/* SPDX-License-Identifier: GPL-2.0-only */ #ifndef _LINUX_FILE_REF_H #define _LINUX_FILE_REF_H #include #include #include /* * file_ref is a reference count implementation specifically for use by * files. It takes inspiration from rcuref but differs in key aspects * such as support for SLAB_TYPESAFE_BY_RCU type caches. * * FILE_REF_ONEREF FILE_REF_MAXREF * 0x0000000000000000UL 0x7FFFFFFFFFFFFFFFUL * <-------------------valid -------------------> * * FILE_REF_SATURATED * 0x8000000000000000UL 0xA000000000000000UL 0xBFFFFFFFFFFFFFFFUL * <-----------------------saturation zone----------------------> * * FILE_REF_RELEASED FILE_REF_DEAD * 0xC000000000000000UL 0xE000000000000000UL * <-------------------dead zone-------------------> * * FILE_REF_NOREF * 0xFFFFFFFFFFFFFFFFUL */ #ifdef CONFIG_64BIT #define FILE_REF_ONEREF 0x0000000000000000UL #define FILE_REF_MAXREF 0x7FFFFFFFFFFFFFFFUL #define FILE_REF_SATURATED 0xA000000000000000UL #define FILE_REF_RELEASED 0xC000000000000000UL #define FILE_REF_DEAD 0xE000000000000000UL #define FILE_REF_NOREF 0xFFFFFFFFFFFFFFFFUL #else #define FILE_REF_ONEREF 0x00000000U #define FILE_REF_MAXREF 0x7FFFFFFFU #define FILE_REF_SATURATED 0xA0000000U #define FILE_REF_RELEASED 0xC0000000U #define FILE_REF_DEAD 0xE0000000U #define FILE_REF_NOREF 0xFFFFFFFFU #endif typedef struct { #ifdef CONFIG_64BIT atomic64_t refcnt; #else atomic_t refcnt; #endif } file_ref_t; /** * file_ref_init - Initialize a file reference count * @ref: Pointer to the reference count * @cnt: The initial reference count typically '1' */ static inline void file_ref_init(file_ref_t *ref, unsigned long cnt) { atomic_long_set(&ref->refcnt, cnt - 1); } bool __file_ref_put(file_ref_t *ref, unsigned long cnt); /** * file_ref_get - Acquire one reference on a file * @ref: Pointer to the reference count * * Similar to atomic_inc_not_zero() but saturates at FILE_REF_MAXREF. * * Provides full memory ordering. * * Return: False if the attempt to acquire a reference failed. This happens * when the last reference has been put already. True if a reference * was successfully acquired */ static __always_inline __must_check bool file_ref_get(file_ref_t *ref) { /* * Unconditionally increase the reference count with full * ordering. The saturation and dead zones provide enough * tolerance for this. * * If this indicates negative the file in question the fail can * be freed and immediately reused due to SLAB_TYPSAFE_BY_RCU. * Hence, unconditionally altering the file reference count to * e.g., reset the file reference count back to the middle of * the deadzone risk end up marking someone else's file as dead * behind their back. * * It would be possible to do a careful: * * cnt = atomic_long_inc_return(); * if (likely(cnt >= 0)) * return true; * * and then something like: * * if (cnt >= FILE_REF_RELEASE) * atomic_long_try_cmpxchg(&ref->refcnt, &cnt, FILE_REF_DEAD), * * to set the value back to the middle of the deadzone. But it's * practically impossible to go from FILE_REF_DEAD to * FILE_REF_ONEREF. It would need 2305843009213693952/2^61 * file_ref_get()s to resurrect such a dead file. */ return !atomic_long_add_negative(1, &ref->refcnt); } /** * file_ref_inc - Acquire one reference on a file * @ref: Pointer to the reference count * * Acquire an additional reference on a file. Warns if the caller didn't * already hold a reference. */ static __always_inline void file_ref_inc(file_ref_t *ref) { long prior = atomic_long_fetch_inc_relaxed(&ref->refcnt); WARN_ONCE(prior < 0, "file_ref_inc() on a released file reference"); } /** * file_ref_put -- Release a file reference * @ref: Pointer to the reference count * * Provides release memory ordering, such that prior loads and stores * are done before, and provides an acquire ordering on success such * that free() must come after. * * Return: True if this was the last reference with no future references * possible. This signals the caller that it can safely release * the object which is protected by the reference counter. * False if there are still active references or the put() raced * with a concurrent get()/put() pair. Caller is not allowed to * release the protected object. */ static __always_inline __must_check bool file_ref_put(file_ref_t *ref) { long cnt; /* * While files are SLAB_TYPESAFE_BY_RCU and thus file_ref_put() * calls don't risk UAFs when a file is recyclyed, it is still * vulnerable to UAFs caused by freeing the whole slab page once * it becomes unused. Prevent file_ref_put() from being * preempted protects against this. */ guard(preempt)(); /* * Unconditionally decrease the reference count. The saturation * and dead zones provide enough tolerance for this. If this * fails then we need to handle the last reference drop and * cases inside the saturation and dead zones. */ cnt = atomic_long_dec_return(&ref->refcnt); if (cnt >= 0) return false; return __file_ref_put(ref, cnt); } /** * file_ref_read - Read the number of file references * @ref: Pointer to the reference count * * Return: The number of held references (0 ... N) */ static inline unsigned long file_ref_read(file_ref_t *ref) { unsigned long c = atomic_long_read(&ref->refcnt); /* Return 0 if within the DEAD zone. */ return c >= FILE_REF_RELEASED ? 0 : c + 1; } #endif