/* Copyright (c) 2015 Nordic Semiconductor. All Rights Reserved. * * The information contained herein is property of Nordic Semiconductor ASA. * Terms and conditions of usage are described in detail in NORDIC * SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT. * * Licensees are granted free, non-transferable use of the information. NO * WARRANTY of ANY KIND is provided. This heading must NOT be removed from * the file. * */ /** * @defgroup nrf_spim_hal SPIM HAL * @{ * @ingroup nrf_spi_master * * @brief Hardware access layer for accessing the SPIM peripheral. */ #ifndef NRF_SPIM_H__ #define NRF_SPIM_H__ #include #include #include #include "nrf.h" /** * @brief This value can be used as a parameter for the @ref nrf_spim_pins_set * function to specify that a given SPI signal (SCK, MOSI, or MISO) * shall not be connected to a physical pin. */ #define NRF_SPIM_PIN_NOT_CONNECTED 0xFFFFFFFF /** * @brief SPIM tasks. */ typedef enum { /*lint -save -e30*/ NRF_SPIM_TASK_START = offsetof(NRF_SPIM_Type, TASKS_START), ///< Start SPI transaction. NRF_SPIM_TASK_STOP = offsetof(NRF_SPIM_Type, TASKS_STOP), ///< Stop SPI transaction. NRF_SPIM_TASK_SUSPEND = offsetof(NRF_SPIM_Type, TASKS_SUSPEND), ///< Suspend SPI transaction. NRF_SPIM_TASK_RESUME = offsetof(NRF_SPIM_Type, TASKS_RESUME) ///< Resume SPI transaction. /*lint -restore*/ } nrf_spim_task_t; /** * @brief SPIM events. */ typedef enum { /*lint -save -e30*/ NRF_SPIM_EVENT_STOPPED = offsetof(NRF_SPIM_Type, EVENTS_STOPPED), ///< SPI transaction has stopped. NRF_SPIM_EVENT_ENDRX = offsetof(NRF_SPIM_Type, EVENTS_ENDRX), ///< End of RXD buffer reached. #ifdef NRF52 NRF_SPIM_EVENT_END = offsetof(NRF_SPIM_Type, EVENTS_END), ///< End of RXD buffer and TXD buffer reached. #endif NRF_SPIM_EVENT_ENDTX = offsetof(NRF_SPIM_Type, EVENTS_ENDTX), ///< End of TXD buffer reached. NRF_SPIM_EVENT_STARTED = offsetof(NRF_SPIM_Type, EVENTS_STARTED) ///< Transaction started. /*lint -restore*/ } nrf_spim_event_t; #ifdef NRF52 /** * @brief SPIM shortcuts. */ typedef enum { NRF_SPIM_SHORT_END_START_MASK = SPIM_SHORTS_END_START_Msk ///< Shortcut between END event and START task. } nrf_spim_short_mask_t; #endif /** * @brief SPIM interrupts. */ typedef enum { NRF_SPIM_INT_STOPPED_MASK = SPIM_INTENSET_STOPPED_Msk, ///< Interrupt on STOPPED event. NRF_SPIM_INT_ENDRX_MASK = SPIM_INTENSET_ENDRX_Msk, ///< Interrupt on ENDRX event. #ifdef NRF52 NRF_SPIM_INT_END_MASK = SPIM_INTENSET_END_Msk, ///< Interrupt on END event. #endif NRF_SPIM_INT_ENDTX_MASK = SPIM_INTENSET_ENDTX_Msk, ///< Interrupt on ENDTX event. NRF_SPIM_INT_STARTED_MASK = SPIM_INTENSET_STARTED_Msk ///< Interrupt on STARTED event. } nrf_spim_int_mask_t; /** * @brief SPI master data rates. */ typedef enum { NRF_SPIM_FREQ_125K = SPIM_FREQUENCY_FREQUENCY_K125, ///< 125 kbps. NRF_SPIM_FREQ_250K = SPIM_FREQUENCY_FREQUENCY_K250, ///< 250 kbps. NRF_SPIM_FREQ_500K = SPIM_FREQUENCY_FREQUENCY_K500, ///< 500 kbps. NRF_SPIM_FREQ_1M = SPIM_FREQUENCY_FREQUENCY_M1, ///< 1 Mbps. NRF_SPIM_FREQ_2M = SPIM_FREQUENCY_FREQUENCY_M2, ///< 2 Mbps. NRF_SPIM_FREQ_4M = SPIM_FREQUENCY_FREQUENCY_M4, ///< 4 Mbps. // [conversion to 'int' needed to prevent compilers from complaining // that the provided value (0x80000000UL) is out of range of "int"] NRF_SPIM_FREQ_8M = (int)SPIM_FREQUENCY_FREQUENCY_M8 ///< 8 Mbps. } nrf_spim_frequency_t; /** * @brief SPI modes. */ typedef enum { NRF_SPIM_MODE_0, ///< SCK active high, sample on leading edge of clock. NRF_SPIM_MODE_1, ///< SCK active