X-Git-Url: https://git.llucax.com/software/libev.git/blobdiff_plain/97157ad66d6312deeafc15a8e80ef6f83f2b0de2..c56a8061de2b5b4b9760ed49d4600bf40991b797:/ev.html?ds=inline diff --git a/ev.html b/ev.html index 738d6d0..21f24d5 100644 --- a/ev.html +++ b/ev.html @@ -6,7 +6,7 @@ - +
@@ -29,7 +29,10 @@ev_io
- is this file descriptor readable or writable?ev_io
- is this file descriptor readable or writable?
+
+ev_timer
- relative and optionally repeating timeoutsev_periodic
- to cron or not to cron?ev_signal
- signal me when a signal gets signalled!You can find out the major and minor version numbers of the library +
You can find out the major and minor ABI version numbers of the library
you linked against by calling the functions ev_version_major
and
ev_version_minor
. If you want, you can compare against the global
symbols EV_VERSION_MAJOR
and EV_VERSION_MINOR
, which specify the
version of the library your program was compiled against.
These version numbers refer to the ABI version of the library, not the +release version.
Usually, it's a good idea to terminate if the major versions mismatch, -as this indicates an incompatible change. Minor versions are usually +as this indicates an incompatible change. Minor versions are usually compatible to older versions, so a larger minor version alone is usually not a problem.
Example: Make sure we haven't accidentally been linked against the wrong
@@ -531,8 +536,9 @@ external event in conjunction with something not expressible using other
libev watchers. However, a pair of ev_prepare
/ev_check
watchers is
usually a better approach for this kind of thing.
Here are the gory details of what ev_loop
does:
* If there are no active watchers (reference count is zero), return. - - Queue prepare watchers and then call all outstanding watchers. +- Before the first iteration, call any pending watchers. + * If there are no active watchers (reference count is zero), return. + - Queue all prepare watchers and then call all outstanding watchers. - If we have been forked, recreate the kernel state. - Update the kernel state with all outstanding changes. - Update the "event loop time". @@ -771,8 +777,9 @@ it.Returns a true value iff the watcher is pending, (i.e. it has outstanding events but its callback has not yet been invoked). As long as a watcher is pending (but not active) you must not call an init function on it (but -
+ev_TYPE_set
is safe) and you must make sure the watcher is available to -libev (e.g. you cnanotfree ()
it).ev_TYPE_set
is safe), you must not change its priority, and you must +make sure the watcher is available to libev (e.g. you cannotfree ()
+it).
If you need to suppress invocation when higher priority events are pending
you need to look at ev_idle
watchers, which provide this functionality.
You must not change the priority of a watcher as long as it is active or +pending.
The default priority used by watchers when no priority has been set is
always 0
, which is supposed to not be too high and not be too low :).
Setting a priority outside the range of EV_MINPRI
to EV_MAXPRI
is
fine, as long as you do not mind that the priority value you query might
or might not have been adjusted to be within valid range.
Invoke the watcher
with the given loop
and revents
. Neither
+loop
nor revents
need to be valid as long as the watcher callback
+can deal with that fact.
If the watcher is pending, this function returns clears its pending status
+and returns its revents
bitset (as if its callback was invoked). If the
+watcher isn't pending it does nothing and returns 0
.
Some backends (e.g kqueue, epoll) need to be told about closing a file
+descriptor (either by calling close
explicitly or by any other means,
+such as dup
). The reason is that you register interest in some file
+descriptor, but when it goes away, the operating system will silently drop
+this interest. If another file descriptor with the same number then is
+registered with libev, there is no efficient way to see that this is, in
+fact, a different file descriptor.
To avoid having to explicitly tell libev about such cases, libev follows
+the following policy: Each time ev_io_set
is being called, libev
+will assume that this is potentially a new file descriptor, otherwise
+it is assumed that the file descriptor stays the same. That means that
+you have to call ev_io_set
(or ev_io_init
) when you change the
+descriptor even if the file descriptor number itself did not change.
