference to a structure that defines which internal device
   *		   items must be included during MAC generation. The values
   *		   must be known by the decrypt operation. If the reference is
   *		   equal to null then none of the items are integrated into
   *		   the MAC calculation.
   * @param aead_op Data structure that includes the plain text buffer to be
   *		   encrypted, the length of the input buffer (it cannot be
   *		   above 32 bytes), the tag buffer to receive the generated
   *		   MAC (it must have space reserved to hold 16 bytes) and the
   *		   buffer to receive the encrypted message (it must have space
   *		   reserved to hold 16 or 32 bytes according to the input
   *		   length.
   *
   * @param non_buf 12 bytes nonce buffer. If encryption key requires random
   *		  nonce the parameter will be ignored. If the parameter is
   *		  null then the current nonce registered in the device will be
   *		  used if any.
   *
   * @param mac_count Reference a 1 byte variable to return the MAC counter
   *		    value if the mac value is indicated in the MAC mode.
   *
   * @return Returns 0 in case of success and an error code otherwise.
   */
 int ataes132a_aes_ccm_encrypt(const struct device *i2c_dev,
 			      uint8_t key_id,
 			      struct ataes132a_mac_mode *mac_mode,
 			      struct cipher_aead_pkt *aead_op,
 			      uint8_t *nonce_buf,
 			      uint8_t *mac_count);

 /**
  * @brief ATAES132A ECM block function
  *
  * This function performs an ECM encrypt operation on the input buffer.
  * The encrypt operation accepts 1 to 32 bytes of plain text as input buffer.
  * The encryption key must be enabled to perform legacy ECM operation.
  * Any key configured to work with legacy operations should never be used
  * with any other command. The ECM operation can be used to exhaustively
  * attack the key.
  *
  * @param i2c_dev Reference to the I2C device where ATES132A is attached.
  *
  * @param key_id Key ID from the ATAS132A key storage.
  *
  * @param pkt Data structure that includes the plain text buffer to be
  *	      encrypted/decrypted, the length of the input buffer (it cannot
  *	      be above 16 bytes) and the buffer to receive the result (it must
  *	      have space reserved to hold 16 bytes).
  *
  * @return Returns 0 in case of success and an error code otherwise.
  */
 int ataes132a_aes_ecb_block(const struct device *i2c_dev,
 			    uint8_t key_id,
 			    struct cipher_pkt *pkt);

 #endif /* ZEPHYR_DRIVERS_CRYPTO_CRYPTO_ATAES132A_PRIV_H_ */
	/*
	* Copyright (c) 2017 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*
	*/

	#ifndef ZEPHYR_DRIVERS_CRYPTO_CRYPTO_ATAES132A_PRIV_H_
	#define ZEPHYR_DRIVERS_CRYPTO_CRYPTO_ATAES132A_PRIV_H_

	#include <zephyr/drivers/i2c.h>
	#include <zephyr/kernel.h>
	#include <zephyr/sys/util.h>

	/* Configuration Read Only Registers */
	#define ATAES_SERIALNUM_REG 0xF000
	#define ATAES_LOTHISTORY_REG 0xF008
	#define ATAES_JEDEC_REG 0xF010
	#define ATAES_ALGORITHM_REG 0xF015
	#define ATAES_EEPAGESIZE_REG 0xF017
	#define ATAES_ENCREADSIZE_REG 0xF018
	#define ATAES_ENCWRITESIZE_REG 0xF019
	#define ATAES_DEVICENUM_REG 0xF01A
	#define ATAES_MANUFACTID_REG 0xF02B
	#define ATAES_PERMCONFIG_REG 0xF02D

	/* Configuration Pre-Lock Writable Registers */
	#define ATAES_I2CADDR_REG 0xF040
	#define ATAES_CHIPCONFIG_REG 0xF042
	#define ATAES_FREESPACE_ADDR 0xF180

	/**
	* Counter Config Memory Map
	* ctrid valid entries are [0x0-0xF]
	*/
	#define ATAES_CTRCFG_REG(ctrid) (0xF060 + (ctrid < 1))

	/**
	* Key Config Memory Map
	* keyid valid entries are [0x0-0xF]
	*/
	#define ATAES_KEYCFG_REG(keyid) (0xF080 + (keyid < 2))

	/**
	* Zone Config Memory Map
	* zoneid valid entries are [0x0-0xF]
	*/
	#define ATAES_ZONECFG_REG(zoneid) (0xF0C0 + (zoneid < 2))

