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- /**
- * Copyright (c) 2012 - 2018, Nordic Semiconductor ASA
- *
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without modification,
- * are permitted provided that the following conditions are met:
- *
- * 1. Redistributions of source code must retain the above copyright notice, this
- * list of conditions and the following disclaimer.
- *
- * 2. Redistributions in binary form, except as embedded into a Nordic
- * Semiconductor ASA integrated circuit in a product or a software update for
- * such product, must reproduce the above copyright notice, this list of
- * conditions and the following disclaimer in the documentation and/or other
- * materials provided with the distribution.
- *
- * 3. Neither the name of Nordic Semiconductor ASA nor the names of its
- * contributors may be used to endorse or promote products derived from this
- * software without specific prior written permission.
- *
- * 4. This software, with or without modification, must only be used with a
- * Nordic Semiconductor ASA integrated circuit.
- *
- * 5. Any software provided in binary form under this license must not be reverse
- * engineered, decompiled, modified and/or disassembled.
- *
- * THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS
- * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
- * OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE
- * DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA OR CONTRIBUTORS BE
- * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
- * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
- * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
- * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
- * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
- * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- *
- */
- #ifndef NRF_ECB_H__
- #define NRF_ECB_H__
- #include <nrfx.h>
- #ifdef __cplusplus
- extern "C" {
- #endif
- /**
- * @defgroup nrf_ecb_drv AES ECB encryption driver
- * @{
- * @ingroup nrf_ecb
- * @brief Driver for the AES Electronic Code Book (ECB) peripheral.
- *
- * To encrypt data, the peripheral must first be powered on
- * using @ref nrf_ecb_init. Next, the key must be set using @ref nrf_ecb_set_key.
- */
- /**
- * @brief Function for initializing and powering on the ECB peripheral.
- *
- * This function allocates memory for the ECBDATAPTR.
- * @retval true If initialization was successful.
- * @retval false If powering on failed.
- */
- bool nrf_ecb_init(void);
- /**
- * @brief Function for encrypting 16-byte data using current key.
- *
- * This function avoids unnecessary copying of data if the parameters point to the
- * correct locations in the ECB data structure.
- *
- * @param dst Result of encryption, 16 bytes will be written.
- * @param src Source with 16-byte data to be encrypted.
- *
- * @retval true If the encryption operation completed.
- * @retval false If the encryption operation did not complete.
- */
- bool nrf_ecb_crypt(uint8_t * dst, const uint8_t * src);
- /**
- * @brief Function for setting the key to be used for encryption.
- *
- * @param key Pointer to the key. 16 bytes will be read.
- */
- void nrf_ecb_set_key(const uint8_t * key);
- /** @} */
- /**
- * @defgroup nrf_ecb_hal AES ECB encryption HAL
- * @{
- * @ingroup nrf_ecb
- * @brief Hardware access layer for managing the AES Electronic Codebook (ECB) peripheral.
- */
- /**
- * @brief ECB tasks.
- */
- typedef enum
- {
- /*lint -save -e30 -esym(628,__INTADDR__)*/
- NRF_ECB_TASK_STARTECB = offsetof(NRF_ECB_Type, TASKS_STARTECB), /**< Task for starting ECB block encryption. */
- NRF_ECB_TASK_STOPECB = offsetof(NRF_ECB_Type, TASKS_STOPECB), /**< Task for stopping ECB block encryption. */
- /*lint -restore*/
- } nrf_ecb_task_t;
- /**
- * @brief ECB events.
- */
- typedef enum
- {
- /*lint -save -e30*/
- NRF_ECB_EVENT_ENDECB = offsetof(NRF_ECB_Type, EVENTS_ENDECB), /**< ECB block encrypt complete. */
- NRF_ECB_EVENT_ERRORECB = offsetof(NRF_ECB_Type, EVENTS_ERRORECB), /**< ECB block encrypt aborted because of a STOPECB task or due to an error. */
- /*lint -restore*/
- } nrf_ecb_event_t;
- /**
- * @brief ECB interrupts.
- */
- typedef enum
- {
- NRF_ECB_INT_ENDECB_MASK = ECB_INTENSET_ENDECB_Msk, ///< Interrupt on ENDECB event.
- NRF_ECB_INT_ERRORECB_MASK = ECB_INTENSET_ERRORECB_Msk, ///< Interrupt on ERRORECB event.
- } nrf_ecb_int_mask_t;
- /**
- * @brief Function for activating a specific ECB task.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] task Task to activate.
- */
- __STATIC_INLINE void nrf_ecb_task_trigger(NRF_ECB_Type * p_reg, nrf_ecb_task_t task);
- /**
- * @brief Function for getting the address of a specific ECB task register.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] task Requested task.
- *
- * @return Address of the specified task register.
- */
- __STATIC_INLINE uint32_t nrf_ecb_task_address_get(NRF_ECB_Type const * p_reg,
- nrf_ecb_task_t task);
- /**
- * @brief Function for clearing a specific ECB event.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] event Event to clear.