This is how one would do it normally anyway, the important point is that +the libev application should not optimise around libev but should leave +optimisations to libev.
+ + + +ev_now ()
+ 10.
) and then reset your system clock to the last year, then it will
take a year to trigger the event (unlike an ev_timer
, which would trigger
-roughly 10 seconds later and of course not if you reset your system time
-again).
+roughly 10 seconds later).
They can also be used to implement vastly more complex timers, such as -triggering an event on eahc midnight, local time.
+triggering an event on each midnight, local time or other, complicated, +rules.As with timers, the callback is guarenteed to be invoked only when the
time (at
) has been passed, but if multiple periodic timers become ready
during the same loop iteration then order of execution is undefined.
In this configuration the watcher triggers an event at the wallclock time
at
and doesn't repeat. It will not adjust when a time jump occurs,
that is, if it is to be run at January 1st 2011 then it will run when the
system time reaches or surpasses this time.
In this mode the watcher will always be scheduled to time out at the next
-at + N * interval
time (for some integer N) and then repeat, regardless
-of any time jumps.
at + N * interval
time (for some integer N, which can also be negative)
+and then repeat, regardless of any time jumps.
This can be used to create timers that do not drift with respect to system time:
ev_periodic_set (&periodic, 0., 3600., 0); @@ -1122,8 +1167,11 @@ by 3600.Another way to think about it (for the mathematically inclined) is that
+ev_periodic
will try to run the callback in this mode at the next possible time wheretime = at (mod interval)
, regardless of any time jumps.For numerical stability it is preferable that the
at
value is near +ev_now ()
(the current time), but there is no range requirement for +this value.
In this mode the values for interval
and at
are both being
ignored. Instead, each time the periodic watcher gets scheduled, the
@@ -1132,7 +1180,7 @@ current time as second argument.
NOTE: This callback MUST NOT stop or destroy any periodic watcher,
ever, or make any event loop modifications. If you need to stop it,
return now + 1e30
(or so, fudge fudge) and stop it afterwards (e.g. by
-starting a prepare watcher).
ev_prepare
watcher, which is legal).
Its prototype is ev_tstamp (*reschedule_cb)(struct ev_periodic *w,
ev_tstamp now)
, e.g.:
static ev_tstamp my_rescheduler (struct ev_periodic *w, ev_tstamp now) @@ -1162,6 +1210,13 @@ reason I omitted it as an example). when you changed some parameters or the reschedule callback would return a different time than the last time it was called (e.g. in a crond like program when the crontabs have changed). +
When repeating, this contains the offset value, otherwise this is the
+absolute point in time (the at
value passed to ev_periodic_set
).
Can be modified any time, but changes only take effect when the periodic
+timer fires or ev_periodic_again
is being called.
It is recommended to give ev_check
watchers highest (EV_MAXPRI
)
+priority, to ensure that they are being run before any other watchers
+after the poll. Also, ev_check
watchers (and ev_prepare
watchers,
+too) should not activate ("feed") events into libev. While libev fully
+supports this, they will be called before other ev_check
watchers did
+their job. As ev_check
watchers are often used to embed other event
+loops those other event loops might be in an unusable state until their
+ev_check
watcher ran (always remind yourself to coexist peacefully with
+others).
ev_prepare_set
and ev_check
macros, but using them is utterly, utterly and completely pointless.
Example: To include a library such as adns, you would add IO watchers -and a timeout watcher in a prepare handler, as required by libadns, and -in a check watcher, destroy them and call into libadns. What follows is -pseudo-code only of course:
+There are a number of principal ways to embed other event loops or modules
+into libev. Here are some ideas on how to include libadns into libev
+(there is a Perl module named EV::ADNS
that does this, which you could
+use for an actually working example. Another Perl module named EV::Glib
+embeds a Glib main context into libev, and finally, Glib::EV
embeds EV
+into the Glib event loop).
