/* * Copyright (C) 2013 Alaeddine Weslati * Copyright (C) 2015 Freie Universität Berlin * * This file is subject to the terms and conditions of the GNU Lesser General * Public License v2.1. See the file LICENSE in the top level directory for more * details. */ /** * @ingroup drivers_at86rf2xx * @{ * * @file * @brief Internal interfaces for AT86RF2xx drivers * * @author Alaeddine Weslati * @author Thomas Eichinger * @author Hauke Petersen */ #ifndef AT86RF2XX_INTERNAL_H_ #define AT86RF2XX_INTERNAL_H_ #include #include "at86rf2xx.h" #ifdef __cplusplus extern "C" { #endif /** * @brief Transition time from SLEEP to TRX_OFF in us, refer figure 7-4, p.42. * For different environments refer figure 13-13, p.201 */ #define AT86RF2XX_WAKEUP_DELAY (300U) /** * @brief Minimum reset pulse width, refer p.190 */ #define AT86RF2XX_RESET_PULSE_WIDTH (1U) /** * @brief Transition time to TRX_OFF after reset pulse in us, refer * figure 7-8, p. 44. */ #define AT86RF2XX_RESET_DELAY (26U) /** * @brief Read from a register at address `addr` from device `dev`. * * @param[in] dev device to read from * @param[in] addr address of the register to read * * @return the value of the specified register */ uint8_t at86rf2xx_reg_read(const at86rf2xx_t *dev, const uint8_t addr); /** * @brief Write to a register at address `addr` from device `dev`. * * @param[in] dev device to write to * @param[in] addr address of the register to write * @param[in] value value to write to the given register */ void at86rf2xx_reg_write(const at86rf2xx_t *dev, const uint8_t addr, const uint8_t value); /** * @brief Read a chunk of data from the SRAM of the given device * * @param[in] dev device to read from * @param[in] offset starting address to read from [valid 0x00-0x7f] * @param[out] data buffer to read data into * @param[in] len number of bytes to read from SRAM */ void at86rf2xx_sram_read(const at86rf2xx_t *dev, const uint8_t offset, uint8_t *data, const size_t len); /** * @brief Write a chunk of data into the SRAM of the given device * * @param[in] dev device to write to * @param[in] offset address in the SRAM to write to [valid 0x00-0x7f] * @param[in] data data to copy into SRAM * @param[in] len number of bytes to write to SRAM */ void at86rf2xx_sram_write(const at86rf2xx_t *dev, const uint8_t offset, const uint8_t *data, const size_t len); /** * @brief Start a read transcation internal frame buffer of the given device * * Reading the frame buffer returns some extra bytes that are not accessible * through reading the RAM directly. This locks the used SPI. * * @param[in] dev device to start read */ void at86rf2xx_fb_start(const at86rf2xx_t *dev); /** * @brief Read the internal frame buffer of the given device * * Each read advances the position in the buffer by @p len. * * @param[in] dev device to read from * @param[out] data buffer to copy the data to * @param[in] len number of bytes to read from the frame buffer */ void at86rf2xx_fb_read(const at86rf2xx_t *dev, uint8_t *data, const size_t len); /** * @brief Stop a read transcation internal frame buffer of the given device * * Release the SPI device and unlock frame buffer protection. * * @param[in] dev device to stop read */ void at86rf2xx_fb_stop(const at86rf2xx_t *dev); /** * @brief Cancel ongoing transactions and switch to TRX_OFF state * * @param[in] dev device to manipulate */ void at86rf2xx_force_trx_off(const at86rf2xx_t *dev); /** * @brief Convenience function for reading the status of the given device * * @param[in] dev device to read the status from * * @return internal status of the given device */ uint8_t at86rf2xx_get_status(const at86rf2xx_t *dev); /** * @brief Make sure that device is not sleeping * * @param[in] dev device to eventually wake up */ void at86rf2xx_assert_awake(at86rf2xx_t *dev); /** * @brief Trigger a hardware reset * * @param[in] dev device to reset */ void at86rf2xx_hardware_reset(at86rf2xx_t *dev); /** * @brief Set PHY parameters based on channel and page number * * @param[in] dev device to configure */ void at86rf2xx_configure_phy(at86rf2xx_t *dev); #if defined(MODULE_AT86RF233) || defined(MODULE_AT86RF231) || defined(DOXYGEN) /** * @brief Read random data from the RNG * * @note According to the data sheet this function only works properly in * Basic Operation Mode. However, sporadic testing has shown that even * in Extended Operation Mode this returns random enough data to be * used as a seed for @ref sys_random if no cryptographically secure * randomness is required. * Any further use-case needs to be evaluated, especially if * crypto-relevant randomness is required. * * @param[in] dev device to configure * @param[out] data buffer to copy the random data to * @param[in] len number of random bytes to store in data */ void at86rf2xx_get_random(at86rf2xx_t *dev, uint8_t *data, const size_t len); #endif #ifdef __cplusplus } #endif #endif /* AT86RF2XX_INTERNAL_H_ */ /** @} */