X-Git-Url: https://git.llucax.com/software/libev.git/blobdiff_plain/09c28a9820828432b5ced0a8f2b05c56213690fc..db2ba1d67df543c8e0dbfc578005b065983bdc94:/ev.pod diff --git a/ev.pod b/ev.pod index 538b9f8..d1d8348 100644 --- a/ev.pod +++ b/ev.pod @@ -55,7 +55,7 @@ web page you might find easier to navigate when reading it for the first time: L. Libev is an event loop: you register interest in certain events (such as a -file descriptor being readable or a timeout occuring), and it will manage +file descriptor being readable or a timeout occurring), and it will manage these event sources and provide your program with events. To do this, it must take more or less complete control over your process @@ -100,7 +100,9 @@ Libev represents time as a single floating point number, representing the the beginning of 1970, details are complicated, don't ask). This type is called C, which is what you should use too. It usually aliases to the C type in C, and when you need to do any calculations on -it, you should treat it as such. +it, you should treat it as some floatingpoint value. Unlike the name +component C might indicate, it is also used for time differences +throughout libev. =head1 GLOBAL FUNCTIONS @@ -115,18 +117,27 @@ Returns the current time as libev would use it. Please note that the C function is usually faster and also often returns the timestamp you actually want to know. +=item ev_sleep (ev_tstamp interval) + +Sleep for the given interval: The current thread will be blocked until +either it is interrupted or the given time interval has passed. Basically +this is a subsecond-resolution C. + =item int ev_version_major () =item int ev_version_minor () -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 C and C. If you want, you can compare against the global symbols C and C, 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. @@ -310,15 +321,18 @@ lot of inactive fds). It scales similarly to select, i.e. O(total_fds). =item C (value 4, Linux) For few fds, this backend is a bit little slower than poll and select, -but it scales phenomenally better. While poll and select usually scale like -O(total_fds) where n is the total number of fds (or the highest fd), epoll scales -either O(1) or O(active_fds). - -While stopping and starting an I/O watcher in the same iteration will -result in some caching, there is still a syscall per such incident +but it scales phenomenally better. While poll and select usually scale +like O(total_fds) where n is the total number of fds (or the highest fd), +epoll scales either O(1) or O(active_fds). The epoll design has a number +of shortcomings, such as silently dropping events in some hard-to-detect +cases and rewiring a syscall per fd change, no fork support and bad +support for dup: + +While stopping, setting and starting an I/O watcher in the same iteration +will result in some caching, there is still a syscall per such incident (because the fd could point to a different file description now), so its -best to avoid that. Also, dup()ed file descriptors might not work very -well if you register events for both fds. +best to avoid that. Also, C'ed file descriptors might not work +very well if you register events for both fds. Please note that epoll sometimes generates spurious notifications, so you need to use non-blocking I/O or other means to avoid blocking when no data @@ -327,17 +341,20 @@ need to use non-blocking I/O or other means to avoid blocking when no data =item C (value 8, most BSD clones) Kqueue deserves special mention, as at the time of this writing, it -was broken on all BSDs except NetBSD (usually it doesn't work with -anything but sockets and pipes, except on Darwin, where of course its -completely useless). For this reason its not being "autodetected" +was broken on I BSDs (usually it doesn't work with anything but +sockets and pipes, except on Darwin, where of course it's completely +useless. On NetBSD, it seems to work for all the FD types I tested, so it +is used by default there). For this reason it's not being "autodetected" unless you explicitly specify it explicitly in the flags (i.e. using -C). +C) or libev was compiled on a known-to-be-good (-enough) +system like NetBSD. It scales in the same way as the epoll backend, but the interface to the -kernel is more efficient (which says nothing about its actual speed, of -course). While starting and stopping an I/O watcher does not cause an -extra syscall as with epoll, it still adds up to four event changes per -incident, so its best to avoid that. +kernel is more efficient (which says nothing about its actual speed, +of course). While stopping, setting and starting an I/O watcher does +never cause an extra syscall as with epoll, it still adds up to two event +changes per incident, support for C is very