/* SPDX-License-Identifier: GPL-2.0 */ /* * Kernel Electric-Fence (KFENCE). Public interface for allocator and fault * handler integration. For more info see Documentation/dev-tools/kfence.rst. * * Copyright (C) 2020, Google LLC. */ #ifndef _LINUX_KFENCE_H #define _LINUX_KFENCE_H #include #include #ifdef CONFIG_KFENCE #include #include extern unsigned long kfence_sample_interval; /* * We allocate an even number of pages, as it simplifies calculations to map * address to metadata indices; effectively, the very first page serves as an * extended guard page, but otherwise has no special purpose. */ #define KFENCE_POOL_SIZE ((CONFIG_KFENCE_NUM_OBJECTS + 1) * 2 * PAGE_SIZE) extern char *__kfence_pool; DECLARE_STATIC_KEY_FALSE(kfence_allocation_key); extern atomic_t kfence_allocation_gate; /** * is_kfence_address() - check if an address belongs to KFENCE pool * @addr: address to check * * Return: true or false depending on whether the address is within the KFENCE * object range. * * KFENCE objects live in a separate page range and are not to be intermixed * with regular heap objects (e.g. KFENCE objects must never be added to the * allocator freelists). Failing to do so may and will result in heap * corruptions, therefore is_kfence_address() must be used to check whether * an object requires specific handling. * * Note: This function may be used in fast-paths, and is performance critical. * Future changes should take this into account; for instance, we want to avoid * introducing another load and therefore need to keep KFENCE_POOL_SIZE a * constant (until immediate patching support is added to the kernel). */ static __always_inline bool is_kfence_address(const void *addr) { /* * The __kfence_pool != NULL check is required to deal with the case * where __kfence_pool == NULL && addr < KFENCE_POOL_SIZE. Keep it in * the slow-path after the range-check! */ return unlikely((unsigned long)((char *)addr - __kfence_pool) < KFENCE_POOL_SIZE && __kfence_pool); } /** * kfence_alloc_pool_and_metadata() - allocate the KFENCE pool and KFENCE * metadata via memblock */ void __init kfence_alloc_pool_and_metadata(void); /** * kfence_init() - perform KFENCE initialization at boot time * * Requires that kfence_alloc_pool_and_metadata() was called before. This sets * up the allocation gate timer, and requires that workqueues are available. */ void __init kfence_init(void); /** * kfence_shutdown_cache() - handle shutdown_cache() for KFENCE objects * @s: cache being shut down * * Before shutting down a cache, one must ensure there are no remaining objects * allocated from it. Because KFENCE objects are not referenced from the cache * directly, we need to check them here. * * Note that shutdown_cache() is internal to SL*B, and kmem_cache_destroy() does * not return if allocated objects still exist: it prints an error message and * simply aborts destruction of a cache, leaking memory. * * If the only such objects are KFENCE objects, we will not leak the entire * cache, but instead try to provide more useful debug info by making allocated * objects "zombie allocations". Objects may then still be used or freed (which * is handled gracefully), but usage will result in showing KFENCE error reports * which include stack traces to the user of the object, the original allocation * site, and caller to shutdown_cache(). */ void kfence_shutdown_cache(struct kmem_cache *s); /* * Allocate a KFENCE object. Allocators must not call this function directly, * use kfence_alloc() instead. */ void *__kfence_alloc(struct kmem_cache *s, size_t size, gfp_t flags); /** * kfence_alloc() - allocate a KFENCE object with a low probability * @s: struct kmem_cache with object requirements * @size: exact size of the object to allocate (can be less than @s->size * e.g. for kmalloc caches) * @flags: GFP flags * * Return: * * NULL - must proceed with allocating as usual, * * non-NULL - pointer to a KFENCE object. * * kfence_alloc() should be inserted into the heap allocation fast path, * allowing it to transparently return KFENCE-allocated objects with a low * probability using a static branch (the probability is controlled by the * kfence.sample_interval boot parameter). */ static __always_inline void *kfence_alloc(struct kmem_cache *s, size_t size, gfp_t flags) { #if