… | |
… | |
5 | Qt and POE are various supported event loops/environments. |
5 | Qt and POE are various supported event loops/environments. |
6 | |
6 | |
7 | SYNOPSIS |
7 | SYNOPSIS |
8 | use AnyEvent; |
8 | use AnyEvent; |
9 | |
9 | |
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10 | # if you prefer function calls, look at the AE manpage for |
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11 | # an alternative API. |
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12 | |
10 | # file descriptor readable |
13 | # file handle or descriptor readable |
11 | my $w = AnyEvent->io (fh => $fh, poll => "r", cb => sub { ... }); |
14 | my $w = AnyEvent->io (fh => $fh, poll => "r", cb => sub { ... }); |
12 | |
15 | |
13 | # one-shot or repeating timers |
16 | # one-shot or repeating timers |
14 | my $w = AnyEvent->timer (after => $seconds, cb => sub { ... }); |
17 | my $w = AnyEvent->timer (after => $seconds, cb => sub { ... }); |
15 | my $w = AnyEvent->timer (after => $seconds, interval => $seconds, cb => ... |
18 | my $w = AnyEvent->timer (after => $seconds, interval => $seconds, cb => ... |
… | |
… | |
486 | $done->recv; |
489 | $done->recv; |
487 | |
490 | |
488 | IDLE WATCHERS |
491 | IDLE WATCHERS |
489 | $w = AnyEvent->idle (cb => <callback>); |
492 | $w = AnyEvent->idle (cb => <callback>); |
490 | |
493 | |
491 | Sometimes there is a need to do something, but it is not so important to |
494 | Repeatedly invoke the callback after the process becomes idle, until |
492 | do it instantly, but only when there is nothing better to do. This |
495 | either the watcher is destroyed or new events have been detected. |
493 | "nothing better to do" is usually defined to be "no other events need |
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494 | attention by the event loop". |
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495 | |
496 | |
496 | Idle watchers ideally get invoked when the event loop has nothing better |
497 | Idle watchers are useful when there is a need to do something, but it is |
497 | to do, just before it would block the process to wait for new events. |
498 | not so important (or wise) to do it instantly. The callback will be |
498 | Instead of blocking, the idle watcher is invoked. |
499 | invoked only when there is "nothing better to do", which is usually |
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500 | defined as "all outstanding events have been handled and no new events |
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501 | have been detected". That means that idle watchers ideally get invoked |
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502 | when the event loop has just polled for new events but none have been |
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503 | detected. Instead of blocking to wait for more events, the idle watchers |
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504 | will be invoked. |
499 | |
505 | |
500 | Most event loops unfortunately do not really support idle watchers (only |
506 | Unfortunately, most event loops do not really support idle watchers |
501 | EV, Event and Glib do it in a usable fashion) - for the rest, AnyEvent |
507 | (only EV, Event and Glib do it in a usable fashion) - for the rest, |
502 | will simply call the callback "from time to time". |
508 | AnyEvent will simply call the callback "from time to time". |
503 | |
509 | |
504 | Example: read lines from STDIN, but only process them when the program |
510 | Example: read lines from STDIN, but only process them when the program |
505 | is otherwise idle: |
511 | is otherwise idle: |
506 | |
512 | |
507 | my @lines; # read data |
513 | my @lines; # read data |
… | |
… | |
533 | |
539 | |
534 | AnyEvent is slightly different: it expects somebody else to run the |
540 | AnyEvent is slightly different: it expects somebody else to run the |
535 | event loop and will only block when necessary (usually when told by the |
541 | event loop and will only block when necessary (usually when told by the |
536 | user). |
542 | user). |
537 | |
543 | |
538 | The instrument to do that is called a "condition variable", so called |
544 | The tool to do that is called a "condition variable", so called because |
539 | because they represent a condition that must become true. |
545 | they represent a condition that must become true. |
540 | |
546 | |
541 | Now is probably a good time to look at the examples further below. |
547 | Now is probably a good time to look at the examples further below. |
542 | |
548 | |
543 | Condition variables can be created by calling the "AnyEvent->condvar" |
549 | Condition variables can be created by calling the "AnyEvent->condvar" |
544 | method, usually without arguments. The only argument pair allowed is |
550 | method, usually without arguments. The only argument pair allowed is |
… | |
… | |
549 | After creation, the condition variable is "false" until it becomes |
555 | After creation, the condition variable is "false" until it becomes |
550 | "true" by calling the "send" method (or calling the condition variable |
556 | "true" by calling the "send" method (or calling the condition variable |
551 | as if it were a callback, read about the caveats in the description for |
557 | as if it were a callback, read about the caveats in the description for |
