/* Copyright (C) 2015-2017 CZ.NIC, z.s.p.o. This program 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. This program 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 this program. If not, see . */ /** * @file pack.h * @brief A length-prefixed list of objects, also an array list. * * Each object is prefixed by item length, unlike array this structure * permits variable-length data. It is also equivallent to forward-only list * backed by an array. * * @note Maximum object size is 2^16 bytes, see ::pack_objlen_t * @TODO If some mistake happens somewhere, the access may end up in an infinite loop. * (equality comparison on pointers) * * # Example usage: * * @code{.c} * pack_t pack; * pack_init(pack); * * // Reserve 2 objects, 6 bytes total * pack_reserve(pack, 2, 4 + 2); * * // Push 2 objects * pack_obj_push(pack, U8("jedi"), 4) * pack_obj_push(pack, U8("\xbe\xef"), 2); * * // Iterate length-value pairs * uint8_t *it = pack_head(pack); * while (it != pack_tail(pack)) { * uint8_t *val = pack_obj_val(it); * it = pack_obj_next(it); * } * * // Remove object * pack_obj_del(pack, U8("jedi"), 4); * * pack_clear(pack); * @endcode * * \addtogroup generics * @{ */ #pragma once #include #include #include "array.h" #ifdef __cplusplus extern "C" { #endif /** Packed object length type. */ typedef uint16_t pack_objlen_t; /** Pack is defined as an array of bytes */ typedef array_t(uint8_t) pack_t; /** Zero-initialize the pack. */ #define pack_init(pack) \ array_init(pack) /** Make the pack empty and free pointed-to memory (plain malloc/free). */ #define pack_clear(pack) \ array_clear(pack) /** Make the pack empty and free pointed-to memory. * Mempool usage: pass mm_free and a knot_mm_t* . */ #define pack_clear_mm(pack, free, baton) \ array_clear_mm((pack), (free), (baton)) /** Reserve space for *additional* objects in the pack (plain malloc/free). * @return 0 if success, <0 on failure */ #define pack_reserve(pack, objs_count, objs_len) \ pack_reserve_mm((pack), (objs_count), (objs_len), array_std_reserve, NULL) /** Reserve space for *additional* objects in the pack. * Mempool usage: pass kr_memreserve and a knot_mm_t* . * @return 0 if success, <0 on failure */ #define pack_reserve_mm(pack, objs_count, objs_len, reserve, baton) \ array_reserve_mm((pack), (pack).len + (sizeof(pack_objlen_t)*(objs_count) + (objs_len)), (reserve), (baton)) /** Return pointer to first packed object. * * Recommended way to iterate: * for (uint8_t *it = pack_head(pack); it != pack_tail(pack); it = pack_obj_next(it)) */ #define pack_head(pack) \ ((pack).len > 0 ? &((pack).at[0]) : NULL) /** Return pack end pointer. */ #define pack_tail(pack) \ ((pack).len > 0 ? &((pack).at[(pack).len]) : NULL) /** Return packed object length. */ static inline pack_objlen_t pack_obj_len(uint8_t *it) { pack_objlen_t len = 0; if (it != NULL) memcpy(&len, it, sizeof(len)); return len; } /** Return packed object value. */ static inline uint8_t *pack_obj_val(uint8_t *it) { if (it == NULL) { assert(it); return NULL; } return it + sizeof(pack_objlen_t); } /** Return pointer to next packed object. */ static inline uint8_t *pack_obj_next(uint8_t *it) { if (it == NULL) { assert(it); return NULL; } return pack_obj_val(it) + pack_obj_len(it); } /** Return pointer to the last packed object. */ static inline uint8_t *pack_last(pack_t pack) { if (pack.len == 0) { return NULL; } uint8_t *it = pack_head(pack); uint8_t *tail = pack_tail(pack); while (true) { uint8_t *next = pack_obj_next(it); if (next == tail) { return it; } it = next; } } /** Push object to the end of the pack * @return 0 on success, negative number on failure */ static inline int pack_obj_push(pack_t *pack, const uint8_t *obj, pack_objlen_t len) { if (pack == NULL || obj == NULL) { assert(false); return kr_error(EINVAL); } size_t packed_len = len + sizeof(len); if (pack->len + packed_len > pack->cap) { return kr_error(ENOSPC); } uint8_t *endp = pack->at + pack->len; memcpy(endp, (char *)&len, sizeof(len)); memcpy(endp + sizeof(len), obj, len); pack->len += packed_len; return 0; } /** Returns a pointer to packed object. * @return pointer to packed object or NULL */ static inline uint8_t *pack_obj_find(pack_t *pack, const uint8_t *obj, pack_objlen_t len) { if (pack == NULL || obj == NULL) { assert(obj != NULL); return NULL; } uint8_t *endp = pack_tail(*pack); uint8_t *it = pack_head(*pack); while (it != endp) { uint8_t *val = pack_obj_val(it); if (pack_obj_len(it) == len && memcmp(obj, val, len) == 0) { return it; } it = pack_obj_next(it); } return NULL; } /** Delete object from the pack * @return 0 on success, negative number on failure */ static inline int pack_obj_del(pack_t *pack, const uint8_t *obj, pack_objlen_t len) { if (pack == NULL || obj == NULL) { assert(obj != NULL); return kr_error(EINVAL); } uint8_t *endp = pack_tail(*pack); uint8_t *it = pack_obj_find(pack, obj, len); if (it) { size_t packed_len = len + sizeof(len); memmove(it, it + packed_len, endp - it - packed_len); pack->len -= packed_len; return 0; } return -1; } /** Clone a pack, replacing destination pack; (*dst == NULL) is valid input. * @return kr_error(ENOMEM) on allocation failure. */ static inline int pack_clone(pack_t **dst, const pack_t *src, knot_mm_t *pool) { if (!dst || !src) { assert(false); return kr_error(EINVAL); } /* Get a valid pack_t. */ if (!*dst) { *dst = mm_alloc(pool, sizeof(pack_t)); if (!*dst) return kr_error(ENOMEM); pack_init(**dst); /* Clone data only if needed */ if (src->len == 0) return kr_ok(); } /* Replace the contents of the pack_t. */ int ret = array_reserve_mm(**dst, src->len, kr_memreserve, pool); if (ret < 0) { return kr_error(ENOMEM); } memcpy((*dst)->at, src->at, src->len); (*dst)->len = src->len; return kr_ok(); } #ifdef __cplusplus } #endif /** @} */