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