From: Dave Chinner <dchinner@xxxxxxxxxx> Existing users of workqueues have bound maximum queue depths in their external algorithms (e.g. prefetch counts). For parallelising work that doesn't have an external bound, allow workqueues to throttle incoming requests at a maximum bound. Bounded workqueues also need to distribute work over all worker threads themselves as there is no external bounding or worker function throttling provided. Existing callers are not throttled and retain direct control of worker threads, only users of the new create interface will be throttled and concurrency managed. Signed-off-by: Dave Chinner <dchinner@xxxxxxxxxx> --- libfrog/workqueue.c | 42 +++++++++++++++++++++++++++++++++++++++--- libfrog/workqueue.h | 4 ++++ 2 files changed, 43 insertions(+), 3 deletions(-) diff --git a/libfrog/workqueue.c b/libfrog/workqueue.c index fe3de4289379..97f3bf76d9b9 100644 --- a/libfrog/workqueue.c +++ b/libfrog/workqueue.c @@ -40,13 +40,21 @@ workqueue_thread(void *arg) } /* - * Dequeue work from the head of the list. + * Dequeue work from the head of the list. If the queue was + * full then send a wakeup if we're configured to do so. */ assert(wq->item_count > 0); + if (wq->max_queued && wq->item_count == wq->max_queued) + pthread_cond_broadcast(&wq->queue_full); + wi = wq->next_item; wq->next_item = wi->next; wq->item_count--; + if (wq->max_queued && wq->next_item) { + /* more work, wake up another worker */ + pthread_cond_signal(&wq->wakeup); + } pthread_mutex_unlock(&wq->lock); (wi->function)(wi->queue, wi->index, wi->arg); @@ -58,10 +66,11 @@ workqueue_thread(void *arg) /* Allocate a work queue and threads. Returns zero or negative error code. */ int -workqueue_create( +workqueue_create_bound( struct workqueue *wq, void *wq_ctx, - unsigned int nr_workers) + unsigned int nr_workers, + unsigned int max_queue) { unsigned int i; int err = 0; @@ -70,12 +79,16 @@ workqueue_create( err = -pthread_cond_init(&wq->wakeup, NULL); if (err) return err; + err = -pthread_cond_init(&wq->queue_full, NULL); + if (err) + goto out_wake; err = -pthread_mutex_init(&wq->lock, NULL); if (err) goto out_cond; wq->wq_ctx = wq_ctx; wq->thread_count = nr_workers; + wq->max_queued = max_queue; wq->threads = malloc(nr_workers * sizeof(pthread_t)); if (!wq->threads) { err = -errno; @@ -102,10 +115,21 @@ workqueue_create( out_mutex: pthread_mutex_destroy(&wq->lock); out_cond: + pthread_cond_destroy(&wq->queue_full); +out_wake: pthread_cond_destroy(&wq->wakeup); return err; } +int +workqueue_create( + struct workqueue *wq, + void *wq_ctx, + unsigned int nr_workers) +{ + return workqueue_create_bound(wq, wq_ctx, nr_workers, 0); +} + /* * Create a work item consisting of a function and some arguments and schedule * the work item to be run via the thread pool. Returns zero or a negative @@ -140,6 +164,7 @@ workqueue_add( /* Now queue the new work structure to the work queue. */ pthread_mutex_lock(&wq->lock); +restart: if (wq->next_item == NULL) { assert(wq->item_count == 0); ret = -pthread_cond_signal(&wq->wakeup); @@ -150,6 +175,16 @@ workqueue_add( } wq->next_item = wi; } else { + /* throttle on a full queue if configured */ + if (wq->max_queued && wq->item_count == wq->max_queued) { + pthread_cond_wait(&wq->queue_full, &wq->lock); + /* + * Queue might be empty or even still full by the time + * we get the lock back, so restart the lookup so we do + * the right thing with the current state of the queue. + */ + goto restart; + } wq->last_item->next = wi; } wq->last_item = wi; @@ -201,5 +236,6 @@ workqueue_destroy( free(wq->threads); pthread_mutex_destroy(&wq->lock); pthread_cond_destroy(&wq->wakeup); + pthread_cond_destroy(&wq->queue_full); memset(wq, 0, sizeof(*wq)); } diff --git a/libfrog/workqueue.h b/libfrog/workqueue.h index a56d1cf14081..a9c108d0e66a 100644 --- a/libfrog/workqueue.h +++ b/libfrog/workqueue.h @@ -31,10 +31,14 @@ struct workqueue { unsigned int thread_count; bool terminate; bool terminated; + int max_queued; + pthread_cond_t queue_full; }; int workqueue_create(struct workqueue *wq, void *wq_ctx, unsigned int nr_workers); +int workqueue_create_bound(struct workqueue *wq, void *wq_ctx, + unsigned int nr_workers, unsigned int max_queue); int workqueue_add(struct workqueue *wq, workqueue_func_t fn, uint32_t index, void *arg); int workqueue_terminate(struct workqueue *wq); -- 2.30.1