defined(CONFIG_KFENCE_STATIC_KEYS) || CONFIG_KFENCE_SAMPLE_INTERVAL == 0 if (!static_branch_unlikely(&kfence_allocation_key)) return NULL; #else if (!static_branch_likely(&kfence_allocation_key)) return NULL; #endif if (likely(atomic_read(&kfence_allocation_gate) > 0)) return NULL; return __kfence_alloc(s, size, flags); } /** * kfence_ksize() - get actual amount of memory allocated for a KFENCE object * @addr: pointer to a heap object * * Return: * * 0 - not a KFENCE object, must call __ksize() instead, * * non-0 - this many bytes can be accessed without causing a memory error. * * kfence_ksize() returns the number of bytes requested for a KFENCE object at * allocation time. This number may be less than the object size of the * corresponding struct kmem_cache. */ size_t kfence_ksize(const void *addr); /** * kfence_object_start() - find the beginning of a KFENCE object * @addr: address within a KFENCE-allocated object * * Return: address of the beginning of the object. * * SL[AU]B-allocated objects are laid out within a page one by one, so it is * easy to calculate the beginning of an object given a pointer inside it and * the object size. The same is not true for KFENCE, which places a single * object at either end of the page. This helper function is used to find the * beginning of a KFENCE-allocated object. */ void *kfence_object_start(const void *addr); /** * __kfence_free() - release a KFENCE heap object to KFENCE pool * @addr: object to be freed * * Requires: is_kfence_address(addr) * * Release a KFENCE object and mark it as freed. */ void __kfence_free(void *addr); /** * kfence_free() - try to release an arbitrary heap object to KFENCE pool * @addr: object to be freed * * Return: * * false - object doesn't belong to KFENCE pool and was ignored, * * true - object was released to KFENCE pool. * * Release a KFENCE object and mark it as freed. May be called on any object, * even non-KFENCE objects, to simplify integration of the hooks into the * allocator's free codepath. The allocator must check the return value to * determine if it was a KFENCE object or not. */ static __always_inline __must_check bool kfence_free(void *addr) { if (!is_kfence_address(addr)) return false; __kfence_free(addr); return true; } /** * kfence_handle_page_fault() - perform page fault handling for KFENCE pages * @addr: faulting address * @is_write: is access a write * @regs: current struct pt_regs (can be NULL, but shows full stack trace) * * Return: * * false - address outside KFENCE pool, * * true - page fault handled by KFENCE, no additional handling required. * * A page fault inside KFENCE pool indicates a memory error, such as an * out-of-bounds access, a use-after-free or an invalid memory access. In these * cases KFENCE prints an error message and marks the offending page as * present, so that the kernel can proceed. */ bool __must_check kfence_handle_page_fault(unsigned long addr, bool is_write, struct pt_regs *regs); #ifdef CONFIG_PRINTK struct kmem_obj_info; /** * __kfence_obj_info() - fill kmem_obj_info struct * @kpp: kmem_obj_info to be filled * @object: the object * * Return: * * false - not a KFENCE object * * true - a KFENCE object, filled @kpp * * Copies information to @kpp for KFENCE objects. */ bool __kfence_obj_info(struct kmem_obj_info *kpp, void *object, struct slab *slab); #endif #else /* CONFIG_KFENCE */ #define kfence_sample_interval (0) static inline bool is_kfence_address(const void *addr) { return false; } static inline void kfence_alloc_pool_and_metadata(void) { } static inline void kfence_init(void) { } static inline void kfence_shutdown_cache(struct kmem_cache *s) { } static inline void *kfence_alloc(struct kmem_cache *s, size_t size, gfp_t flags) { return NULL; } static inline size_t kfence_ksize(const void *addr) { return 0; } static inline void *kfence_object_start(const void *addr) { return NULL; } static inline void __kfence_free(void *addr) { } static inline bool __must_check kfence_free(void *addr) { return false; } static inline bool __must_check kfence_handle_page_fault(unsigned long addr, bool is_write, struct pt_regs *regs) { return false; } #ifdef CONFIG_PRINTK struct kmem_obj_info; static inline bool __kfence_obj_info(struct kmem_obj_info *kpp, void *object, struct slab *slab) { return false; } #endif #endif #endif /* _LINUX_KFENCE_H */