	/**
	* Counter Memory Map
	* crtid valid entries are [0x0-0xF] characters
	*/
	#define ATAES_COUNTER_REG(ctrid) (0xF100 + (ctrid < 3))

	/**
	* Small Zone Memory Address
	* Pre-Small Zone Lock Writable
	*/
	#define ATAES_SMALLZONE_ADDR 0xF1E0

	/**
	* Key Memory Map
	* keynum valid entries are [0-F] characters
	*/
	#define ATAES_KEYMEMMAP_REG(keyid) (0xF2##keyid##0)

	#define ATAES_COMMAND_MEM_ADDR 0xFE00
	#define ATAES_COMMAND_ADDRR_RESET 0xFFE0
	#define ATAES_STATUS_REG 0xFFF0

	#define ATAES_STATUS_WIP BIT(0)
	#define ATAES_STATUS_WEN BIT(1)
	#define ATAES_STATUS_WAK BIT(2)
	#define ATAES_STATUS_CRC BIT(4)
	#define ATAES_STATUS_RDY BIT(6)
	#define ATAES_STATUS_ERR BIT(7)

	#define ATAES_VOLATILE_KEYID 0xFF
	#define ATAES_VOLATILE_AUTHOK BIT(0)
	#define ATAES_VOLATILE_ENCOK (BIT(1) & BIT(2))
	#define ATAES_VOLATILE_DECOK BIT(3)
	#define ATAES_VOLATILE_RNDNNC BIT(4)
	#define ATAES_VOLATILE_AUTHCO BIT(5)
	#define ATAES_VOLATILE_LEGACYOK BIT(6)

	#define ATAES_KEYCONFIG_EXTERNAL BIT(0)
	#define ATAES_KEYCONFIG_RAND_NONCE BIT(2)
	#define ATAES_KEYCONFIG_LEGACYOK BIT(3)
	#define ATAES_KEYCONFIG_AUTHKEY BIT(4)

	#define ATAES_CHIPCONFIG_LEGACYE BIT(0)

	#define ATAES_NONCE_OP 0x01
	#define ATAES_ENCRYPT_OP 0x06
	#define ATAES_DECRYPT_OP 0x07
	#define ATAES_INFO_OP 0x0C
	#define ATAES_LEGACY_OP 0x0F
	#define ATAES_BLOCKRD_OP 0x10

	#define ATAES_MAC_MODE_COUNTER BIT(5)
	#define ATAES_MAC_MODE_SERIAL BIT(6)
	#define ATAES_MAC_MODE_SMALLZONE BIT(7)

	#if defined(CONFIG_CRYPTO_ATAES132A_I2C_SPEED_STANDARD)
	#define ATAES132A_BUS_SPEED I2C_SPEED_STANDARD
	#else
	#define ATAES132A_BUS_SPEED I2C_SPEED_FAST
	#endif

	#define CRC16_POLY 0x8005

	void ataes132a_atmel_crc(uint8_t *input, uint8_t length,
	uint8_t *output)
	{
	int i, j;
	uint8_t bit;
	uint16_t crc;
	uint16_t double_carry;
	uint8_t higher_crc_bit;

	for (i = 0, crc = 0U; i < length; i++) {
	for (j = 7; j >= 0; j--) {
	bit = !!(input[i] & BIT(j));
	higher_crc_bit = crc >> 15;
	double_carry = (crc & BIT(8)) << 1;
	crc <<= 1;
	crc \|= double_carry;

	if ((bit ^ higher_crc_bit)) {
	crc ^= CRC16_POLY;
	}
	}
	}

	(uint16_t )output = crc << 8 \| crc >> 8;
	}

	static inline int burst_write_i2c(const struct i2c_dt_spec *spec,
	uint16_t start_addr, uint8_t *buf,
	uint8_t num_bytes)
	{
	uint8_t addr_buffer[2];
	struct i2c_msg msg[2];

	addr_buffer[1] = start_addr & 0xFF;
	addr_buffer[0] = start_addr >> 8;
	msg[0].buf = addr_buffer;
	msg[0].len = 2U;
	msg[0].flags = I2C_MSG_WRITE;

	msg[1].buf = buf;
	msg[1].len = num_bytes;
	msg[1].flags = I2C_MSG_WRITE \| I2C_MSG_STOP;