- */
- __STATIC_INLINE void nrf_ecb_event_clear(NRF_ECB_Type * p_reg, nrf_ecb_event_t event);
- /**
- * @brief Function for checking the state of a specific ECB event.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] event Event to check.
- *
- * @retval true If the event is set.
- * @retval false If the event is not set.
- */
- __STATIC_INLINE bool nrf_ecb_event_check(NRF_ECB_Type const * p_reg, nrf_ecb_event_t event);
- /**
- * @brief Function for getting the address of a specific ECB event register.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] event Requested event.
- *
- * @return Address of the specified event register.
- */
- __STATIC_INLINE uint32_t nrf_ecb_event_address_get(NRF_ECB_Type const * p_reg,
- nrf_ecb_event_t event);
- /**
- * @brief Function for enabling specified interrupts.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] mask Interrupts to enable.
- */
- __STATIC_INLINE void nrf_ecb_int_enable(NRF_ECB_Type * p_reg, uint32_t mask);
- /**
- * @brief Function for disabling specified interrupts.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] mask Interrupts to disable.
- */
- __STATIC_INLINE void nrf_ecb_int_disable(NRF_ECB_Type * p_reg, uint32_t mask);
- /**
- * @brief Function for retrieving the state of a given interrupt.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] ecb_int Interrupt to check.
- *
- * @retval true If the interrupt is enabled.
- * @retval false If the interrupt is not enabled.
- */
- __STATIC_INLINE bool nrf_ecb_int_enable_check(NRF_ECB_Type const * p_reg,
- nrf_ecb_int_mask_t ecb_int);
- /**
- * @brief Function for setting the pointer to the ECB data buffer.
- *
- * @note The buffer has to be placed in the Data RAM region.
- * For description of the data structure in this buffer, see the Product Specification.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- * @param[in] p_buffer Pointer to the ECB data buffer.
- */
- __STATIC_INLINE void nrf_ecb_data_pointer_set(NRF_ECB_Type * p_reg, void const * p_buffer);
- /**
- * @brief Function for getting the pointer to the ECB data buffer.
- *
- * @param[in] p_reg Pointer to the peripheral register structure.
- *
- * @return Pointer to the ECB data buffer.
- */
- __STATIC_INLINE void * nrf_ecb_data_pointer_get(NRF_ECB_Type const * p_reg);
- #ifndef SUPPRESS_INLINE_IMPLEMENTATION
- __STATIC_INLINE void nrf_ecb_task_trigger(NRF_ECB_Type * p_reg, nrf_ecb_task_t task)
- {
- *((volatile uint32_t *)((uint8_t *)p_reg + (uint32_t)task)) = 0x1UL;
- }
- __STATIC_INLINE uint32_t nrf_ecb_task_address_get(NRF_ECB_Type const * p_reg,
- nrf_ecb_task_t task)
- {
- return ((uint32_t)p_reg + (uint32_t)task);
- }
- __STATIC_INLINE void nrf_ecb_event_clear(NRF_ECB_Type * p_reg, nrf_ecb_event_t event)
- {
- *((volatile uint32_t *)((uint8_t *)p_reg + (uint32_t)event)) = 0x0UL;
- #if __CORTEX_M == 0x04
- volatile uint32_t dummy = *((volatile uint32_t *)((uint8_t *)p_reg + (uint32_t)event));
- (void)dummy;
- #endif
- }
- __STATIC_INLINE bool nrf_ecb_event_check(NRF_ECB_Type const * p_reg, nrf_ecb_event_t event)
- {
- return (bool)*(volatile uint32_t *)((uint8_t *)p_reg + (uint32_t)event);
- }
- __STATIC_INLINE uint32_t nrf_ecb_event_address_get(NRF_ECB_Type const * p_reg,
- nrf_ecb_event_t event)
- {
- return ((uint32_t)p_reg + (uint32_t)event);
- }
- __STATIC_INLINE void nrf_ecb_int_enable(NRF_ECB_Type * p_reg, uint32_t mask)
- {
- p_reg->INTENSET = mask;
- }
- __STATIC_INLINE void nrf_ecb_int_disable(NRF_ECB_Type * p_reg, uint32_t mask)
- {
- p_reg->INTENCLR = mask;
- }
- __STATIC_INLINE bool nrf_ecb_int_enable_check(NRF_ECB_Type const * p_reg,
- nrf_ecb_int_mask_t ecb_int)
- {
- return (bool)(p_reg->INTENSET & ecb_int);
- }
- __STATIC_INLINE void nrf_ecb_data_pointer_set(NRF_ECB_Type * p_reg, void const * p_buffer)
- {
- p_reg->ECBDATAPTR = (uint32_t)p_buffer;
- }
- __STATIC_INLINE void * nrf_ecb_data_pointer_get(NRF_ECB_Type const * p_reg)
- {
- return (void *)(p_reg->ECBDATAPTR);
- }
- #endif // SUPPRESS_INLINE_IMPLEMENTATION
- /** @} */
- #ifdef __cplusplus
- }
- #endif
- #endif // NRF_ECB_H__
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