/* * Copyright (c) 2015 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Public API for SPI drivers and applications */ #ifndef ZEPHYR_INCLUDE_SPI_H_ #define ZEPHYR_INCLUDE_SPI_H_ /** * @brief SPI Interface * @defgroup spi_interface SPI Interface * @ingroup io_interfaces * @{ */ #include #include #include #ifdef __cplusplus extern "C" { #endif /** * @brief SPI operational mode */ #define SPI_OP_MODE_MASTER 0 #define SPI_OP_MODE_SLAVE BIT(0) #define SPI_OP_MODE_MASK 0x1 #define SPI_OP_MODE_GET(_operation_) ((_operation_) & SPI_OP_MODE_MASK) /** * @brief SPI Polarity & Phase Modes */ /** * Clock Polarity: if set, clock idle state will be 1 * and active state will be 0. If untouched, the inverse will be true * which is the default. */ #define SPI_MODE_CPOL BIT(1) /** * Clock Phase: this dictates when is the data captured, and depends * clock's polarity. When SPI_MODE_CPOL is set and this bit as well, * capture will occur on low to high transition and high to low if * this bit is not set (default). This is fully reversed if CPOL is * not set. */ #define SPI_MODE_CPHA BIT(2) /** * Whatever data is transmitted is looped-back to the receiving buffer of * the controller. This is fully controller dependent as some may not * support this, and can be used for testing purposes only. */ #define SPI_MODE_LOOP BIT(3) #define SPI_MODE_MASK (0xE) #define SPI_MODE_GET(_mode_) \ ((_mode_) & SPI_MODE_MASK) /** * @brief SPI Transfer modes (host controller dependent) */ #define SPI_TRANSFER_MSB (0) #define SPI_TRANSFER_LSB BIT(4) /** * @brief SPI word size */ #define SPI_WORD_SIZE_SHIFT (5) #define SPI_WORD_SIZE_MASK (0x3F << SPI_WORD_SIZE_SHIFT) #define SPI_WORD_SIZE_GET(_operation_) \ (((_operation_) & SPI_WORD_SIZE_MASK) >> SPI_WORD_SIZE_SHIFT) #define SPI_WORD_SET(_word_size_) \ ((_word_size_) << SPI_WORD_SIZE_SHIFT) /** * @brief SPI MISO lines * * Some controllers support dual, quad or octal MISO lines connected to slaves. * Default is single, which is the case most of the time. */ #define SPI_LINES_SINGLE (0 << 11) #define SPI_LINES_DUAL (1 << 11) #define SPI_LINES_QUAD (2 << 11) #define SPI_LINES_OCTAL (3 << 11) #define SPI_LINES_MASK (0x3 << 11) /** * @brief Specific SPI devices control bits */ /* Requests - if possible - to keep CS asserted after the transaction */ #define SPI_HOLD_ON_CS BIT(13) /* Keep the device locked after the transaction for the current config. * Use this with extreme caution (see spi_release() below) as it will * prevent other callers to access the SPI device until spi_release() is * properly called. */ #define SPI_LOCK_ON BIT(14) /* Active high logic on CS - Usually, and by default, CS logic is active * low. However, some devices may require the reverse logic: active high. * This bit will request the controller to use that logic. Note that not * all controllers are able to handle that natively. In this case deferring * the CS control to a gpio line through struct spi_cs_control would be * the solution. */ #define SPI_CS_ACTIVE_HIGH BIT(15) /** * @brief SPI Chip Select control structure * * This can be used to control a CS line via a GPIO line, instead of * using the controller inner CS logic. * * @param gpio_dev is a valid pointer to an actual GPIO device. A NULL pointer * can be provided to full inhibit CS control if necessary. * @param gpio_pin is a number representing the gpio PIN that will be used * to act as a CS line * @param delay is a delay in microseconds to wait before starting the * transmission and before releasing the CS line */ struct spi_cs_control { struct device *gpio_dev; u32_t gpio_pin; u32_t delay; }; /** * @brief SPI controller configuration structure * * @param dev is a valid pointer to an actual SPI device * @param frequency is the bus frequency in Hertz * @param operation is a bit field with the following parts: * * operational mode [ 0 ] - master or slave. * mode [ 1 : 3 ] - Polarity, phase and loop mode. * transfer [ 4 ] - LSB or MSB first. * word_size [ 5 : 10 ] - Size of a data frame in bits. * lines [ 11 : 12 ] - MISO lines: Single/Dual/Quad/Octal. * cs_hold [ 13 ] - Hold on the CS line if possible. * lock_on [ 14 ] - Keep resource locked for the caller. * cs_active_high [ 15 ] - Active high CS logic. * @param slave is the slave number from 0 to host controller slave limit. * @param cs is a valid pointer on a struct spi_cs_control is CS line is * emulated through a gpio line, or NULL otherwise. * * @note Only cs_hold and lock_on can be changed between consecutive * transceive call. Rest of the attributes are not meant to be tweaked. */ struct spi_config { u32_t frequency; u16_t operation; u16_t slave; const struct spi_cs_control *cs; }; /** * @brief SPI buffer structure * * @param buf is a valid pointer on a data buffer, or NULL otherwise. * @param len is the length of the buffer or, if buf is NULL, will be the * length which as to be sent as dummy bytes (as TX buffer) or * the length of bytes that should be skipped (as RX buffer). */ struct spi_buf { void *buf; size_t len; }; /** * @brief SPI buffer array structure * * @param buffers is a valid pointer on an array of spi_buf, or NULL. * @param count is the length of the array pointed by buffers. */ struct spi_buf_set { const struct spi_buf *buffers; size_t count; }; /** * @typedef spi_api_io * @brief Callback API for I/O * See spi_transceive() for argument descriptions */ typedef int (*spi_api_io)(struct device *dev, const struct spi_config *config, const struct spi_buf_set *tx_bufs, const struct spi_buf_set *rx_bufs); /** * @typedef spi_api_io * @brief Callback API for asynchronous I/O * See spi_transceive_async() for argument descriptions */ typedef int (*spi_api_io_async)(struct device *dev, const struct spi_config *config, const struct spi_buf_set *tx_bufs, const struct spi_buf_set *rx_bufs, struct k_poll_signal *async); /** * @typedef spi_api_release * @brief Callback API for unlocking SPI device. * See spi_release() for argument descriptions */ typedef int (*spi_api_release)(struct device *dev, const struct spi_config *config); /** * @brief SPI driver API * This is the mandatory API any SPI driver needs to expose. */ struct spi_driver_api { spi_api_io transceive; #ifdef CONFIG_SPI_ASYNC spi_api_io_async transceive_async; #endif /* CONFIG_SPI_ASYNC */ spi_api_release release; }; /** * @brief Read/write the specified amount of data from the SPI driver. * * Note: This function is synchronous. * * @param dev Pointer to the device structure for the driver instance * @param config Pointer to a valid spi_config structure instance. * @param tx_bufs Buffer array where data to be sent originates from, * or NULL if none. * @param rx_bufs Buffer array where data to be read will be written to, * or NULL if none. * * @retval 0 If successful, negative errno code otherwise. In case of slave * transaction: if successful it will return the amount of frames * received, negative errno code otherwise. */ __syscall int spi_transceive(struct device *dev, const struct spi_config *config, const struct spi_buf_set *tx_bufs, const struct spi_buf_set *rx_bufs); static inline int _impl_spi_transceive(struct device *dev, const struct spi_config *config, const struct spi_buf_set *tx_bufs, const struct spi_buf_set *rx_bufs) { const struct spi_driver_api *api = (const struct spi_driver_api *)dev->driver_api; return api->transceive(dev, config, tx_bufs, rx_bufs); } /** * @brief Read the specified amount of data from the SPI driver. * * Note: This function is synchronous. * * @param dev Pointer to the device structure for the driver instance * @param config Pointer to a valid spi_config structure instance. * @param rx_bufs Buffer array where data to be read will be written to. * * @retval 0 If successful, negative errno code otherwise. * * @note This function is an helper function calling spi_transceive. */ static inline int spi_read(struct device *dev, const struct spi_config *config, const struct spi_buf_set *rx_bufs) { return spi_transceive(dev, config, NULL, rx_bufs); } /** * @brief Write the specified amount of data from the SPI driver. * * Note: This function is synchronous. * * @param dev Pointer to the device structure for the driver instance * @param config Pointer to a valid spi_config structure instance. * @param tx_bufs Buffer array where data to be sent originates from. * * @retval 0 If successful, negative errno code