/* * Copyright (c) 2019 Vestas Wind Systems A/S * * SPDX-License-Identifier: Apache-2.0 */ /** * @defgroup CAN CAN BUS * @{ * @} */ /** * @brief CANopen Network Stack * @defgroup canopen CANopen Network Stack * @ingroup CAN * @{ */ #ifndef ZEPHYR_MODULES_CANOPENNODE_CANOPENNODE_H_ #define ZEPHYR_MODULES_CANOPENNODE_CANOPENNODE_H_ #include #include #include #ifdef __cplusplus extern "C" { #endif /** * @brief CANopen object dictionary storage types. */ enum canopen_storage { CANOPEN_STORAGE_RAM, CANOPEN_STORAGE_ROM, CANOPEN_STORAGE_EEPROM, }; struct canopen_context { const struct device *dev; }; /** * @brief Attach CANopen object dictionary storage handlers. * * Attach CANopen storage handler functions to object dictionary * indexes 0x1010 (Store parameters) and 0x1011 (Restore default * parameters). This function must be called after calling CANopenNode * `CO_init()`. * * The handlers will save object dictionary entries of type @ref * CANOPEN_STORAGE_ROM to non-volatile storage when a CANopen SDO * client writes 0x65766173 ('s', 'a', 'v', 'e' from LSB to MSB) to * object dictionary index 0x1010 sub-index 1. * * Object dictionary entries of types @ref CANOPEN_STORAGE_ROM (and * optionally @ref CANOPEN_STORAGE_EEPROM) will be deleted from * non-volatile storage when a CANopen SDO client writes 0x64616F6C * ('l', 'o', 'a', 'd' from LSB to MSB) to object dictionary index * 0x1011 sub-index 1. * * Object dictionary entries of type @ref CANOPEN_STORAGE_EEPROM may be * saved by the application by periodically calling @ref * canopen_storage_save(). * * Object dictionary entries of type @ref CANOPEN_STORAGE_RAM are * never saved to non-volatile storage. * * @param sdo CANopenNode SDO server object * @param em CANopenNode Emergency object */ void canopen_storage_attach(CO_SDO_t *sdo, CO_EM_t *em); /** * @brief Save CANopen object dictionary entries to non-volatile storage. * * Save object dictionary entries of a given type to non-volatile * storage. * * @param storage CANopen object dictionary entry type * * @return 0 if successful, negative errno code if failure */ int canopen_storage_save(enum canopen_storage storage); /** * @brief Erase CANopen object dictionary entries from non-volatile storage. * * Erase object dictionary entries of a given type from non-volatile * storage. * * @param storage CANopen object dictionary entry type * * @return 0 if successful, negative errno code if failure */ int canopen_storage_erase(enum canopen_storage storage); /** * @brief Attach CANopen object dictionary program download handlers. * * Attach CANopen program download functions to object dictionary * indexes 0x1F50, 0x1F51, 0x1F56, and 0x1F57. This function must be * called after calling CANopenNode `CO_init()`. * * @param nmt CANopenNode NMT object * @param sdo CANopenNode SDO server object * @param em CANopenNode Emergency object */ void canopen_program_download_attach(CO_NMT_t *nmt, CO_SDO_t *sdo, CO_EM_t *em); /** * @typedef canopen_led_callback_t * @brief CANopen LED indicator callback function signature. * * @param value true if the LED indicator shall be turned on, false otherwise. * @param arg argument that was passed when LEDs were initialized. */ typedef void (*canopen_led_callback_t)(bool value, void *arg); /** * @brief Initialize CANopen LED indicators. * * Initialize CANopen LED indicators and attach callbacks for setting * their state. Two LED indicators, a red and a green, are supported * according to CiA 303-3. * * @param nmt CANopenNode NMT object. * @param green_cb callback for changing state on the green LED indicator. * @param green_arg argument to pass to the green LED indicator callback. * @param red_cb callback for changing state on the red LED indicator. * @param red_arg argument to pass to the red LED indicator callback. */ void canopen_leds_init(CO_NMT_t *nmt, canopen_led_callback_t green_cb, void *green_arg, canopen_led_callback_t red_cb, void *red_arg); /** * @brief Indicate CANopen program download in progress * * Indicate that a CANopen program download is in progress. * * @param in_progress true if program download is in progress, false otherwise */ void canopen_leds_program_download(bool in_progress); /** * @brief Callback for incoming CAN message * * This callback will be called from interrupt context and should therefore * return quickly. * * It can be used to e.g. wake the loop polling calling CO_process. */ typedef void (*canopen_rxmsg_callback_t)(void); /** * @brief Set callback for incoming CAN message * * Set up callback to be called on incoming CAN message on any of * the configured filters for CANopenNode. * * This can be used to wake the loop calling CO_process when an incoming * message needs to be processed. * * Setting a new callback will overwrite any existing callback. * * @param callback the callback to set */ void canopen_set_rxmsg_callback(canopen_rxmsg_callback_t callback); #ifdef __cplusplus } #endif /** * @} */ #endif /* ZEPHYR_MODULES_CANOPENNODE_CANOPENNODE_H_ */