/* SPDX-License-Identifier: LGPL-2.1-or-later */ #pragma once #include #include #include #include #include "macro.h" #if HAS_FEATURE_MEMORY_SANITIZER # include #endif typedef void (*free_func_t)(void *p); /* If for some reason more than 4M are allocated on the stack, let's abort immediately. It's better than * proceeding and smashing the stack limits. Note that by default RLIMIT_STACK is 8M on Linux. */ #define ALLOCA_MAX (4U*1024U*1024U) #define new(t, n) ((t*) malloc_multiply(sizeof(t), (n))) #define new0(t, n) ((t*) calloc((n) ?: 1, sizeof(t))) #define newa(t, n) \ ({ \ size_t _n_ = n; \ assert(!size_multiply_overflow(sizeof(t), _n_)); \ assert(sizeof(t)*_n_ <= ALLOCA_MAX); \ (t*) alloca((sizeof(t)*_n_) ?: 1); \ }) #define newa0(t, n) \ ({ \ size_t _n_ = n; \ assert(!size_multiply_overflow(sizeof(t), _n_)); \ assert(sizeof(t)*_n_ <= ALLOCA_MAX); \ (t*) alloca0((sizeof(t)*_n_) ?: 1); \ }) #define newdup(t, p, n) ((t*) memdup_multiply(p, sizeof(t), (n))) #define newdup_suffix0(t, p, n) ((t*) memdup_suffix0_multiply(p, sizeof(t), (n))) #define malloc0(n) (calloc(1, (n) ?: 1)) static inline void *mfree(void *memory) { free(memory); return NULL; } #define free_and_replace(a, b) \ ({ \ free(a); \ (a) = (b); \ (b) = NULL; \ 0; \ }) void* memdup(const void *p, size_t l) _alloc_(2); void* memdup_suffix0(const void *p, size_t l); /* We can't use _alloc_() here, since we return a buffer one byte larger than the specified size */ #define memdupa(p, l) \ ({ \ void *_q_; \ size_t _l_ = l; \ assert(_l_ <= ALLOCA_MAX); \ _q_ = alloca(_l_ ?: 1); \ memcpy(_q_, p, _l_); \ }) #define memdupa_suffix0(p, l) \ ({ \ void *_q_; \ size_t _l_ = l; \ assert(_l_ <= ALLOCA_MAX); \ _q_ = alloca(_l_ + 1); \ ((uint8_t*) _q_)[_l_] = 0; \ memcpy(_q_, p, _l_); \ }) static inline void freep(void *p) { *(void**)p = mfree(*(void**) p); } #define _cleanup_free_ _cleanup_(freep) static inline bool size_multiply_overflow(size_t size, size_t need) { return _unlikely_(need != 0 && size > (SIZE_MAX / need)); } _malloc_ _alloc_(1, 2) static inline void *malloc_multiply(size_t size, size_t need) { if (size_multiply_overflow(size, need)) return NULL; return malloc(size * need ?: 1); } #if !HAVE_REALLOCARRAY _alloc_(2, 3) static inline void *reallocarray(void *p, size_t need, size_t size) { if (size_multiply_overflow(size, need)) return NULL; return realloc(p, size * need ?: 1); } #endif _alloc_(2, 3) static inline void *memdup_multiply(const void *p, size_t size, size_t need) { if (size_multiply_overflow(size, need)) return NULL; return memdup(p, size * need); } /* Note that we can't decorate this function with _alloc_() since the returned memory area is one byte larger * than the product of its parameters. */ static inline void *memdup_suffix0_multiply(const void *p, size_t size, size_t need) { if (size_multiply_overflow(size, need)) return NULL; return memdup_suffix0(p, size * need); } void* greedy_realloc(void **p, size_t *allocated, size_t need, size_t size); void* greedy_realloc0(void **p, size_t *allocated, size_t need, size_t size); #define GREEDY_REALLOC(array, allocated, need) \ greedy_realloc((void**) &(array), &(allocated), (need), sizeof((array)[0])) #define GREEDY_REALLOC0(array, allocated, need) \ greedy_realloc0((void**) &(array), &(allocated), (need), sizeof((array)[0])) #define alloca0(n) \ ({ \ char *_new_; \ size_t _len_ = n; \ assert(_len_ <= ALLOCA_MAX); \ _new_ = alloca(_len_ ?: 1); \ (void *) memset(_new_, 0, _len_); \ }) /* It's not clear what alignment glibc/gcc alloca() guarantee, hence provide a guaranteed safe version */ #define alloca_align(size, align) \ ({ \ void *_ptr_; \ size_t _mask_ = (align) - 1; \ size_t _size_ = size; \ assert(_size_ <= ALLOCA_MAX); \ _ptr_ = alloca((_size_ + _mask_) ?: 1); \ (void*)(((uintptr_t)_ptr_ + _mask_) & ~_mask_); \ }) #define alloca0_align(size, align) \ ({ \ void *_new_; \ size_t _xsize_ = (size); \ _new_ = alloca_align(_xsize_, (align)); \ (void*)memset(_new_, 0, _xsize_); \ }) #if HAS_FEATURE_MEMORY_SANITIZER # define msan_unpoison(r, s) __msan_unpoison(r, s) #else # define msan_unpoison(r, s) #endif