Method 1: Add IO watchers and a timeout watcher in a prepare handler,
+and in a check watcher, destroy them and call into libadns. What follows
+is pseudo-code only of course. This requires you to either use a low
+priority for the check watcher or use ev_clear_pending
explicitly, as
+the callbacks for the IO/timeout watchers might not have been called yet.
static ev_io iow [nfd]; static ev_timer tw; static void io_cb (ev_loop *loop, ev_io *w, int revents) { - // set the relevant poll flags - // could also call adns_processreadable etc. here - struct pollfd *fd = (struct pollfd *)w->data; - if (revents & EV_READ ) fd->revents |= fd->events & POLLIN; - if (revents & EV_WRITE) fd->revents |= fd->events & POLLOUT; } // create io watchers for each fd and a timer before blocking @@ -1509,7 +1575,7 @@ pseudo-code only of course: ev_timer_init (&tw, 0, timeout * 1e-3); ev_timer_start (loop, &tw); - // create on ev_io per pollfd + // create one ev_io per pollfd for (int i = 0; i < nfd; ++i) { ev_io_init (iow + i, io_cb, fds [i].fd, @@ -1517,7 +1583,6 @@ pseudo-code only of course: | (fds [i].events & POLLOUT ? EV_WRITE : 0))); fds [i].revents = 0; - iow [i].data = fds + i; ev_io_start (loop, iow + i); } } @@ -1529,11 +1594,79 @@ pseudo-code only of course: ev_timer_stop (loop, &tw); for (int i = 0; i < nfd; ++i) - ev_io_stop (loop, iow + i); + { + // set the relevant poll flags + // could also call adns_processreadable etc. here + struct pollfd *fd = fds + i; + int revents = ev_clear_pending (iow + i); + if (revents & EV_READ ) fd->revents |= fd->events & POLLIN; + if (revents & EV_WRITE) fd->revents |= fd->events & POLLOUT; + + // now stop the watcher + ev_io_stop (loop, iow + i); + } adns_afterpoll (adns, fds, nfd, timeval_from (ev_now (loop)); } ++
Method 2: This would be just like method 1, but you run adns_afterpoll
+in the prepare watcher and would dispose of the check watcher.
Method 3: If the module to be embedded supports explicit event +notification (adns does), you can also make use of the actual watcher +callbacks, and only destroy/create the watchers in the prepare watcher.
+static void + timer_cb (EV_P_ ev_timer *w, int revents) + { + adns_state ads = (adns_state)w->data; + update_now (EV_A); + + adns_processtimeouts (ads, &tv_now); + } + + static void + io_cb (EV_P_ ev_io *w, int revents) + { + adns_state ads = (adns_state)w->data; + update_now (EV_A); + + if (revents & EV_READ ) adns_processreadable (ads, w->fd, &tv_now); + if (revents & EV_WRITE) adns_processwriteable (ads, w->fd, &tv_now); + } + + // do not ever call adns_afterpoll + ++
Method 4: Do not use a prepare or check watcher because the module you
+want to embed is too inflexible to support it. Instead, youc na override
+their poll function. The drawback with this solution is that the main
+loop is now no longer controllable by EV. The Glib::EV
module does
+this.
static gint + event_poll_func (GPollFD *fds, guint nfds, gint timeout) + { + int got_events = 0; + + for (n = 0; n < nfds; ++n) + // create/start io watcher that sets the relevant bits in fds[n] and increment got_events + + if (timeout >= 0) + // create/start timer + + // poll + ev_loop (EV_A_ 0); + + // stop timer again + if (timeout >= 0) + ev_timer_stop (EV_A_ &to); + + // stop io watchers again - their callbacks should have set + for (n = 0; n < nfds; ++n) + ev_io_stop (EV_A_ iow [n]); + + return got_events; + } + @@ -1808,12 +1941,18 @@ thunking function, making it as fast as a direct C callback.-
Also sets a callback, but uses a static method or plain function as
callback. The optional data
argument will be stored in the watcher's
data
member and is free for you to use.
The prototype of the function
must be void (*)(ev::TYPE &w, int)
.
See the method-set
above for more details.
Example:
+static void io_cb (ev::io &w, int revents) { } + iow.set <io_cb> (); + +