#ifndef __XREF_H__ #define __XREF_H__ #include /* xref is used to create relation between two elements. * Once an element is released, it breaks the relation. If the * relation is already broken, it frees the xref struct. * The pointer between two elements is sort of a refcount with * max value 1. The relation is only between two elements. * The pointer and the type of elements a and b are conventional. */ struct xref { struct xref *peer; }; #define XREF_BUSY ((struct xref *)1) static inline void xref_create(struct xref *xref_a, struct xref *xref_b) { xref_a->peer = xref_b; xref_b->peer = xref_a; } static inline struct xref *xref_get_peer_and_lock(struct xref *xref) { struct xref *local; struct xref *remote; while (1) { /* Get the local pointer to the peer. */ local = _HA_ATOMIC_XCHG(&xref->peer, XREF_BUSY); __ha_barrier_atomic_store(); /* If the local pointer is NULL, the peer no longer exists. */ if (local == NULL) { xref->peer = NULL; return NULL; } /* If the local pointeru is BUSY, the peer try to acquire the * lock. We retry the process. */ if (local == XREF_BUSY) continue; /* We are locked, the peer can't disappear, try to acquire * the pper's lock. Note that remote can't be NULL. */ remote = _HA_ATOMIC_XCHG(&local->peer, XREF_BUSY); /* The remote lock is BUSY, We retry the process. */ if (remote == XREF_BUSY) { xref->peer = local; __ha_barrier_store(); continue; } /* We have the lock, we return the value of the xref. */ return local; } } static inline void xref_unlock(struct xref *xref, struct xref *peer) { /* Release the peer. */ peer->peer = xref; __ha_barrier_store(); /* Release myself. */ xref->peer = peer; } static inline void xref_disconnect(struct xref *xref, struct xref *peer) { peer->peer = NULL; __ha_barrier_store(); xref->peer = NULL; } #endif /* __XREF_H__ */