Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Sakai | 376 | 96.91% | 1 | 25.00% |
Mike Snitzer | 12 | 3.09% | 3 | 75.00% |
Total | 388 | 4 |
// SPDX-License-Identifier: GPL-2.0-only /* * Copyright 2023 Red Hat */ #include "funnel-queue.h" #include "cpu.h" #include "memory-alloc.h" #include "permassert.h" int vdo_make_funnel_queue(struct funnel_queue **queue_ptr) { int result; struct funnel_queue *queue; result = vdo_allocate(1, struct funnel_queue, "funnel queue", &queue); if (result != VDO_SUCCESS) return result; /* * Initialize the stub entry and put it in the queue, establishing the invariant that * queue->newest and queue->oldest are never null. */ queue->stub.next = NULL; queue->newest = &queue->stub; queue->oldest = &queue->stub; *queue_ptr = queue; return VDO_SUCCESS; } void vdo_free_funnel_queue(struct funnel_queue *queue) { vdo_free(queue); } static struct funnel_queue_entry *get_oldest(struct funnel_queue *queue) { /* * Barrier requirements: We need a read barrier between reading a "next" field pointer * value and reading anything it points to. There's an accompanying barrier in * vdo_funnel_queue_put() between its caller setting up the entry and making it visible. */ struct funnel_queue_entry *oldest = queue->oldest; struct funnel_queue_entry *next = READ_ONCE(oldest->next); if (oldest == &queue->stub) { /* * When the oldest entry is the stub and it has no successor, the queue is * logically empty. */ if (next == NULL) return NULL; /* * The stub entry has a successor, so the stub can be dequeued and ignored without * breaking the queue invariants. */ oldest = next; queue->oldest = oldest; next = READ_ONCE(oldest->next); } /* * We have a non-stub candidate to dequeue. If it lacks a successor, we'll need to put the * stub entry back on the queue first. */ if (next == NULL) { struct funnel_queue_entry *newest = READ_ONCE(queue->newest); if (oldest != newest) { /* * Another thread has already swung queue->newest atomically, but not yet * assigned previous->next. The queue is really still empty. */ return NULL; } /* * Put the stub entry back on the queue, ensuring a successor will eventually be * seen. */ vdo_funnel_queue_put(queue, &queue->stub); /* Check again for a successor. */ next = READ_ONCE(oldest->next); if (next == NULL) { /* * We lost a race with a producer who swapped queue->newest before we did, * but who hasn't yet updated previous->next. Try again later. */ return NULL; } } return oldest; } /* * Poll a queue, removing the oldest entry if the queue is not empty. This function must only be * called from a single consumer thread. */ struct funnel_queue_entry *vdo_funnel_queue_poll(struct funnel_queue *queue) { struct funnel_queue_entry *oldest = get_oldest(queue); if (oldest == NULL) return oldest; /* * Dequeue the oldest entry and return it. Only one consumer thread may call this function, * so no locking, atomic operations, or fences are needed; queue->oldest is owned by the * consumer and oldest->next is never used by a producer thread after it is swung from NULL * to non-NULL. */ queue->oldest = READ_ONCE(oldest->next); /* * Make sure the caller sees the proper stored data for this entry. Since we've already * fetched the entry pointer we stored in "queue->oldest", this also ensures that on entry * to the next call we'll properly see the dependent data. */ smp_rmb(); /* * If "oldest" is a very light-weight work item, we'll be looking for the next one very * soon, so prefetch it now. */ uds_prefetch_address(queue->oldest, true); WRITE_ONCE(oldest->next, NULL); return oldest; } /* * Check whether the funnel queue is empty or not. If the queue is in a transition state with one * or more entries being added such that the list view is incomplete, this function will report the * queue as empty. */ bool vdo_is_funnel_queue_empty(struct funnel_queue *queue) { return get_oldest(queue) == NULL; } /* * Check whether the funnel queue is idle or not. If the queue has entries available to be * retrieved, it is not idle. If the queue is in a transition state with one or more entries being * added such that the list view is incomplete, it may not be possible to retrieve an entry with * the vdo_funnel_queue_poll() function, but the queue will not be considered idle. */ bool vdo_is_funnel_queue_idle(struct funnel_queue *queue) { /* * Oldest is not the stub, so there's another entry, though if next is NULL we can't * retrieve it yet. */ if (queue->oldest != &queue->stub) return false; /* * Oldest is the stub, but newest has been updated by _put(); either there's another, * retrievable entry in the list, or the list is officially empty but in the intermediate * state of having an entry added. * * Whether anything is retrievable depends on whether stub.next has been updated and become * visible to us, but for idleness we don't care. And due to memory ordering in _put(), the * update to newest would be visible to us at the same time or sooner. */ if (READ_ONCE(queue->newest) != &queue->stub) return false; return true; }
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