high, sample on trailing edge of clock. NRF_SPIM_MODE_2, ///< SCK active low, sample on leading edge of clock. NRF_SPIM_MODE_3 ///< SCK active low, sample on trailing edge of clock. } nrf_spim_mode_t; /** * @brief SPI bit orders. */ typedef enum { NRF_SPIM_BIT_ORDER_MSB_FIRST = SPIM_CONFIG_ORDER_MsbFirst, ///< Most significant bit shifted out first. NRF_SPIM_BIT_ORDER_LSB_FIRST = SPIM_CONFIG_ORDER_LsbFirst ///< Least significant bit shifted out first. } nrf_spim_bit_order_t; /** * @brief Function for activating a specific SPIM task. * * @param[in] p_spim SPIM instance. * @param[in] spim_task Task to activate. */ __STATIC_INLINE void nrf_spim_task_trigger(NRF_SPIM_Type * p_spim, nrf_spim_task_t spim_task); /** * @brief Function for getting the address of a specific SPIM task register. * * @param[in] p_spim SPIM instance. * @param[in] spim_task Requested task. * * @return Address of the specified task register. */ __STATIC_INLINE uint32_t nrf_spim_task_address_get(NRF_SPIM_Type * p_spim, nrf_spim_task_t spim_task); /** * @brief Function for clearing a specific SPIM event. * * @param[in] p_spim SPIM instance. * @param[in] spim_event Event to clear. */ __STATIC_INLINE void nrf_spim_event_clear(NRF_SPIM_Type * p_spim, nrf_spim_event_t spim_event); /** * @brief Function for checking the state of a specific SPIM event. * * @param[in] p_spim SPIM instance. * @param[in] spim_event Event to check. * * @retval true If the event is set. * @retval false If the event is not set. */ __STATIC_INLINE bool nrf_spim_event_check(NRF_SPIM_Type * p_spim, nrf_spim_event_t spim_event); /** * @brief Function for getting the address of a specific SPIM event register. * * @param[in] p_spim SPIM instance. * @param[in] spim_event Requested event. * * @return Address of the specified event register. */ __STATIC_INLINE uint32_t nrf_spim_event_address_get(NRF_SPIM_Type * p_spim, nrf_spim_event_t spim_event); #ifdef NRF52 /** * @brief Function for enabling specified shortcuts. * * @param[in] p_spim SPIM instance. * @param[in] spim_shorts_mask Shortcuts to enable. */ __STATIC_INLINE void nrf_spim_shorts_enable(NRF_SPIM_Type * p_spim, uint32_t spim_shorts_mask); /** * @brief Function for disabling specified shortcuts. * * @param[in] p_spim SPIM instance. * @param[in] spim_shorts_mask Shortcuts to disable. */ __STATIC_INLINE void nrf_spim_shorts_disable(NRF_SPIM_Type * p_spim, uint32_t spim_shorts_mask); /** * @brief Function for getting shorts setting. * * @param[in] p_spim SPIM instance. */ __STATIC_INLINE uint32_t nrf_spim_shorts_get(NRF_SPIM_Type * p_spim); #endif /** * @brief Function for enabling specified interrupts. * * @param[in] p_spim SPIM instance. * @param[in] spim_int_mask Interrupts to enable. */ __STATIC_INLINE void nrf_spim_int_enable(NRF_SPIM_Type * p_spim, uint32_t spim_int_mask); /** * @brief Function for disabling specified interrupts. * * @param[in] p_spim SPIM instance. * @param[in] spim_int_mask Interrupts to disable. */ __STATIC_INLINE void nrf_spim_int_disable(NRF_SPIM_Type * p_spim, uint32_t spim_int_mask); /** * @brief Function for retrieving the state of a given interrupt. * * @param[in] p_spim SPIM instance. * @param[in] spim_int Interrupt to check. * * @retval true If the interrupt is enabled. * @retval false If the interrupt is not enabled. */ __STATIC_INLINE bool nrf_spim_int_enable_check(NRF_SPIM_Type * p_spim, nrf_spim_int_mask_t spim_int); /** * @brief Function for enabling the SPIM peripheral. * * @param[in] p_spim SPIM