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Add support for multi-priority workqueues
Each piece of queued work now has an associated priority value; each priority goes on a separate queue. With probability (N-1)/N, the workers will take work from the highest priority nonempty queue. Otherwise, they'll look for work in a queue of lower priority. This behavior is meant to prevent starvation for lower-priority tasks.
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changes/multi-priority
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5
changes/multi-priority
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@ -0,0 +1,5 @@
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o Minor features (relay, thread pool):
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- Allow background work to be queued with different priorities, so
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that a big pile of slow low-priority jobs will not starve out
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higher priority jobs. This lays the groundwork for a fix for bug
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22883.
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@ -25,11 +25,19 @@
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#include "orconfig.h"
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#include "compat.h"
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#include "compat_threads.h"
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#include "crypto.h"
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#include "util.h"
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#include "workqueue.h"
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#include "tor_queue.h"
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#include "torlog.h"
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#define WORKQUEUE_PRIORITY_FIRST WQ_PRI_HIGH
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#define WORKQUEUE_PRIORITY_LAST WQ_PRI_LOW
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#define WORKQUEUE_N_PRIORITIES (((int) WORKQUEUE_PRIORITY_LAST)+1)
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TOR_TAILQ_HEAD(work_tailq_t, workqueue_entry_s);
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typedef struct work_tailq_t work_tailq_t;
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struct threadpool_s {
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/** An array of pointers to workerthread_t: one for each running worker
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* thread. */
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@ -38,8 +46,12 @@ struct threadpool_s {
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/** Condition variable that we wait on when we have no work, and which
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* gets signaled when our queue becomes nonempty. */
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tor_cond_t condition;
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/** Queue of pending work that we have to do. */
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TOR_TAILQ_HEAD(, workqueue_entry_s) work;
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/** Queues of pending work that we have to do. The queue with priority
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* <b>p</b> is work[p]. */
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work_tailq_t work[WORKQUEUE_N_PRIORITIES];
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/** Weak RNG, used to decide when to ignore priority. */
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tor_weak_rng_t weak_rng;
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/** The current 'update generation' of the threadpool. Any thread that is
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* at an earlier generation needs to run the update function. */
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@ -66,6 +78,11 @@ struct threadpool_s {
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void *new_thread_state_arg;
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};
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/** Used to put a workqueue_priority_t value into a bitfield. */
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#define workqueue_priority_bitfield_t ENUM_BF(workqueue_priority_t)
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/** Number of bits needed to hold all legal values of workqueue_priority_t */
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#define WORKQUEUE_PRIORITY_BITS 2
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struct workqueue_entry_s {
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/** The next workqueue_entry_t that's pending on the same thread or
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* reply queue. */
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@ -76,6 +93,8 @@ struct workqueue_entry_s {
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struct threadpool_s *on_pool;
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/** True iff this entry is waiting for a worker to start processing it. */
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uint8_t pending;
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/** Priority of this entry. */
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workqueue_priority_bitfield_t priority : WORKQUEUE_PRIORITY_BITS;
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/** Function to run in the worker thread. */
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workqueue_reply_t (*fn)(void *state, void *arg);
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/** Function to run while processing the reply queue. */
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@ -125,6 +144,7 @@ workqueue_entry_new(workqueue_reply_t (*fn)(void*, void*),
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ent->fn = fn;
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ent->reply_fn = reply_fn;
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ent->arg = arg;
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ent->priority = WQ_PRI_HIGH;
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return ent;
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}
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@ -161,8 +181,9 @@ workqueue_entry_cancel(workqueue_entry_t *ent)
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int cancelled = 0;
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void *result = NULL;
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tor_mutex_acquire(&ent->on_pool->lock);
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workqueue_priority_t prio = ent->priority;
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if (ent->pending) {
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TOR_TAILQ_REMOVE(&ent->on_pool->work, ent, next_work);
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TOR_TAILQ_REMOVE(&ent->on_pool->work[prio], ent, next_work);
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cancelled = 1;
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result = ent->arg;
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}
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@ -180,8 +201,50 @@ workqueue_entry_cancel(workqueue_entry_t *ent)
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static int
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worker_thread_has_work(workerthread_t *thread)
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{
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return !TOR_TAILQ_EMPTY(&thread->in_pool->work) ||
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thread->generation != thread->in_pool->generation;
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unsigned i;
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for (i = WORKQUEUE_PRIORITY_FIRST; i <= WORKQUEUE_PRIORITY_LAST; ++i) {
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if (!TOR_TAILQ_EMPTY(&thread->in_pool->work[i]))
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return 1;
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}
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return thread->generation != thread->in_pool->generation;
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}
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/** With this probability, we'll consider taking work from a lower-priority
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* queue when we already have higher-priority work. This keeps priority from
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* becoming completely inverted. */
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#define LOWER_PRIORITY_CHANCE 37
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/** Extract the next workqueue_entry_t from the the thread's pool, removing
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* it from the relevant queues and marking it as non-pending.
