/* SPDX-License-Identifier: GPL-3.0-or-later * Copyright © 2022 The TokTok team. */ #ifndef C_TOXCORE_TOXCORE_BIN_PACK_H #define C_TOXCORE_TOXCORE_BIN_PACK_H #include #include #include "attributes.h" #include "logger.h" #ifdef __cplusplus extern "C" { #endif /** * @brief Binary serialisation object. * * Naming convention: * - Functions ending in `_b` (or `_b_size`) are NOT MessagePack, i.e. write * data in plain big endian binary format. * - All other functions encode their input in MessagePack format. * * Some notes on parameter order: * * - We pass the `obj` pointer as `this`-like pointer first to the callbacks. * - Any extra arguments passed to the callback follow the `obj` (and in case of * array packing, the `arr` and `arr_size` parameters). * - The packer is passed last. * * This roughly matches a curried lambda function: * * @code * bin_pack_obj([](const void *obj, const Logger *logger, Bin_Pack *bp) { ... }, obj, logger, buf, buf_size); * // Translates roughly to: * bin_pack_obj([obj, logger](Bin_Pack *bp) { ... }, buf, buf_size); * @endcode */ typedef struct Bin_Pack Bin_Pack; /** @brief Function used to pack an object. * * This function would typically cast the `void *` to the actual object pointer type and then call * more appropriately typed packing functions. */ typedef bool bin_pack_cb(const void *obj, const Logger *logger, Bin_Pack *bp); /** @brief Function used to pack an array of objects. * * This function would typically cast the `void *` to the actual object pointer type and then call * more appropriately typed packing functions. * * @param arr is the object array as void pointer. * @param index is the index in the object array that is currently being packed. */ typedef bool bin_pack_array_cb(const void *arr, uint32_t index, const Logger *logger, Bin_Pack *bp); /** @brief Determine the serialised size of an object. * * @param callback The function called on the created packer and packed object. * @param obj The object to be packed, passed as `obj` to the callback. * @param logger Optional logger object to pass to the callback. * * @return The packed size of the passed object according to the callback. * @retval UINT32_MAX in case of errors such as buffer overflow. */ non_null(1) nullable(2, 3) uint32_t bin_pack_obj_size(bin_pack_cb *callback, const void *obj, const Logger *logger); /** @brief Pack an object into a buffer of a given size. * * This function creates and initialises a `Bin_Pack` packer object, calls the callback with the * packer object and the to-be-packed object, and then cleans up the packer object. Note that * there is nothing MessagePack-specific about this function, so it can be used for both custom * binary and MessagePack formats. * * You can use `bin_pack_obj_size` to determine the minimum required size of `buf`. If packing * overflows `uint32_t`, this function returns `false`. * * Passing NULL for `obj` is supported, but requires that the callback supports nullable inputs. * * @param callback The function called on the created packer and packed object. * @param obj The object to be packed, passed as `obj` to the callback. * @param logger Optional logger object to pass to the callback. * @param buf A byte array large enough to hold the serialised representation of `obj`. * @param buf_size The size of the byte array. Can be `UINT32_MAX` to disable bounds checking. * * @retval false if an error occurred (e.g. buffer overflow). */ non_null(1, 4) nullable(2, 3) bool bin_pack_obj(bin_pack_cb *callback, const void *obj, const Logger *logger, uint8_t *buf, uint32_t buf_size); /** @brief Determine the serialised size of an object array. * * Behaves exactly like `bin_pack_obj_b_array` but doesn't write. * * @param callback The function called on the created packer and each object to * be packed. * @param arr The object array to be packed, passed as `arr` to the callback. * @param arr_size The number of elements in the object array. * @param logger Optional logger object to pass to the callback. * * @return The packed size of the passed object array according to the callback. * @retval UINT32_MAX in case of errors such as buffer overflow. */ non_null(1) nullable(2, 4) uint32_t bin_pack_obj_array_b_size(bin_pack_array_cb *callback, const void *arr, uint32_t arr_size, const Logger *logger); /** @brief Pack