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84c298465f
On large configurations, too many threads would spawn with one thread per loop. Therefore, threads may now run multiple loops at once. The thread count is configurable and may be changed during run. All threads are spawned on startup. This change helps with memory bloating. BIRD filters need large temporary memory blocks to store their stack and also memory management keeps its hot page storage per-thread. Known bugs: * Thread autobalancing is not yet implemented. * Low latency loops are executed together with standard loops.
339 lines
8.9 KiB
C
339 lines
8.9 KiB
C
/*
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* BIRD Library -- Event Processing
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*
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* (c) 1999 Martin Mares <mj@ucw.cz>
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*
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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/**
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* DOC: Events
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*
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* Events are there to keep track of deferred execution.
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* Since BIRD is single-threaded, it requires long lasting tasks to be split to smaller
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* parts, so that no module can monopolize the CPU. To split such a task, just create
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* an &event resource, point it to the function you want to have called and call ev_schedule()
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* to ask the core to run the event when nothing more important requires attention.
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*
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* You can also define your own event lists (the &event_list structure), enqueue your
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* events in them and explicitly ask to run them.
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*/
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#undef LOCAL_DEBUG
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#include "nest/bird.h"
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#include "lib/event.h"
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#include "lib/io-loop.h"
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event_list global_event_list;
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event_list global_work_list;
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//#ifdef DEBUGGING
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#if 0
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#define EDL_MAX 16384
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enum edl_caller {
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EDL_REMOVE_FROM = 1,
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EDL_POSTPONE = 2,
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EDL_RUN = 3,
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EDL_SEND = 4,
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EDL_RUN_LIST = 5,
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} caller;
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static struct event_debug_log {
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event_list *target_list;
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event *event;
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event *receiver;
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uint pos;
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uint prev_edl_pos;
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uint thread;
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enum edl_caller caller;
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} edl[EDL_MAX];
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static _Atomic uint edl_cnt;
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_Thread_local static uint edl_thread;
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_Thread_local static uint prev_edl_pos = ~0;
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static inline void edlog(event_list *list, event *e, event *receiver, uint pos, enum edl_caller caller)
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{
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uint edl_pos = atomic_fetch_add_explicit(&edl_cnt, 1, memory_order_acq_rel);
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if (!edl_thread)
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edl_thread = edl_pos;
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edl[edl_pos % EDL_MAX] = (struct event_debug_log) {
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.target_list = list,
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.event = e,
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.receiver = receiver,
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.pos = pos,
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.prev_edl_pos = prev_edl_pos,
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.thread = edl_thread,
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.caller = caller,
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};
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prev_edl_pos = edl_pos;
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}
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#else
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#define edlog(...)
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#endif
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void
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ev_init_list(event_list *el, struct birdloop *loop, const char *name)
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{
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el->name = name;
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el->loop = loop;
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atomic_store_explicit(&el->receiver, NULL, memory_order_release);
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atomic_store_explicit(&el->_executor, NULL, memory_order_release);
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}
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/*
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* The event list should work as a message passing point. Sending a message
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* must be a fairly fast process with no locks and low waiting times. OTOH,
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* processing messages always involves running the assigned code and the
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* receiver is always a single one thread with no concurrency at all. There is
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* also a postponing requirement to synchronously remove an event from a queue,
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* yet we allow this only when the caller has its receiver event loop locked.
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* It still means that the event may get postponed from other event in the same
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* list, therefore we have to be careful.
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*/
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static inline int
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ev_remove_from(event *e, event * _Atomic * head)
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{
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/* The head pointer stores where cur is pointed to from */
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event * _Atomic *prev = head;
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/* The current event in queue to check */
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event *cur = atomic_load_explicit(prev, memory_order_acquire);
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/* This part of queue is empty! */
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if (!cur)
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return 0;
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edlog(NULL, e, cur, 1, EDL_REMOVE_FROM);
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while (cur)
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{
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/* Pre-loaded next pointer */
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event *next = atomic_load_explicit(&cur->next, memory_order_acquire);
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if (e == cur)
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{
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edlog(NULL, e, next, 3, EDL_REMOVE_FROM);
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/* Check whether we have collided with somebody else
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* adding an item to the queue. */
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if (!atomic_compare_exchange_strong_explicit(
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prev, &cur, next,
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memory_order_acq_rel, memory_order_acquire))
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{
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/* This may happen only on list head */
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ASSERT_DIE(prev == head);
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/* Restart. The collision should never happen again. */
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return ev_remove_from(e, head);
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}
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/* Successfully removed from the list; inactivate this event. */
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atomic_store_explicit(&cur->next, NULL, memory_order_release);
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return 1;
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}
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edlog(NULL, e, next, 2, EDL_REMOVE_FROM);
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/* Go to the next event. */
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prev = &cur->next;
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cur = next;
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}
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edlog(NULL, e, cur, 4, EDL_REMOVE_FROM);
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return 0;
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}
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inline void
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ev_postpone(event *e)
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{
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/* Find the list to remove the event from */
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event_list *sl = ev_get_list(e);
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edlog(sl, e, NULL, 1, EDL_POSTPONE);
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if (!sl)
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return;
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/* Postponing allowed only from the target loop */
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ASSERT_DIE(birdloop_inside(sl->loop));
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/* Remove from one of these lists. */
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ASSERT(ev_remove_from(e, &sl->_executor) || ev_remove_from(e, &sl->receiver));
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/* Mark as inactive */
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ASSERT_DIE(sl == atomic_exchange_explicit(&e->list, NULL, memory_order_acq_rel));
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edlog(sl, e, NULL, 2, EDL_POSTPONE);
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}
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static void
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ev_dump(resource *r)
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{
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event *e = (event *) r;
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debug("(code %p, data %p, %s)\n",
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e->hook,
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e->data,
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atomic_load_explicit(&e->next, memory_order_relaxed) ? "scheduled" : "inactive");
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}
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static struct resclass ev_class = {
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"Event",
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sizeof(event),
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(void (*)(resource *)) ev_postpone,
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ev_dump,
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NULL,
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NULL
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};
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/**
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* ev_new - create a new event
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* @p: resource pool
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*
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* This function creates a new event resource. To use it,
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* you need to fill the structure fields and call ev_schedule().
