/* * Copyright (c) 2018 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Public interface for spinlocks */ #ifndef ZEPHYR_INCLUDE_SPINLOCK_H_ #define ZEPHYR_INCLUDE_SPINLOCK_H_ #include #include #include #include #ifdef __cplusplus extern "C" { #endif /** * @brief Spinlock APIs * @defgroup spinlock_apis Spinlock APIs * @ingroup kernel_apis * @{ */ struct z_spinlock_key { int key; }; /** * @brief Kernel Spin Lock * * This struct defines a spin lock record on which CPUs can wait with * k_spin_lock(). Any number of spinlocks may be defined in * application code. */ struct k_spinlock { #ifdef CONFIG_SMP atomic_t locked; #endif #ifdef CONFIG_SPIN_VALIDATE /* Stores the thread that holds the lock with the locking CPU * ID in the bottom two bits. */ uintptr_t thread_cpu; #endif #if defined(CONFIG_CPLUSPLUS) && !defined(CONFIG_SMP) && \ !defined(CONFIG_SPIN_VALIDATE) /* If CONFIG_SMP and CONFIG_SPIN_VALIDATE are both not defined * the k_spinlock struct will have no members. The result * is that in C sizeof(k_spinlock) is 0 and in C++ it is 1. * * This size difference causes problems when the k_spinlock * is embedded into another struct like k_msgq, because C and * C++ will have different ideas on the offsets of the members * that come after the k_spinlock member. * * To prevent this we add a 1 byte dummy member to k_spinlock * when the user selects C++ support and k_spinlock would * otherwise be empty. */ char dummy; #endif }; /* There's a spinlock validation framework available when asserts are * enabled. It adds a relatively hefty overhead (about 3k or so) to * kernel code size, don't use on platforms known to be small. */ #ifdef CONFIG_SPIN_VALIDATE bool z_spin_lock_valid(struct k_spinlock *l); bool z_spin_unlock_valid(struct k_spinlock *l); void z_spin_lock_set_owner(struct k_spinlock *l); BUILD_ASSERT(CONFIG_MP_NUM_CPUS <= 4, "Too many CPUs for mask"); # ifdef CONFIG_KERNEL_COHERENCE bool z_spin_lock_mem_coherent(struct k_spinlock *l); # endif /* CONFIG_KERNEL_COHERENCE */ #endif /* CONFIG_SPIN_VALIDATE */ /** * @brief Spinlock key type * * This type defines a "key" value used by a spinlock implementation * to store the system interrupt state at the time of a call to * k_spin_lock(). It is expected to be passed to a matching * k_spin_unlock(). * * This type is opaque and should not be inspected by application * code. */ typedef struct z_spinlock_key k_spinlock_key_t; /** * @brief Lock a spinlock * * This routine locks the specified spinlock, returning a key handle * representing interrupt state needed at unlock time. Upon * returning, the calling thread is guaranteed not to be suspended or * interrupted on its current CPU until it calls k_spin_unlock(). The * implementation guarantees mutual exclusion: exactly one thread on * one CPU will return from k_spin_lock() at a time. Other CPUs * trying to acquire a lock already held by another CPU will enter an * implementation-defined busy loop ("spinning") until the lock is * released. * * Separate spin locks may be nested. It is legal to lock an * (unlocked) spin lock while holding a different lock. Spin locks * are not recursive, however: an attempt to acquire a spin lock that * the CPU already holds will deadlock. * * In circumstances where only one CPU exists, the behavior of * k_spin_lock() remains as specified above, though obviously no * spinning will take place. Implementations may be free to optimize * in uniprocessor contexts such that the locking reduces to an * interrupt mask operation. * * @param l A pointer to the spinlock to lock * @return A key value that must be passed to k_spin_unlock() when the * lock is released. */ static ALWAYS_INLINE k_spinlock_key_t k_spin_lock(struct k_spinlock *l) { ARG_UNUSED(l); k_spinlock_key_t k; /* Note that we need to use the underlying arch-specific lock * implementation. The "irq_lock()" API in SMP context is * actually a wrapper for a global spinlock! */ k.key = arch_irq_lock(); #ifdef CONFIG_SPIN_VALIDATE __ASSERT(z_spin_lock_valid(l), "Recursive spinlock %p", l); # ifdef CONFIG_KERNEL_COHERENCE __ASSERT_NO_MSG(z_spin_lock_mem_coherent(l)); # endif #endif #ifdef CONFIG_SMP while (!atomic_cas(&l->locked, 0, 1)) { } #endif #ifdef CONFIG_SPIN_VALIDATE z_spin_lock_set_owner(l); #endif return k; } /** * @brief Unlock a spin lock * * This releases a lock acquired by k_spin_lock(). After this * function is called, any CPU will be able to acquire the lock. If * other CPUs are currently spinning inside k_spin_lock() waiting for * this lock, exactly one of them will return synchronously with the * lock held. * * Spin locks must be properly nested. A call to k_spin_unlock() must * be made on the lock object most recently locked using * k_spin_lock(), using the key value that it returned. Attempts to * unlock mis-nested locks, or to unlock locks that are not held, or * to passing a key parameter other than the one returned from * k_spin_lock(), are illegal. When CONFIG_SPIN_VALIDATE is set, some * of these errors can be detected by the framework. * * @param l A pointer to the spinlock to release * @param key The value returned from k_spin_lock() when this lock was * acquired */ static ALWAYS_INLINE void k_spin_unlock(struct k_spinlock *l, k_spinlock_key_t key) { ARG_UNUSED(l); #ifdef CONFIG_SPIN_VALIDATE __ASSERT(z_spin_unlock_valid(l), "Not my spinlock %p", l); #endif #ifdef CONFIG_SMP /* Strictly we don't need atomic_clear() here (which is an * exchange operation that returns the old value). We are always * setting a zero and (because we hold the lock) know the existing * state won't change due to a race. But some architectures need * a memory barrier when used like this, and we don't have a * Zephyr framework for that. */ atomic_clear(&l->locked); #endif arch_irq_unlock(key.key); } /* Internal function: releases the lock, but leaves local interrupts * disabled */ static ALWAYS_INLINE void k_spin_release(struct k_spinlock *l) { ARG_UNUSED(l); #ifdef CONFIG_SPIN_VALIDATE __ASSERT(z_spin_unlock_valid(l), "Not my spinlock %p", l); #endif #ifdef CONFIG_SMP atomic_clear(&l->locked); #endif } /** @} */ #ifdef __cplusplus } #endif #endif /* ZEPHYR_INCLUDE_SPINLOCK_H_ */