an object array into a buffer of a given size. * * Similar to `bin_pack_obj_array` but does not write the array length, so * if you need that, encoding it is on you. * * Passing NULL for `arr` has no effect, but requires that `arr_size` is 0. * * @param callback The function called on the created packer and packed object * array. * @param arr The object array to be packed, passed as `arr` to the callback. * @param arr_size The number of elements in the object array. * @param logger Optional logger object to pass to the callback. * @param buf A byte array large enough to hold the serialised representation of `arr`. * @param buf_size The size of the byte array. Can be `UINT32_MAX` to disable bounds checking. * * @retval false if an error occurred (e.g. buffer overflow). */ non_null(1, 5) nullable(2, 4) bool bin_pack_obj_array_b(bin_pack_array_cb *callback, const void *arr, uint32_t arr_size, const Logger *logger, uint8_t *buf, uint32_t buf_size); /** @brief Encode an object array as MessagePack array into a bin packer. * * Calls the callback `arr_size` times with increasing `index` argument from 0 to * `arr_size`. This function is here just so we don't need to write the same * trivial loop many times and so we don't need an extra struct just to contain * an array with size so it can be passed to `bin_pack_obj`. * * Similar to `bin_pack_obj` but for arrays. Note that a `Bin_Pack` object is * required here, so it must be called from within a callback to one of the * functions above. * * Passing NULL for `arr` requires that `arr_size` is 0. This will write a 0-size * MessagePack array to the packer. * * @param bp Bin packer object. * @param callback The function called on the created packer and packed object * array. * @param arr The object array to be packed, passed as `arr` to the callback. * @param arr_size The number of elements in the object array. * @param logger Optional logger object to pass to the callback. * * @retval false if an error occurred (e.g. buffer overflow). */ non_null(1, 2) nullable(3, 5) bool bin_pack_obj_array(Bin_Pack *bp, bin_pack_array_cb *callback, const void *arr, uint32_t arr_size, const Logger *logger); /** @brief Start packing a MessagePack array. * * A call to this function must be followed by exactly `size` calls to other functions below. */ non_null() bool bin_pack_array(Bin_Pack *bp, uint32_t size); /** @brief Pack a MessagePack bool. */ non_null() bool bin_pack_bool(Bin_Pack *bp, bool val); /** @brief Pack a `uint8_t` as MessagePack positive integer. */ non_null() bool bin_pack_u08(Bin_Pack *bp, uint8_t val); /** @brief Pack a `uint16_t` as MessagePack positive integer. */ non_null() bool bin_pack_u16(Bin_Pack *bp, uint16_t val); /** @brief Pack a `uint32_t` as MessagePack positive integer. */ non_null() bool bin_pack_u32(Bin_Pack *bp, uint32_t val); /** @brief Pack a `uint64_t` as MessagePack positive integer. */ non_null() bool bin_pack_u64(Bin_Pack *bp, uint64_t val); /** @brief Pack an empty array member as a MessagePack nil value. */ non_null() bool bin_pack_nil(Bin_Pack *bp); /** @brief Pack a byte array as MessagePack bin. */ non_null() bool bin_pack_bin(Bin_Pack *bp, const uint8_t *data, uint32_t length); /** @brief Start packing a custom binary representation. * * A call to this function must be followed by exactly `size` bytes packed by functions below. */ non_null() bool bin_pack_bin_marker(Bin_Pack *bp, uint32_t size); /** @brief Write a `uint8_t` directly to the packer in 1 byte. */ non_null() bool bin_pack_u08_b(Bin_Pack *bp, uint8_t val); /** @brief Write a `uint16_t` as big endian 16 bit int in 2 bytes. */ non_null() bool bin_pack_u16_b(Bin_Pack *bp, uint16_t val); /** @brief Write a `uint32_t` as big endian 32 bit int in 4 bytes. */ non_null() bool bin_pack_u32_b(Bin_Pack *bp, uint32_t val); /** @brief Write a `uint64_t` as big endian 64 bit int in 8 bytes. */ non_null() bool bin_pack_u64_b(Bin_Pack *bp, uint64_t val); /** @brief Write a byte array directly to the packer in `length` bytes. * * Note that unless you prepend the array length manually, there is no record of it in the resulting * serialised representation. */ non_null() bool bin_pack_bin_b(Bin_Pack *bp, const uint8_t *data, uint32_t length); #ifdef __cplusplus } /* extern "C" */ #endif #endif /* C_TOXCORE_TOXCORE_BIN_PACK_H */