/* Chrysalide - Outil d'analyse de fichiers binaires * io.h - prototypes pour des entrées sorties fiables et la manipulation des nombres * * Copyright (C) 2014-2019 Cyrille Bagard * * This file is part of Chrysalide. * * Chrysalide is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * Chrysalide is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with Chrysalide. If not, see . */ #ifndef _COMMON_IO_H #define _COMMON_IO_H #include #include #include "datatypes.h" /* ------------------------ ENTREES/SORTIES BRUTES ENCADREES ------------------------ */ /* Lit des données depuis un flux local. */ bool safe_read(int, void *, size_t); #define load_u8(f, v) \ safe_read(f, v, sizeof(uint8_t)); #define load_u16(f, v, e) \ ({ \ bool __ret; \ uint16_t __val; \ __ret = safe_read(f, &__val, sizeof(uint16_t)); \ __val = swap_u16(&__val, e); \ *(v) = __val; \ __ret; \ }) #define load_u32(f, v, e) \ ({ \ bool __ret; \ uint32_t __val; \ __ret = safe_read(f, &__val, sizeof(uint32_t)); \ __val = swap_u32(&__val, e); \ *(v) = __val; \ __ret; \ }) #define load_u64(f, v, e) \ ({ \ bool __ret; \ uint64_t __val; \ __ret = safe_read(f, &__val, sizeof(uint64_t)); \ __val = swap_u64(&__val, e); \ *(v) = __val; \ __ret; \ }) /* Lit des données depuis un flux local. */ ssize_t safe_read_partial(int, void *, size_t); /* Ecrit des données dans un flux local. */ bool safe_write(int, const void *, size_t); #define store_u8(f, v) \ safe_write(f, (const uint8_t []){ v }, sizeof(uint8_t)); #define store_u16(f, v, e) \ ({ \ uint16_t __val; \ __val = swap_u16((const uint16_t []){ v }, e); \ safe_write(f, &__val, sizeof(uint16_t)); \ }) #define store_u32(f, v, e) \ ({ \ uint32_t __val; \ __val = swap_u32((const uint32_t []){ v }, e); \ safe_write(f, &__val, sizeof(uint32_t)); \ }) #define store_u64(f, v, e) \ ({ \ uint64_t __val; \ __val = swap_u64((const uint64_t []){ v }, e); \ safe_write(f, &__val, sizeof(uint64_t)); \ }) /* Réceptionne des données depuis un flux réseau. */ bool safe_recv(int, void *, size_t, int); /* Envoie des données au travers un flux réseau. */ bool safe_send(int, const void *, size_t, int); /* --------------------------- CONVERSION ENTRE BOUTISMES --------------------------- */ /* Adapte un nombre sur 16 bits à un boutisme donné. */ uint16_t swap_u16(const uint16_t *, SourceEndian); /* Adapte un nombre sur 16 bits à un boutisme donné. */ uint32_t swap_u32(const uint32_t *, SourceEndian); /* Adapte un nombre sur 16 bits à un boutisme donné. */ uint64_t swap_u64(const uint64_t *, SourceEndian); #define from_u16(v, e) swap_u16(v, e) #define from_u32(v, e) swap_u32(v, e) #define from_u64(v, e) swap_u64(v, e) #define to_u16(v, e) swap_u16(v, e) #define to_u32(v, e) swap_u32(v, e) #define to_u64(v, e) swap_u64(v, e) /* ------------------------- BOUTISME DES ENTREES / SORTIES ------------------------- */ /* Lit un nombre non signé sur 4 bits. */ bool read_u4(uint8_t *, const bin_t *, phys_t *, phys_t, bool *); /* Lit un nombre non signé sur un octet. */ bool read_u8(uint8_t *, const bin_t *, phys_t *, phys_t); /* Lit un nombre non signé sur deux octets. */ bool read_u16(uint16_t *, const bin_t *, phys_t *, phys_t, SourceEndian); /* Lit un nombre non signé sur quatre octets. */ bool read_u32(uint32_t *, const bin_t *, phys_t *, phys_t, SourceEndian); /* Lit un nombre non signé sur huit octets. */ bool read_u64(uint64_t *, const bin_t *, phys_t *, phys_t, SourceEndian); #define read_s4(target, data, pos, len, low) read_u4((uint8_t *)target, data, pos, len, low) #define read_s8(target, data, pos, len) read_u8((uint8_t *)target, data, pos, len) #define read_s16(target, data, pos, len, endian) read_u16((uint16_t *)target, data, pos, len, endian) #define read_s32(target, data, pos, len, endian) read_u32((uint32_t *)target, data, pos, len, endian) #define read_s64(target, data, pos, len, endian) read_u64((uint64_t *)target, data, pos, len, endian) /* Ecrit un nombre non signé sur n octets. */ bool _write_un(const bin_t *, size_t, bin_t *, off_t *, off_t, SourceEndian); #define write_un(value, data, pos, len, endian, type) \ ({ \ type __tmp; \ (void)(value == &__tmp); \ _write_un((bin_t *)value, sizeof(type), data, pos, len, endian); \ }) #define write_u8(value, data, pos, len, endian) write_un(value, data, pos, len, endian, uint8_t) #define write_u16(value, data, pos, len, endian) write_un(value, data, pos, len, endian, uint16_t) #define write_u32(value, data, pos, len, endian) write_un(value, data, pos, len, endian, uint32_t) #define write_u64(value, data, pos, len, endian) write_un(value, data, pos, len, endian, uint64_t) #define write_s8(value, data, pos, len, endian) write_un(value, data, pos, len, endian, sint8_t) #define write_s16(value, data, pos, len, endian) write_un(value, data, pos, len, endian, sint16_t) #define write_s32(value, data, pos, len, endian) write_un(value, data, pos, len, endian, sint32_t) #define write_s64(value, data, pos, len, endian) write_un(value, data, pos, len, endian, sint64_t) /* Lit un nombre hexadécimal non signé sur deux octets. */ bool strtou8(uint8_t *, const char *, size_t *, size_t, SourceEndian); /* Lit un nombre hexadécimal non signé sur n octets. */ bool _strtoun(uint8_t, const char *, size_t *, size_t, SourceEndian, ...); #define strtou32(target, data, pos, len, endian) _strtoun(4, data, pos, len, endian, target) #endif /* _COMMON_IO_H */