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*/
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event *
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ev_new(pool *p)
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{
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event *e = ralloc(p, &ev_class);
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return e;
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}
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/**
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* ev_run - run an event
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* @e: an event
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*
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* This function explicitly runs the event @e (calls its hook
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* function) and removes it from an event list if it's linked to any.
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*
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* From the hook function, you can call ev_enqueue() or ev_schedule()
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* to re-add the event.
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*/
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inline void
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ev_run(event *e)
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{
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edlog(NULL, e, NULL, 1, EDL_RUN);
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ev_postpone(e);
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e->hook(e->data);
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edlog(NULL, e, NULL, 2, EDL_RUN);
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}
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/**
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* ev_enqueue - enqueue an event
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* @l: an event list
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* @e: an event
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*
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* ev_enqueue() stores the event @e to the specified event
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* list @l which can be run by calling ev_run_list().
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*/
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inline void
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ev_send(event_list *l, event *e)
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{
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edlog(l, e, NULL, 1, EDL_SEND);
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/* Set the target list */
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event_list *ol = NULL;
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if (!atomic_compare_exchange_strong_explicit(
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&e->list, &ol, l,
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memory_order_acq_rel, memory_order_acquire))
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if (ol == l)
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return;
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else
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bug("Queuing an already queued event to another queue is not supported.");
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/* Here should be no concurrent senders */
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event *next = atomic_load_explicit(&l->receiver, memory_order_acquire);
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edlog(l, e, next, 2, EDL_SEND);
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event *old_next = NULL;
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do
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if (!atomic_compare_exchange_strong_explicit(
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&e->next, &old_next, next,
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memory_order_acq_rel, memory_order_acquire))
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bug("Event %p in inconsistent state");
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else
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{
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old_next = next;
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edlog(l, old_next, next, 3, EDL_SEND);
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}
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while (!atomic_compare_exchange_strong_explicit(
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&l->receiver, &next, e,
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memory_order_acq_rel, memory_order_acquire));
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edlog(l, e, next, 4, EDL_SEND);
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if (l->loop) birdloop_ping(l->loop);
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}
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void io_log_event(void *hook, void *data);
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/**
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* ev_run_list - run an event list
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* @l: an event list
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*
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* This function calls ev_run() for all events enqueued in the list @l.
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*/
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int
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ev_run_list_limited(event_list *l, uint limit)
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{
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event * _Atomic *ep = &l->_executor;
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edlog(l, NULL, NULL, 1, EDL_RUN_LIST);
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/* No pending events, refill the queue. */
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if (!atomic_load_explicit(ep, memory_order_acquire))
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{
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/* Move the current event list aside and create a new one. */
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event *received = atomic_exchange_explicit(&l->receiver, NULL, memory_order_acq_rel);
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edlog(l, NULL, received, 2, EDL_RUN_LIST);
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/* No event to run. */
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if (!received)
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return 0;
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/* Setup the executor queue */
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event *head = NULL;
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/* Flip the order of the events by relinking them one by one (push-pop) */
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while (received)
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{
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event *cur = received;
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received = atomic_exchange_explicit(&cur->next, head, memory_order_acq_rel);
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edlog(l, head, received, 3, EDL_RUN_LIST);
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head = cur;
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}
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/* Store the executor queue to its designated place */
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ASSERT_DIE(atomic_exchange_explicit(ep, head, memory_order_acq_rel) == NULL);
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edlog(l, NULL, head, 4, EDL_RUN_LIST);
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}
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/* Run the events in order. */
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event *e;
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while (e = atomic_load_explicit(ep, memory_order_acquire))
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{
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edlog(l, e, NULL, 5, EDL_RUN_LIST);
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/* Check limit */
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if (!--limit)
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return 1;
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/* This is ugly hack, we want to log just events executed from the main I/O loop */
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if ((l == &global_event_list) || (l == &global_work_list))
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io_log_event(e->hook, e->data);
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edlog(l, e, NULL, 6, EDL_RUN_LIST);
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/* Inactivate the event */
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event *next = atomic_load_explicit(&e->next, memory_order_relaxed);
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ASSERT_DIE(e == atomic_exchange_explicit(ep, next, memory_order_acq_rel));
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ASSERT_DIE(next == atomic_exchange_explicit(&e->next, NULL, memory_order_acq_rel));
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ASSERT_DIE(l == atomic_exchange_explicit(&e->list, NULL, memory_order_acq_rel));
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edlog(l, e, next, 7, EDL_RUN_LIST);
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/* Run the event */
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e->hook(e->data);
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tmp_flush();
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edlog(l, e, next, 8, EDL_RUN_LIST);
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}
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return !!atomic_load_explicit(&l->receiver, memory_order_acquire);
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}
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