/** * slibc — Yet another C library * Copyright © 2015 Mattias Andrée (maandree@member.fsf.org) * * 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 . */ #ifndef _SLIBC_ALLOC_H #define _SLIBC_ALLOC_H #include #include #ifndef __PORTABLE #define __NEED_size_t #include /** * Configurations for `extalloc`. * They are independent of each other, and * multiple can be selected by using bitwise or * between them. */ enum extalloc_mode { /** * Clear disowned memory. */ EXTALLOC_CLEAR = 1, /** * Create new allocation with `malloc` if necessary. */ EXTALLOC_MALLOC = 2, }; /** * Configurations for `rememalign`. * They are independent of each other, and * multiple can be selected by using bitwise or * between them. */ enum rememalign_mode { /** * Clear disowned memory. */ REMEMALIGN_CLEAR = 1, /** * Initialise new memory. */ REMEMALIGN_INIT = 2, /** * If a new allocation is created, copy the data * from the old allocation over to the new allocation. */ REMEMALIGN_MEMCPY = 4, }; /** * Configurations for `falloc`. * They are independent of each other, and * multiple can be selected by using bitwise or * between them. */ enum falloc_mode { /** * Clear disowned memory. */ FALLOC_CLEAR = 1, /** * Initialise new memory. */ FALLOC_INIT = 2, /** * If a new allocation is created, copy the data * from the old allocation over to the new allocation. */ FALLOC_MEMCPY = 4, }; /** * This function is identical to `free`, except it is guaranteed not to * override the memory segment with zeroes before freeing the allocation. * * @param segment The memory segment to free. */ void fast_free(void*); /** * This function is identical to `free`, except it is guaranteed to * override the memory segment with zeroes before freeing the allocation. * * @param segment The memory segment to free. */ void secure_free(void*); /** * This function returns the allocation size of * a memory segment. * * Note, this only works for the malloc-family of functions. * It does not work on `alloca`, `strdupa` (or similar * functions), memory maps (that are not created by `malloc`,) * or arrays. * * `p = malloc(n), allocsize(p)` will return `n`. * * @param segment The memory segment. * @return The size of the memory segment, 0 on error. * * @throws EINVAL If `segment` is `NULL`. * @throws EFAULT If `segment` is not a pointer to an allocation * on the heap, or was not allocated with a function * implemented in slibc. It is however not guaranteed * that this will happen, undefined behaviour may be * invoked instead. */ size_t allocsize(void*) __GCC_ONLY(__attribute__((__warn_unused_result__))); /** * Variant of `realloc` that overrides newly allocated space * with zeroes. Additionally, it will override any freed space * with zeroes, including the old allocation if it creates a * new allocation. * * @param ptr The old allocation, see `realloc` for more details. * @param size The new allocation size, see `realloc` for more details. * @return The new allocation, see `realloc` for more details. * * @throws ENOMEM The process cannot allocate more memory. */ void* crealloc(void*, size_t) __GCC_ONLY(__attribute__((__warn_unused_result__))); /** * This function behaves exactly like `realloc`, except it is * guaranteed to never initialise or errors data. * * @param ptr The old allocation, see `realloc` for more details. * @param size The new allocation size, see `realloc` for more details. * @return The new allocation, see `realloc` for more details. * * @throws ENOMEM The process cannot allocate more memory. */ void* fast_realloc(void*, size_t) __GCC_ONLY(__attribute__((__warn_unused_result__))); /** * This function behaves exactly like `crealloc`, except it * does not initialise newly allocated size. * * @param ptr The old allocation, see `realloc` for more details. * @param size The new allocation size, see `realloc` for more details. * @return The new allocation, see `realloc` for more details. * * @throws ENOMEM The process cannot allocate more memory. */ void* secure_realloc(void*, size_t) __GCC_ONLY(__attribute__((__warn_unused_result__))); /** * This function behaves exactly like `realloc`, * except you can freely select what memory it clears. * * `crealloc(p, n)` is equivalent to (but slightly fast than) * `custom_realloc(p, n, 1, 1, 1)`. * * `fast_realloc(p, n)` is equivalent to (but slightly fast than) * `custom_realloc(p, n, 0, 0, 0)`. * * `secure_realloc(p, n)` is equivalent to (but slightly fast than) * `custom_realloc(p, n, 1, 0, 1)`. * * @param ptr The old allocation, see `realloc` for more details. * @param size The new allocation size, see `realloc` for more details. * @param clear_old Whether the disowned area is cleared, even if `ptr` is returned. * @param clear_new Whether the newly claimed area is cleared. * @param clear_free Whether the old allocation is cleared if a new pointer is returned. * @return The new allocation, see `realloc` for more details. * * @throws ENOMEM The process cannot allocate more memory. */ void* custom_realloc(void*, size_t, int, int, int) __GCC_ONLY(__attribute__((__warn_unused_result__))); /** * This function is similar to `realloc`, however it * does not copy the data in the memory segment when * a new pointer is created. Additionally, the * behaviour is undefined if `ptr` is `NULL`, `size` * is zero, or `size` equals the old allocation size. * These additional quirks were added to improve * performance; after all, this function was added * to improve performance. * * The behaviour is undefined if `mode` does not * contain a valid flag-combination. * * @param ptr The old allocation, see `realloc` for more details. * @param size The new allocation size, see `realloc` for more details. * @param mode `EXTALLOC_CLEAR` or `EXTALLOC_MALLOC`, or both or neither. * @return The new allocation, see `realloc` for more details. * If `EXTALLOC_MALLOC` is not used, `NULL` is returned * and `errno` set to zero, if a new allocation is required. * * @throws 0 `errno` is set to zero success if `NULL` is returned. * @throws ENOMEM The process cannot allocate more memory. */ void* extalloc(void*, size_t, enum extalloc_mode) __GCC_ONLY(__attribute__((__nonnull__, __warn_unused_result__))); /** * This function is similar to `realloc`, however its * behaviour and pointer alignment can be tuned. * * @param ptr The old allocation, see `realloc` for more details. * @param boundary The alignment, not checked before necessary. * @param size The new allocation size, see `realloc` for more details. * @param mode `REMEMALIGN_CLEAR`, `REMEMALIGN_INIT` or * `REMEMALIGN_MEMCPY`, or both or neither. * @return The new allocation, see `realloc` for more details. * * @throws 0 `errno` is set to zero success if `NULL` is returned. * @throws EINVAL `mode` is invalid, or `boundary` is not a power of two. * @throws ENOMEM The process cannot allocate more memory. */ void* rememalign(void*, size_t, size_t, enum rememalign_mode) __GCC_ONLY(__attribute__((__warn_unused_result__))); /** * This function behaves exactly like `fast_realloc`, except: * - Its behaviour is undefined if `ptr` is `NULL`. * - Its behaviour is undefined if `size` equals the old allocation size. * - Its behaviour is undefined if `size` is zero. * - It will never free `ptr`. * - The alignment of new pointers can be specified. * * This function cannot be used to force realignment, * the aligment is applied when it is necessary to * create a new allocation. * * @param ptr The old allocation, see `realloc` for more details. * @param boundary The alignment, not checked before necessary. * @param size The new allocation size, see `realloc` for more details. * @return The new allocation, see `realloc` for more details. * * @throws ENOMEM The process cannot allocate more memory. */ void* naive_realloc(void*, size_t, size_t) /* sic! we limit ourself to ASCII */ __GCC_ONLY(__attribute__((__nonnull__, __warn_unused_result__))); /** * This function behaves exactly like `naive_realloc`, except * it will return `NULL` with `errno` set to zero, if it is * not possible to perform the shrink or grow without creating * new pointer. * * @param ptr The old allocation, see `realloc` for more details. * @param size The new allocation size, see `realloc` for more details. * @return `ptr` on success or `NULL` on error or if `malloc` is needed. * * @throws 0 `malloc` is require to perform the action. * @throws ENOMEM The process cannot allocate more memory. */ void* naive_extalloc(void*, size_t) /* sic! we limit ourself to ASCII */ __GCC_ONLY(__attribute__((__nonnull__, __warn_unused_result__))); /** * Allocates, deallocates, or reallocates memory without * bookkeeping. The created allocation may not be inspecifed, * deallocated or reallocated with any other function than * this function. * * If `new_size` is zero and `ptr` is `NULL`, * nothing happens, but `errno` is set to zero and `NULL` * is returned. * If `new_size` is non-zero, `old_size` is zero, and `ptr` * is not `NULL` or if `new_size` and `old_size` is non-zero, * and `ptr` is `NULL`, `errno` is set to `EINVAL` and `NULL` * is returned. * If `new_size` and `old_size` is zero and `ptr` is not `NULL`, * `errno` is set to `EINVAL` and `NULL` is returned. * If `new_size` is zero, `old_size` is non-zero, and `ptr` * is not `NULL`, `ptr` is deallocated, and `NULL` is returned * with `errno` set to zero. The memory cleared before it is * deallocated if `mode & FALLOC_CLEAR`. * If `new_size` is non-zero, `old_size` is zero, and `ptr` is * `NULL`, a new allocation is created of `new_size` bytes. * It will be zero-initialised if `mode & FALLOC_INIT`. * If `new_size` and `old_size` is non-zero and `ptr` is not * `NULL`, `ptr` is reallocated. if the allocation is shrunk, * the disowned area is cleared if `mode & FALLOC_CLEAR`. * Newly available memory is zero-initialised if * `mode & FALLOC_INIT`. If a new allocation is required, * the data from the old allocation is only copied over to * the new allocation if `mode & FALLOC_MEMCPY`. If * `(mode & FALLOC_INIT) && !(mode & FALLOC_MEMCPY)`, the * entire allocation will be cleared. * * @param ptr The old pointer, `NULL` if a new shall be created. * @param ptrshift Pointer that is used to keep track of the pointers * shift for alignment. `NULL` if the shift shall not * be tracked. If this is the case, `falloc` cannot * be used to reallocate or deallocate an allocation, * unless the pointer is unaligned (`alignment <= 0`). * @param alignment The aligment of both the new and old pointer, zero * or one if it should not be aligned. * @param old_size The old allocation size, zero if a new shall be created. * @param new_size The new allocation size, zero if it shall be freed. * @param mode `FALLOC_CLEAR`, `FALLOC_INIT` or `FALLOC_MEMCPY`, or * both or neither. * @return The new pointer, or the old pointer if it was reallocated * without creating a new allocation. `NULL` is returned * if `new_size` (errno is set to zero) is zero, or on error * (errno is set to describe the error.) * * @throws 0 `new_size` is zero. * @throws EINVAL The arguments are invalid. * @throws ENOMEM The process cannot allocate more memory. */ void* falloc(void*, size_t*, size_t, size_t, size_t, enum falloc_mode); /** * This macro calls `fast_free` and then sets the pointer to `NULL`, * so that another attempt to free the segment will not crash the process. */ #define FAST_FREE(segment) (fast_free(segment), (void)((segment) = NULL)); /** * This macro calls `secure_free` and then sets the pointer to `NULL`, * so that another attempt to free the segment will not crash the process. */ #define SECURE_FREE(segment) (secure_free(segment), (void)((segment) = NULL)); #endif #endif