bad and it drops fds +silently in similarly hard-to-detetc cases. =item C (value 16, Solaris 8) @@ -345,10 +362,10 @@ This is not implemented yet (and might never be). =item C (value 32, Solaris 10) -This uses the Solaris 10 port mechanism. As with everything on Solaris, +This uses the Solaris 10 event port mechanism. As with everything on Solaris, it's really slow, but it still scales very well (O(active_fds)). -Please note that solaris ports can result in a lot of spurious +Please note that solaris event ports can deliver a lot of spurious notifications, so you need to use non-blocking I/O or other means to avoid blocking when no data (or space) is available. @@ -401,9 +418,18 @@ etc.). None of the active event watchers will be stopped in the normal sense, so e.g. C might still return true. It is your responsibility to either stop all watchers cleanly yoursef I calling this function, or cope with the fact afterwards (which is usually -the easiest thing, youc na just ignore the watchers and/or C them +the easiest thing, you can just ignore the watchers and/or C them for example). +Note that certain global state, such as signal state, will not be freed by +this function, and related watchers (such as signal and child watchers) +would need to be stopped manually. + +In general it is not advisable to call this function except in the +rare occasion where you really need to free e.g. the signal handling +pipe fds. If you need dynamically allocated loops it is better to use +C and C). + =item ev_loop_destroy (loop) Like C, but destroys an event loop created by an @@ -457,7 +483,7 @@ Returns the current "event loop time", which is the time the event loop received events and started processing them. This timestamp does not change as long as callbacks are being processed, and this is also the base time used for relative timers. You can treat it as the timestamp of the -event occuring (or more correctly, libev finding out about it). +event occurring (or more correctly, libev finding out about it). =item ev_loop (loop, int flags) @@ -488,8 +514,9 @@ usually a better approach for this kind of thing. Here are the gory details of what C does: + - Before the first iteration, call any pending watchers. * If there are no active watchers (reference count is zero), return. - - Queue prepare watchers and then call all outstanding watchers. + - 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". @@ -550,6 +577,40 @@ Example: For some weird reason, unregister the above signal handler again. ev_ref (loop); ev_signal_stop (loop, &exitsig); +=item ev_set_io_collect_interval (loop, ev_tstamp interval) + +=item ev_set_timeout_collect_interval (loop, ev_tstamp interval) + +These advanced functions influence the time that libev will spend waiting +for events. Both are by default C<0>, meaning that libev will try to +invoke timer/periodic callbacks and I/O callbacks with minimum latency. + +Setting these to a higher value (the C I be >= C<0>) +allows libev to delay invocation of I/O and timer/periodic callbacks to +increase efficiency of loop iterations. + +The background is that sometimes your program runs just fast enough to +handle one (or very few) event(s) per loop iteration. While this makes +the program responsive, it also wastes a lot of CPU time to poll for new +events, especially with backends like C. =item EV_USE_SELECT @@ -2358,11 +2531,36 @@ For example, the perl EV module uses something like this: Can be used to change the callback member declaration in each watcher, and the way callbacks are invoked and set. Must expand to a struct member -definition and a statement, respectively. See the F header file for +definition and a statement, respectively. See the F header file for their default definitions. One possible use for overriding these is to avoid the C as first argument in all cases, or to use method calls instead of plain function calls in C++. +=head2 EXPORTED API SYMBOLS + +If you need to re-export the API (e.g. via a dll) and you need a list of +exported symbols, you can use the provided F files which list +all public symbols, one per line: + + Symbols.ev for libev proper + Symbols.event for the libevent emulation + +This can also be used to rename all public symbols to avoid clashes with +multiple versions of libev linked together (which is obviously bad in +itself, but sometimes it is inconvinient to avoid this). + +A sed command like this will create wrapper C<#define>'s that you need to +include before including F: + + wrap.h + +This would create a file F which essentially looks like this: + + #define ev_backend myprefix_ev_backend + #define ev_check_start myprefix_ev_check_start + #define ev_check_stop myprefix_ev_check_stop + ... + =head2 EXAMPLES For a real-world example of a program the includes libev