/* * Copyright (C) 2014 René Kijewski * * 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. */ /** * @addtogroup core_util * @{ * * @file * @brief Functions to work with different byte orders. * * @author René Kijewski */ #ifndef BYTEORDER_H_ #define BYTEORDER_H_ #include #if defined(__MACH__) # include "clang_compat.h" #endif #ifdef __cplusplus extern "C" { #endif /* ******************************* INTERFACE ******************************* */ /** * @brief A 16 bit integer in little endian. * @details This is a wrapper around an uint16_t to catch missing conversions * between different byte orders at compile time. */ typedef union __attribute__((packed)) { uint16_t u16; /**< 16 bit representation */ uint8_t u8[2]; /**< 8 bit representation */ } le_uint16_t; /** * @brief A 32 bit integer in little endian. * @details This is a wrapper around an uint32_t to catch missing conversions * between different byte orders at compile time. */ typedef union __attribute__((packed)) { uint32_t u32; /**< 32 bit representation */ uint8_t u8[4]; /**< 8 bit representation */ uint16_t u16[2]; /**< 16 bit representation */ le_uint16_t l16[2]; /**< little endian 16 bit representation */ } le_uint32_t; /** * @brief A 64 bit integer in little endian. * @details This is a wrapper around an uint64_t to catch missing conversions * between different byte orders at compile time. */ typedef union __attribute__((packed)) { uint64_t u64; /**< 64 bit representation */ uint8_t u8[8]; /**< 8 bit representation */ uint16_t u16[4]; /**< 16 bit representation */ uint32_t u32[2]; /**< 32 bit representation */ le_uint16_t l16[4]; /**< little endian 16 bit representation */ le_uint32_t l32[2]; /**< little endian 32 bit representation */ } le_uint64_t; /** * @brief A 16 bit integer in big endian aka network byte order. * @details This is a wrapper around an uint16_t to catch missing conversions * between different byte orders at compile time. */ typedef union __attribute__((packed)) { uint16_t u16; /**< 16 bit representation */ uint8_t u8[2]; /**< 8 bit representation */ } be_uint16_t; /** * @brief A 32 bit integer in big endian aka network byte order. * @details This is a wrapper around an uint32_t to catch missing conversions * between different byte orders at compile time. */ typedef union __attribute__((packed)) { uint32_t u32; /**< 32 bit representation */ uint8_t u8[4]; /**< 8 bit representation */ uint16_t u16[2]; /**< 16 bit representation */ be_uint16_t b16[2]; /**< big endian 16 bit representation */ } be_uint32_t; /** * @brief A 64 bit integer in big endian aka network byte order. * @details This is a wrapper around an uint64_t to catch missing conversions * between different byte orders at compile time. */ typedef union __attribute__((packed)) { uint64_t u64; /**< 64 bit representation */ uint8_t u8[8]; /**< 8 bit representation */ uint16_t u16[4]; /**< 16 bit representation */ uint32_t u32[2]; /**< 32 bit representation */ be_uint16_t b16[4]; /**< big endian 16 bit representation */ be_uint32_t b32[2]; /**< big endian 32 bit representation */ } be_uint64_t; /** * @brief A 16 bit integer in network byte order. */ typedef be_uint16_t network_uint16_t; /** * @brief A 32 bit integer in network byte order. */ typedef be_uint32_t network_uint32_t; /** * @brief A 64 bit integer in network byte order. */ typedef be_uint64_t network_uint64_t; /** * @brief Convert from little endian to big endian, 16 bit. * @param[in] v The integer in little endian. * @returns `v` converted to big endian. */ static inline be_uint16_t byteorder_ltobs(le_uint16_t v); /** * @brief Convert from little endian to big endian, 32 bit. * @param[in] v The integer in little endian. * @returns `v` converted to big endian. */ static inline be_uint32_t byteorder_ltobl(le_uint32_t v); /** * @brief Convert from little endian to big endian, 64 bit. * @param[in] v The integer in little endian. * @returns `v` converted to big endian. */ static inline be_uint64_t byteorder_ltobll(le_uint64_t v); /** * @brief Convert from big endian to little endian, 16 bit. * @param[in] v The integer in big endian. * @returns `v` converted to little endian. */ static inline le_uint16_t byteorder_btols(be_uint16_t v); /** * @brief Convert from big endian to little endian, 32 bit. * @param[in] v The integer in big endian. * @returns `v` converted to little endian. */ static inline le_uint32_t byteorder_btoll(be_uint32_t v); /** * @brief Convert from big endian to little endian, 64 bit. * @param[in] v The integer in big endian. * @returns `v` converted to little endian. */ static inline le_uint64_t byteorder_btolll(be_uint64_t v); /** * @brief Convert from host byte order to network byte order, 16 bit. * @param[in] v The integer in host byte order. * @returns `v` converted to network byte order. */ static inline network_uint16_t byteorder_htons(uint16_t v); /** * @brief Convert from host byte order to network byte order, 32 bit. * @param[in] v The integer in host byte order. * @returns `v` converted to network byte order. */ static inline network_uint32_t byteorder_htonl(uint32_t v); /** * @brief Convert from host byte order to network byte order, 64 bit. * @param[in] v The integer in host byte order. * @returns `v` converted to network byte order. */ static inline network_uint64_t byteorder_htonll(uint64_t v); /** * @brief Convert from network byte order to host byte order, 16 bit. * @param[in] v