otherwise. * * @note This function is an helper function calling spi_transceive. */ static inline int spi_write(struct device *dev, const struct spi_config *config, const struct spi_buf_set *tx_bufs) { return spi_transceive(dev, config, tx_bufs, NULL); } #ifdef CONFIG_SPI_ASYNC /** * @brief Read/write the specified amount of data from the SPI driver. * * Note: This function is asynchronous. * * @param dev Pointer to the device structure for the driver instance * @param config Pointer to a valid spi_config structure instance. * @param tx_bufs Buffer array where data to be sent originates from, * or NULL if none. * @param rx_bufs Buffer array where data to be read will be written to, * or NULL if none. * @param async A pointer to a valid and ready to be signaled * struct k_poll_signal. (Note: if NULL this function will not * notify the end of the transaction, and whether it went * successfully or not). * * @retval 0 If successful, negative errno code otherwise. In case of slave * transaction: if successful it will return the amount of frames * received, negative errno code otherwise. */ static inline int spi_transceive_async(struct device *dev, const struct spi_config *config, const struct spi_buf_set *tx_bufs, const struct spi_buf_set *rx_bufs, struct k_poll_signal *async) { const struct spi_driver_api *api = (const struct spi_driver_api *)dev->driver_api; return api->transceive_async(dev, config, tx_bufs, rx_bufs, async); } /** * @brief Read the specified amount of data from the SPI driver. * * Note: This function is asynchronous. * * @param dev Pointer to the device structure for the driver instance * @param config Pointer to a valid spi_config structure instance. * @param rx_bufs Buffer array where data to be read will be written to. * @param async A pointer to a valid and ready to be signaled * struct k_poll_signal. (Note: if NULL this function will not * notify the end of the transaction, and whether it went * successfully or not). * * @retval 0 If successful, negative errno code otherwise. * * @note This function is an helper function calling spi_transceive_async. */ static inline int spi_read_async(struct device *dev, const struct spi_config *config, const struct spi_buf_set *rx_bufs, struct k_poll_signal *async) { return spi_transceive_async(dev, config, NULL, rx_bufs, async); } /** * @brief Write the specified amount of data from the SPI driver. * * Note: This function is asynchronous. * * @param dev Pointer to the device structure for the driver instance * @param config Pointer to a valid spi_config structure instance. * @param tx_bufs Buffer array where data to be sent originates from. * @param async A pointer to a valid and ready to be signaled * struct k_poll_signal. (Note: if NULL this function will not * notify the end of the transaction, and whether it went * successfully or not). * * @retval 0 If successful, negative errno code otherwise. * * @note This function is an helper function calling spi_transceive_async. */ static inline int spi_write_async(struct device *dev, const struct spi_config *config, const struct spi_buf_set *tx_bufs, struct k_poll_signal *async) { return spi_transceive_async(dev, config, tx_bufs, NULL, async); } #endif /* CONFIG_SPI_ASYNC */ /** * @brief Release the SPI device locked on by the current config * * Note: This synchronous function is used to release the lock on the SPI * device that was kept if, and if only, given config parameter was * the last one to be used (in any of the above functions) and if * it has the SPI_LOCK_ON bit set into its operation bits field. * This can be used if the caller needs to keep its hand on the SPI * device for consecutive transactions. * * @param dev Pointer to the device structure for the driver instance * @param config Pointer to a valid spi_config structure instance. */ __syscall int spi_release(struct device *dev, const struct spi_config *config); static inline int _impl_spi_release(struct device *dev, const struct spi_config *config) { const struct spi_driver_api *api = (const struct spi_driver_api *)dev->driver_api; return api->release(dev, config); } #ifdef __cplusplus } #endif /** * @} */ #include #endif /* ZEPHYR_INCLUDE_SPI_H_ */