instance. */ __STATIC_INLINE void nrf_spim_enable(NRF_SPIM_Type * p_spim); /** * @brief Function for disabling the SPIM peripheral. * * @param[in] p_spim SPIM instance. */ __STATIC_INLINE void nrf_spim_disable(NRF_SPIM_Type * p_spim); /** * @brief Function for configuring SPIM pins. * * If a given signal is not needed, pass the @ref NRF_SPIM_PIN_NOT_CONNECTED * value instead of its pin number. * * @param[in] p_spim SPIM instance. * @param[in] sck_pin SCK pin number. * @param[in] mosi_pin MOSI pin number. * @param[in] miso_pin MISO pin number. */ __STATIC_INLINE void nrf_spim_pins_set(NRF_SPIM_Type * p_spim, uint32_t sck_pin, uint32_t mosi_pin, uint32_t miso_pin); /** * @brief Function for setting the SPI master data rate. * * @param[in] p_spim SPIM instance. * @param[in] frequency SPI frequency. */ __STATIC_INLINE void nrf_spim_frequency_set(NRF_SPIM_Type * p_spim, nrf_spim_frequency_t frequency); /** * @brief Function for setting the transmit buffer. * * @param[in] p_spim SPIM instance. * @param[in] p_buffer Pointer to the buffer with data to send. * @param[in] length Maximum number of data bytes to transmit. */ __STATIC_INLINE void nrf_spim_tx_buffer_set(NRF_SPIM_Type * p_spim, uint8_t const * p_buffer, uint8_t length); /** * @brief Function for setting the receive buffer. * * @param[in] p_spim SPIM instance. * @param[in] p_buffer Pointer to the buffer for received data. * @param[in] length Maximum number of data bytes to receive. */ __STATIC_INLINE void nrf_spim_rx_buffer_set(NRF_SPIM_Type * p_spim, uint8_t * p_buffer, uint8_t length); /** * @brief Function for setting the SPI configuration. * * @param[in] p_spim SPIM instance. * @param[in] spi_mode SPI mode. * @param[in] spi_bit_order SPI bit order. */ __STATIC_INLINE void nrf_spim_configure(NRF_SPIM_Type * p_spim, nrf_spim_mode_t spi_mode, nrf_spim_bit_order_t spi_bit_order); /** * @brief Function for setting the over-read character. * * @param[in] p_spim SPIM instance. * @param[in] orc Over-read character that is clocked out in case of * an over-read of the TXD buffer. */ __STATIC_INLINE void nrf_spim_orc_set(NRF_SPIM_Type * p_spim, uint8_t orc); #ifdef NRF52 /** * @brief Function for enabling the TX list feature. * * @param[in] p_spim SPIM instance. */ __STATIC_INLINE void nrf_spim_tx_list_enable(NRF_SPIM_Type * p_spim); /** * @brief Function for disabling the TX list feature. * * @param[in] p_spim SPIM instance. */ __STATIC_INLINE void nrf_spim_tx_list_disable(NRF_SPIM_Type * p_spim); /** * @brief Function for enabling the RX list feature. * * @param[in] p_spim SPIM instance. */ __STATIC_INLINE void nrf_spim_rx_list_enable(NRF_SPIM_Type * p_spim); /** * @brief Function for disabling the RX list feature. * * @param[in] p_spim SPIM instance. */ __STATIC_INLINE void nrf_spim_rx_list_disable(NRF_SPIM_Type * p_spim); #endif #ifndef SUPPRESS_INLINE_IMPLEMENTATION __STATIC_INLINE void nrf_spim_task_trigger(NRF_SPIM_Type * p_spim, nrf_spim_task_t spim_task) { *((volatile uint32_t *)((uint8_t *)p_spim + (uint32_t)spim_task)) = 0x1UL; } __STATIC_INLINE uint32_t nrf_spim_task_address_get(NRF_SPIM_Type * p_spim, nrf_spim_task_t spim_task) { return (uint32_t)((uint8_t *)p_spim + (uint32_t)spim_task); } __STATIC_INLINE void nrf_spim_event_clear(NRF_SPIM_Type * p_spim, nrf_spim_event_t spim_event) { *((volatile uint32_t *)((uint8_t *)p_spim + (uint32_t)spim_event)) = 0x0UL; } __STATIC_INLINE bool nrf_spim_event_check(NRF_SPIM_Type * p_spim, nrf_spim_event_t spim_event) { return (bool)*(volatile uint32_t *)((uint8_t *)p_spim + (uint32_t)spim_event); } __STATIC_INLINE uint32_t nrf_spim_event_address_get(NRF_SPIM_Type * p_spim, nrf_spim_event_t spim_event) { return (uint32_t)((uint8_t *)p_spim + (uint32_t)spim_event); } #ifdef NRF52 __STATIC_INLINE void nrf_spim_shorts_enable(NRF_SPIM_Type * p_spim, uint32_t spim_shorts_mask) { p_spim->SHORTS |= spim_shorts_mask; } __STATIC_INLINE void nrf_spim_shorts_disable(NRF_SPIM_Type * p_spim, uint32_t spim_shorts_mask) { p_spim->SHORTS &= ~(spim_shorts_mask); } __STATIC_INLINE uint32_t nrf_spim_shorts_get(NRF_SPIM_Type * p_spim) { return p_spim->SHORTS; } #endif __STATIC_INLINE void nrf_spim_int_enable(NRF_SPIM_Type * p_spim, uint32_t spim_int_mask) { p_spim->INTENSET = spim_int_mask; } __STATIC_INLINE void nrf_spim_int_disable(NRF_SPIM_Type * p_spim, uint32_t spim_int_mask) { p_spim->INTENCLR = spim_int_mask; } __STATIC_INLINE bool nrf_spim_int_enable_check(NRF_SPIM_Type * p_spim, nrf_spim_int_mask_t spim_int) { return (bool)(p_spim->INTENSET & spim_int); } __STATIC_INLINE void nrf_spim_enable(NRF_SPIM_Type * p_spim) { p_spim->ENABLE = (SPIM_ENABLE_ENABLE_Enabled << SPIM_ENABLE_ENABLE_Pos); } __STATIC_INLINE void nrf_spim_disable(NRF_SPIM_Type * p_spim) { p_spim->ENABLE = (SPIM_ENABLE_ENABLE_Disabled << SPIM_ENABLE_ENABLE_Pos); } __STATIC_INLINE void nrf_spim_pins_set(NRF_SPIM_Type * p_spim, uint32_t sck_pin, uint32_t mosi_pin, uint32_t miso_pin) { p_spim->PSEL.SCK = sck_pin; p_spim->PSEL.MOSI = mosi_pin; p_spim->PSEL.MISO = miso_pin; } __STATIC_INLINE void nrf_spim_frequency_set(NRF_SPIM_Type * p_spim, nrf_spim_frequency_t frequency) { p_spim->FREQUENCY = frequency; } __STATIC_INLINE void nrf_spim_tx_buffer_set(NRF_SPIM_Type * p_spim, uint8_t const * p_buffer, uint8_t length) { p_spim->TXD.PTR = (uint32_t)p_buffer; p_spim->TXD.MAXCNT = length; } __STATIC_INLINE void nrf_spim_rx_buffer_set(NRF_SPIM_Type * p_spim, uint8_t * p_buffer, uint8_t length) { p_spim->RXD.PTR = (uint32_t)p_buffer; p_spim->RXD.MAXCNT = length; } __STATIC_INLINE void nrf_spim_configure(NRF_SPIM_Type * p_spim, nrf_spim_mode_t spi_mode, nrf_spim_bit_order_t spi_bit_order) { uint32_t config = (spi_bit_order == NRF_SPIM_BIT_ORDER_MSB_FIRST ? SPIM_CONFIG_ORDER_MsbFirst : SPIM_CONFIG_ORDER_LsbFirst); switch (spi_mode) { default: case NRF_SPIM_MODE_0: config |= (SPIM_CONFIG_CPOL_ActiveHigh << SPIM_CONFIG_CPOL_Pos) | (SPIM_CONFIG_CPHA_Leading << SPIM_CONFIG_CPHA_Pos); break; case NRF_SPIM_MODE_1: config |= (SPIM_CONFIG_CPOL_ActiveHigh << SPIM_CONFIG_CPOL_Pos) | (SPIM_CONFIG_CPHA_Trailing << SPIM_CONFIG_CPHA_Pos); break; case NRF_SPIM_MODE_2: config |= (SPIM_CONFIG_CPOL_ActiveLow << SPIM_CONFIG_CPOL_Pos) | (SPIM_CONFIG_CPHA_Leading << SPIM_CONFIG_CPHA_Pos); break; case NRF_SPIM_MODE_3: config |= (SPIM_CONFIG_CPOL_ActiveLow << SPIM_CONFIG_CPOL_Pos) | (SPIM_CONFIG_CPHA_Trailing << SPIM_CONFIG_CPHA_Pos); break; } p_spim->CONFIG = config; } __STATIC_INLINE void nrf_spim_orc_set(NRF_SPIM_Type * p_spim, uint8_t orc) { p_spim->ORC = orc; } #ifdef NRF52 __STATIC_INLINE void nrf_spim_tx_list_enable(NRF_SPIM_Type * p_spim) { p_spim->TXD.LIST = 1; } __STATIC_INLINE void nrf_spim_tx_list_disable(NRF_SPIM_Type * p_spim) { p_spim->TXD.LIST = 0; } __STATIC_INLINE void nrf_spim_rx_list_enable(NRF_SPIM_Type * p_spim) { p_spim->RXD.LIST = 1; } __STATIC_INLINE void nrf_spim_rx_list_disable(NRF_SPIM_Type * p_spim) { p_spim->RXD.LIST = 0; } #endif #endif // SUPPRESS_INLINE_IMPLEMENTATION #endif // NRF_SPIM_H__ /** @} */