/* Copyright (c) 2014 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. * */ /**@file * * @defgroup dfu_bank_internal Device Firmware Update internal header for bank handling in DFU. * @{ * * @brief Device Firmware Update Bank handling module interface. * * @details This header is intended for shared definition and functions between single and dual bank * implementations used for DFU support. It is not supposed to be used for external access * to the DFU module. * */ #ifndef DFU_BANK_INTERNAL_H__ #define DFU_BANK_INTERNAL_H__ #include /**@brief States of the DFU state machine. */ typedef enum { DFU_STATE_INIT_ERROR, /**< State for: dfu_init(...) error. */ DFU_STATE_IDLE, /**< State for: idle. */ DFU_STATE_PREPARING, /**< State for: preparing, indicates that the flash is being erased and no data packets can be processed. */ DFU_STATE_RDY, /**< State for: ready. */ DFU_STATE_RX_INIT_PKT, /**< State for: receiving initialization packet. */ DFU_STATE_RX_DATA_PKT, /**< State for: receiving data packet. */ DFU_STATE_VALIDATE, /**< State for: validate. */ DFU_STATE_WAIT_4_ACTIVATE /**< State for: waiting for dfu_image_activate(). */ } dfu_state_t; #define APP_TIMER_PRESCALER 0 /**< Value of the RTC1 PRESCALER register. */ #define DFU_TIMEOUT_INTERVAL APP_TIMER_TICKS(300000, APP_TIMER_PRESCALER) /**< DFU timeout interval in units of timer ticks. */ #define IS_UPDATING_SD(START_PKT) ((START_PKT).dfu_update_mode & DFU_UPDATE_SD) /**< Macro for determining if a SoftDevice update is ongoing. */ #define IS_UPDATING_BL(START_PKT) ((START_PKT).dfu_update_mode & DFU_UPDATE_BL) /**< Macro for determining if a Bootloader update is ongoing. */ #define IS_UPDATING_APP(START_PKT) ((START_PKT).dfu_update_mode & DFU_UPDATE_APP) /**< Macro for determining if a Application update is ongoing. */ #define IMAGE_WRITE_IN_PROGRESS() (m_data_received > 0) /**< Macro for determining if an image write is in progress. */ #define IS_WORD_SIZED(SIZE) ((SIZE & (sizeof(uint32_t) - 1)) == 0) /**< Macro for checking that the provided is word sized. */ /**@cond NO_DOXYGEN */ static uint32_t m_data_received; /**< Amount of received data. */ /**@endcond */ /**@brief Type definition of function used for preparing of the bank before receiving of a * software image. * * @param[in] image_size Size of software image being received. */ typedef void (*dfu_bank_prepare_t)(uint32_t image_size); /**@brief Type definition of function used for handling clear complete of the bank before * receiving of a software image. */ typedef void (*dfu_bank_cleared_t)(void); /**@brief Type definition of function used for activating of the software image received. * * @return NRF_SUCCESS If the image has been successfully activated any other NRF_ERROR code in * case of a failure. */ typedef uint32_t (*dfu_bank_activate_t)(void); /**@brief Structure for holding of function pointers for needed prepare and activate procedure for * the requested update procedure. */ typedef struct { dfu_bank_prepare_t prepare; /**< Function pointer to the prepare function called on start of update procedure. */ dfu_bank_cleared_t cleared; /**< Function pointer to the cleared function called after prepare function completes. */ dfu_bank_activate_t activate; /**< Function pointer to the activate function called on finalizing the update procedure. */ } dfu_bank_func_t; #endif // DFU_BANK_INTERNAL_H__ /** @} */