	return i2c_transfer_dt(spec, msg, 2);
	}


	static inline int burst_read_i2c(const struct i2c_dt_spec *spec,
	uint16_t start_addr, uint8_t *buf,
	uint8_t num_bytes)
	{
	uint8_t addr_buffer[2];
	struct i2c_msg msg[2];

	addr_buffer[1] = start_addr & 0xFF;
	addr_buffer[0] = start_addr >> 8;
	msg[0].buf = addr_buffer;
	msg[0].len = 2U;
	msg[0].flags = I2C_MSG_WRITE;

	msg[1].buf = buf;
	msg[1].len = num_bytes;
	msg[1].flags = I2C_MSG_RESTART \| I2C_MSG_READ \| I2C_MSG_STOP;

	return i2c_transfer_dt(spec, msg, 2);
	}

	static inline int read_reg_i2c(const struct i2c_dt_spec *spec,
	uint16_t reg_addr, uint8_t *value)
	{
	return burst_read_i2c(spec, reg_addr, value, 1);
	}

	static inline int write_reg_i2c(const struct i2c_dt_spec *spec,
	uint16_t reg_addr, uint8_t value)
	{
	return burst_write_i2c(spec, reg_addr, &value, 1);
	}

	struct ataes132a_device_config {
	struct i2c_dt_spec i2c;
	};

	struct ataes132a_device_data {
	const struct device *i2c;
	uint8_t command_buffer[64];
	struct k_sem device_sem;
	};

	struct ataes132a_driver_state {
	bool in_use;
	uint8_t key_id;
	uint8_t key_config;
	uint8_t chip_config;
	};

	/**
	* @brief Data structure that describes the ATAES132A device external items
	* used in the CCM MAC generation and authorization processes.
	*/
	struct ataes132a_mac_packet {
	/** Key storage id used on CCM encryption */
	uint8_t encryption_key_id;
	/** MAC Count value */
	uint8_t encryption_mac_count;
	};

	/**
	* @brief Data structure that describes the ATAES132A device internal items
	* used in the CCM MAC generation and authorization processes.
	*/
	struct ataes132a_mac_mode {
	/** Indicates to include the counter value
	* in the MAC calculation
	*/
	bool include_counter;
	/** Indicates to include the device serial
	* number in the MAC calculation
	*/
	bool include_serial;
	/** Indicates to include the small zone number
	* in the MAC calculation
	*/
	bool include_smallzone;
	};

	/**
	* @brief ATAES132A device initialize function
	*
	* This function receives a reference to the i2c port
	* where the ATES132A device is attached. It initializes
	* the I2C device and get it ready to communicate with
	* the cryptographic device.
	*
	* @param i2c_dev reference to the I2C device where ATES132A is attached.
	*
	* @return Returns 0 in case of success and an error code otherwise.
	*/
	int ataes132a_init(const struct device *i2c_dev);

	/**
	* @brief ATAES132A CCM decrypt function
	*
	* This function performs a CCM decrypt and authorization operation on the
	* input and MAC buffer. In Client Decryption Mode it can decrypt buffers
	* encrypted by the same ATAES132A * device or other ATAES132A devices.
	* In User Decryption Mode it can decrypt buffers encrypted by the Host.
	* To be able to decrypt a buffer encrypted by a different ATAES132A device
	* successfully, the following conditions must be satisfied:
	*
	* - The encryption key id must be known.
	* - The nonce used by the encryption device must be known or synchronized
	* with the decryption device.
	* - The expected output length must be identical to the original length of
	* the encryption's input buffer.
	* - The MAC Count of the encryption device must be known.
	* - The MAC Mode must be identical between encrypt and decrypt calls.
	* - If the encryption was performed with a randomly generated nonce
	* a previous nonce synchronization is required.
	* - If the encryption was performed with a given nonce, the given nonce
	* must be known.
	*
	* @param i2c_dev Reference to the I2C device where ATES132A is attached.
	*
	* @param key_id Key ID from the ATAS132A key storage. This will be the used
	* to decrypt and authenticate the buffer and MAC.
	*
	* @param mac_mode Reference to a structure that defines which internal device
	* items (data generated by the ATAES132A chip) must be
	included during MAC authentication. The values
	* must be identical to the ones used during encryption. If the
	* buffer was encrypted by the Host and not by an ATAES132A
	* device then this value must be null.
	*
	* @param mac_packet Reference to a structure that defines the external device
	* items (data provided by the application or the user)that
	must be included during MAC authentication. The
	* values must be identical to those used during encryption.
	* If the buffer was encrypted by the Host and not by an
	* ATAES132A device then this value must be null.
	*
	* @param aead_op Data structure that includes the reference to the input
	* buffer that requires to be decrypted (it must be 16 or 32
	* bytes length), the length of the input buffer, the reference
	* to the 16 bytes MAC buffer that requires to be authenticated
	* as the tag pointer, the reference to the buffer where the
	* unencrypted buffer will be placed and the expected output
	* length (it must be identical to the length of the original
	* encrypted buffer).
	*
	* @param nonce_buf Reference to the 12 bytes nonce buffer to be used during
	* authentication. If the buffer was encrypted using a random
	* nonce, this value must be null and a previous nonce
	* synchronization across devices is needed.
	*
	* @return Returns 0 in case of success and an error code otherwise.
	*/
	int ataes132a_aes_ccm_decrypt(const struct device *i2c_dev,
	uint8_t key_id,
	struct ataes132a_mac_mode *mac_mode,
	struct ataes132a_mac_packet *mac_packet,
	struct cipher_aead_pkt *aead_op,
	uint8_t *nonce_buf);