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*
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* The caller must hold the lock. */
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static workqueue_entry_t *
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worker_thread_extract_next_work(workerthread_t *thread)
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{
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threadpool_t *pool = thread->in_pool;
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work_tailq_t *queue = NULL, *this_queue;
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unsigned i;
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for (i = WORKQUEUE_PRIORITY_FIRST; i <= WORKQUEUE_PRIORITY_LAST; ++i) {
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this_queue = &pool->work[i];
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if (!TOR_TAILQ_EMPTY(this_queue)) {
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queue = this_queue;
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if (! tor_weak_random_one_in_n(&pool->weak_rng, LOWER_PRIORITY_CHANCE)) {
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/* Usually we'll just break now, so that we can get out of the loop
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* and use the queue where we found work. But with a small
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* probability, we'll keep looking for lower priority work, so that
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* we don't ignore our low-priority queues entirely. */
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break;
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}
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}
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}
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if (queue == NULL)
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return NULL;
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workqueue_entry_t *work = TOR_TAILQ_FIRST(queue);
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TOR_TAILQ_REMOVE(queue, work, next_work);
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work->pending = 0;
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return work;
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}
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/**
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@ -217,9 +280,9 @@ worker_thread_main(void *thread_)
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tor_mutex_acquire(&pool->lock);
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continue;
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}
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work = TOR_TAILQ_FIRST(&pool->work);
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TOR_TAILQ_REMOVE(&pool->work, work, next_work);
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work->pending = 0;
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work = worker_thread_extract_next_work(thread);
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if (BUG(work == NULL))
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break;
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tor_mutex_release(&pool->lock);
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/* We run the work function without holding the thread lock. This
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@ -301,22 +364,31 @@ workerthread_new(void *state, threadpool_t *pool, replyqueue_t *replyqueue)
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* On success, return a workqueue_entry_t object that can be passed to
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* workqueue_entry_cancel(). On failure, return NULL.
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*
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* Items are executed in a loose priority order -- each thread will usually
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* take from the queued work with the highest prioirity, but will occasionally
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* visit lower-priority queues to keep them from starving completely.
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*
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* Note that because each thread has its own work queue, work items may not
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* be executed strictly in order.
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*/
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workqueue_entry_t *
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threadpool_queue_work(threadpool_t *pool,
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workqueue_reply_t (*fn)(void *, void *),
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void (*reply_fn)(void *),
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void *arg)
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threadpool_queue_work_priority(threadpool_t *pool,
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workqueue_priority_t prio,
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workqueue_reply_t (*fn)(void *, void *),
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void (*reply_fn)(void *),
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void *arg)
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{
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tor_assert(prio >= WORKQUEUE_PRIORITY_FIRST &&
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prio <= WORKQUEUE_PRIORITY_LAST);
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workqueue_entry_t *ent = workqueue_entry_new(fn, reply_fn, arg);
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ent->on_pool = pool;
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ent->pending = 1;
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ent->priority = prio;
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tor_mutex_acquire(&pool->lock);
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TOR_TAILQ_INSERT_TAIL(&pool->work, ent, next_work);
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TOR_TAILQ_INSERT_TAIL(&pool->work[prio], ent, next_work);
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tor_cond_signal_one(&pool->condition);
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@ -325,6 +397,16 @@ threadpool_queue_work(threadpool_t *pool,
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return ent;
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}
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/** As threadpool_queue_work_priority(), but assumes WQ_PRI_HIGH */
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workqueue_entry_t *
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threadpool_queue_work(threadpool_t *pool,
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workqueue_reply_t (*fn)(void *, void *),
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void (*reply_fn)(void *),
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void *arg)
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{
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return threadpool_queue_work_priority(pool, WQ_PRI_HIGH, fn, reply_fn, arg);
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}
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/**
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* Queue a copy of a work item for every thread in a pool. This can be used,
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* for example, to tell the threads to update some parameter in their states.
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@ -441,7 +523,15 @@ threadpool_new(int n_threads,
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pool = tor_malloc_zero(sizeof(threadpool_t));
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tor_mutex_init_nonrecursive(&pool->lock);
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tor_cond_init(&pool->condition);
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TOR_TAILQ_INIT(&pool->work);
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unsigned i;
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for (i = WORKQUEUE_PRIORITY_FIRST; i <= WORKQUEUE_PRIORITY_LAST; ++i) {
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TOR_TAILQ_INIT(&pool->work[i]);
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}
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{
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unsigned seed;
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crypto_rand((void*)&seed, sizeof(seed));
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tor_init_weak_random(&pool->weak_rng, seed);
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}
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pool->new_thread_state_fn = new_thread_state_fn;
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pool->new_thread_state_arg = arg;
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WQ_RPL_SHUTDOWN = 2, /** indicates thread is shutting down */
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} workqueue_reply_t;
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/** Possible priorities for work. Lower numeric values are more important. */
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typedef enum workqueue_priority_t {
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WQ_PRI_HIGH = 0,
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WQ_PRI_MED = 1,
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WQ_PRI_LOW = 2,
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} workqueue_priority_t;
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workqueue_entry_t *threadpool_queue_work_priority(threadpool_t *pool,
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workqueue_priority_t prio,
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workqueue_reply_t (*fn)(void *,
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void *),
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void (*reply_fn)(void *),
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void *arg);
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workqueue_entry_t *threadpool_queue_work(threadpool_t *pool,
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workqueue_reply_t (*fn)(void *,
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void *),
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crypto_rand((char*)w->msg, 20);
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w->msglen = 20;
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++rsa_sent;
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return threadpool_queue_work(tp, workqueue_do_rsa, handle_reply, w);
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return threadpool_queue_work_priority(tp,
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WQ_PRI_MED,
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workqueue_do_rsa, handle_reply, w);
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} else {
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ecdh_work_t *w = tor_malloc_zero(sizeof(*w));
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w->serial = n_sent++;
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