The integer in network byte order. * @returns `v` converted to host byte order. */ static inline uint16_t byteorder_ntohs(network_uint16_t v); /** * @brief Convert from network byte order to host byte order, 32 bit. * @param[in] v The integer in network byte order. * @returns `v` converted to host byte order. */ static inline uint32_t byteorder_ntohl(network_uint32_t v); /** * @brief Convert from network byte order to host byte order, 64 bit. * @param[in] v The integer in network byte order. * @returns `v` converted to host byte order. */ static inline uint64_t byteorder_ntohll(network_uint64_t v); /** * @brief Swap byte order, 16 bit. * @param[in] v The integer to swap. * @returns The swapped integer. */ static inline uint16_t byteorder_swaps(uint16_t v); /** * @brief Swap byte order, 32 bit. * @param[in] v The integer to swap. * @returns The swapped integer. */ static inline uint32_t byteorder_swapl(uint32_t v); /** * @brief Swap byte order, 64 bit. * @param[in] v The integer to swap. * @returns The swapped integer. */ static inline uint64_t byteorder_swapll(uint64_t v); /** * @brief Convert from host byte order to network byte order, 16 bit. * @see byteorder_htons() * @param[in] v The integer to convert. * @returns Converted integer. */ static inline uint16_t HTONS(uint16_t v); /** * @brief Convert from host byte order to network byte order, 32 bit. * @see byteorder_htonl() * @param[in] v The integer to convert. * @returns Converted integer. */ static inline uint32_t HTONL(uint32_t v); /** * @brief Convert from host byte order to network byte order, 64 bit. * @see byteorder_htonll() * @param[in] v The integer to convert. * @returns Converted integer. */ static inline uint64_t HTONLL(uint64_t v); /** * @brief Convert from network byte order to host byte order, 16 bit. * @see byteorder_ntohs() * @param[in] v The integer to convert. * @returns Converted integer. */ static inline uint16_t NTOHS(uint16_t v); /** * @brief Convert from network byte order to host byte order, 32 bit. * @see byteorder_ntohl() * @param[in] v The integer to convert. * @returns Converted integer. */ static inline uint32_t NTOHL(uint32_t v); /** * @brief Convert from network byte order to host byte order, 64 bit. * @see byteorder_ntohll() * @param[in] v The integer to convert. * @returns Converted integer. */ static inline uint64_t NTOHLL(uint64_t v); /* **************************** IMPLEMENTATION ***************************** */ #ifdef HAVE_NO_BUILTIN_BSWAP16 static inline unsigned short __builtin_bswap16(unsigned short a) { return (a<<8)|(a>>8); } #endif static inline uint16_t byteorder_swaps(uint16_t v) { #ifndef MODULE_MSP430_COMMON return __builtin_bswap16(v); #else network_uint16_t result = { v }; uint8_t tmp = result.u8[0]; result.u8[0] = result.u8[1]; result.u8[1] = tmp; return result.u16; #endif } static inline uint32_t byteorder_swapl(uint32_t v) { return __builtin_bswap32(v); } static inline uint64_t byteorder_swapll(uint64_t v) { return __builtin_bswap64(v); } static inline be_uint16_t byteorder_ltobs(le_uint16_t v) { be_uint16_t result = { byteorder_swaps(v.u16) }; return result; } static inline be_uint32_t byteorder_ltobl(le_uint32_t v) { be_uint32_t result = { byteorder_swapl(v.u32) }; return result; } static inline be_uint64_t byteorder_ltobll(le_uint64_t v) { be_uint64_t result = { byteorder_swapll(v.u64) }; return result; } static inline le_uint16_t byteorder_btols(be_uint16_t v) { le_uint16_t result = { byteorder_swaps(v.u16) }; return result; } static inline le_uint32_t byteorder_btoll(be_uint32_t v) { le_uint32_t result = { byteorder_swapl(v.u32) }; return result; } static inline le_uint64_t byteorder_btolll(be_uint64_t v) { le_uint64_t result = { byteorder_swapll(v.u64) }; return result; } /** * @brief Swaps the byteorder according to the endianess */ #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ # define _byteorder_swap(V, T) (byteorder_swap##T((V))) #elif __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__ # define _byteorder_swap(V, T) (V) #else # error "Byte order is neither little nor big!" #endif static inline network_uint16_t byteorder_htons(uint16_t v) { network_uint16_t result = { _byteorder_swap(v, s) }; return result; } static inline network_uint32_t byteorder_htonl(uint32_t v) { network_uint32_t result = { _byteorder_swap(v, l) }; return result; } static inline network_uint64_t byteorder_htonll(uint64_t v) { network_uint64_t result = { _byteorder_swap(v, ll) }; return result; } static inline uint16_t byteorder_ntohs(network_uint16_t v) { return _byteorder_swap(v.u16, s); } static inline uint32_t byteorder_ntohl(network_uint32_t v) { return _byteorder_swap(v.u32, l); } static inline uint64_t byteorder_ntohll(network_uint64_t v) { return _byteorder_swap(v.u64, ll); } static inline uint16_t HTONS(uint16_t v) { return byteorder_htons(v).u16; } static inline uint32_t HTONL(uint32_t v) { return byteorder_htonl(v).u32; } static inline uint64_t HTONLL(uint64_t v) { return byteorder_htonll(v).u64; } static inline uint16_t NTOHS(uint16_t v) { network_uint16_t input = { v }; return byteorder_ntohs(input); } static inline uint32_t NTOHL(uint32_t v) { network_uint32_t input = { v }; return byteorder_ntohl(input); } static inline uint64_t NTOHLL(uint64_t v) { network_uint64_t input = { v }; return byteorder_ntohll(input); } #ifdef __cplusplus } #endif #endif /* BYTEORDER_H_ */ /** @} */