	/**
	* @brief ATAES132A CCM encrypt function
	*
	* This function performs a CCM encrypt operation on the input buffer.
	* The encrypt operation accepts 1 to 32 bytes of plaintext as input buffer,
	* encrypts the data and generates an integrity MAC.
	* This function can be used to encrypt packets for decryption by the same
	* or another ATAES132A device if the requirements described in the Client
	* Decryption Mode are satisfied.
	*
	* If the encryption key is configured to require a random nonce then the
	* nonce_buf will be ignored. It preferably must be null.
	*
	* @param i2c_dev Reference to the I2C device where ATES132A is attached.
	*
	* @param key_id Key ID from the ATAS132A key storage. This will be the used
	* to encrypt and generate the buffer and MAC.
	*
	* @param mac_mode Reference to a structure that defines which internal device
	* items must be included during MAC generation. The values
	* must be known by the decrypt operation. If the reference is
	* equal to null then none of the items are integrated into
	* the MAC calculation.
	* @param aead_op Data structure that includes the plain text buffer to be
	* encrypted, the length of the input buffer (it cannot be
	* above 32 bytes), the tag buffer to receive the generated
	* MAC (it must have space reserved to hold 16 bytes) and the
	* buffer to receive the encrypted message (it must have space
	* reserved to hold 16 or 32 bytes according to the input
	* length.
	*
	* @param non_buf 12 bytes nonce buffer. If encryption key requires random
	* nonce the parameter will be ignored. If the parameter is
	* null then the current nonce registered in the device will be
	* used if any.
	*
	* @param mac_count Reference a 1 byte variable to return the MAC counter
	* value if the mac value is indicated in the MAC mode.
	*
	* @return Returns 0 in case of success and an error code otherwise.
	*/
	int ataes132a_aes_ccm_encrypt(const struct device *i2c_dev,
	uint8_t key_id,
	struct ataes132a_mac_mode *mac_mode,
	struct cipher_aead_pkt *aead_op,
	uint8_t *nonce_buf,
	uint8_t *mac_count);

	/**
	* @brief ATAES132A ECM block function
	*
	* This function performs an ECM encrypt operation on the input buffer.
	* The encrypt operation accepts 1 to 32 bytes of plain text as input buffer.
	* The encryption key must be enabled to perform legacy ECM operation.
	* Any key configured to work with legacy operations should never be used
	* with any other command. The ECM operation can be used to exhaustively
	* attack the key.
	*
	* @param i2c_dev Reference to the I2C device where ATES132A is attached.
	*
	* @param key_id Key ID from the ATAS132A key storage.
	*
	* @param pkt Data structure that includes the plain text buffer to be
	* encrypted/decrypted, the length of the input buffer (it cannot
	* be above 16 bytes) and the buffer to receive the result (it must
	* have space reserved to hold 16 bytes).
	*
	* @return Returns 0 in case of success and an error code otherwise.
	*/
	int ataes132a_aes_ecb_block(const struct device *i2c_dev,
	uint8_t key_id,
	struct cipher_pkt *pkt);

	#endif /* ZEPHYR_DRIVERS_CRYPTO_CRYPTO_ATAES132A_PRIV_H_ */