552 | the "->send" method). |
558 | the "->send" method). |
553 | |
559 | |
554 | Condition variables are similar to callbacks, except that you can |
560 | Since condition variables are the most complex part of the AnyEvent API, |
555 | optionally wait for them. They can also be called merge points - points |
561 | here are some different mental models of what they are - pick the ones |
556 | in time where multiple outstanding events have been processed. And yet |
562 | you can connect to: |
557 | another way to call them is transactions - each condition variable can |
563 | |
558 | be used to represent a transaction, which finishes at some point and |
564 | * Condition variables are like callbacks - you can call them (and pass |
559 | delivers a result. And yet some people know them as "futures" - a |
565 | them instead of callbacks). Unlike callbacks however, you can also |
560 | promise to compute/deliver something that you can wait for. |
566 | wait for them to be called. |
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567 | |
|
|
568 | * Condition variables are signals - one side can emit or send them, |
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569 | the other side can wait for them, or install a handler that is |
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570 | called when the signal fires. |
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571 | |
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|
572 | * Condition variables are like "Merge Points" - points in your program |
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573 | where you merge multiple independent results/control flows into one. |
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574 | |
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575 | * Condition variables represent a transaction - function that start |
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576 | some kind of transaction can return them, leaving the caller the |
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577 | choice between waiting in a blocking fashion, or setting a callback. |
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578 | |
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579 | * Condition variables represent future values, or promises to deliver |
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580 | some result, long before the result is available. |
561 | |
581 | |
562 | Condition variables are very useful to signal that something has |
582 | Condition variables are very useful to signal that something has |
563 | finished, for example, if you write a module that does asynchronous http |
583 | finished, for example, if you write a module that does asynchronous http |
564 | requests, then a condition variable would be the ideal candidate to |
584 | requests, then a condition variable would be the ideal candidate to |
565 | signal the availability of results. The user can either act when the |
585 | signal the availability of results. The user can either act when the |
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… | |
586 | which eventually calls "-> send", and the "consumer side", which waits |
606 | which eventually calls "-> send", and the "consumer side", which waits |
587 | for the send to occur. |
607 | for the send to occur. |
588 | |
608 | |
589 | Example: wait for a timer. |
609 | Example: wait for a timer. |
590 | |
610 | |
591 | # wait till the result is ready |
611 | # condition: "wait till the timer is fired" |
592 | my $result_ready = AnyEvent->condvar; |
612 | my $timer_fired = AnyEvent->condvar; |
593 | |
613 | |
594 | # do something such as adding a timer |
614 | # create the timer - we could wait for, say |
595 | # or socket watcher the calls $result_ready->send |
615 | # a handle becomign ready, or even an |
596 | # when the "result" is ready. |
616 | # AnyEvent::HTTP request to finish, but |
597 | # in this case, we simply use a timer: |
617 | # in this case, we simply use a timer: |
598 | my $w = AnyEvent->timer ( |
618 | my $w = AnyEvent->timer ( |
599 | after => 1, |
619 | after => 1, |
600 | cb => sub { $result_ready->send }, |
620 | cb => sub { $timer_fired->send }, |
601 | ); |
621 | ); |
602 | |
622 | |
603 | # this "blocks" (while handling events) till the callback |
623 | # this "blocks" (while handling events) till the callback |
604 | # calls ->send |
624 | # calls ->send |
605 | $result_ready->recv; |
625 | $timer_fired->recv; |
606 | |
626 | |
607 | Example: wait for a timer, but take advantage of the fact that condition |
627 | Example: wait for a timer, but take advantage of the fact that condition |
608 | variables are also callable directly. |
628 | variables are also callable directly. |
609 | |
629 | |
610 | my $done = AnyEvent->condvar; |
630 | my $done = AnyEvent->condvar; |
… | |
… | |
919 | You should check $AnyEvent::MODEL before adding to this array, |
939 | You should check $AnyEvent::MODEL before adding to this array, |
920 | though: if it is defined then the event loop has already been |
940 | though: if it is defined then the event loop has already been |
921 | detected, and the array will be ignored. |
941 | detected, and the array will be ignored. |
922 | |
942 | |
923 | Best use "AnyEvent::post_detect { BLOCK }" when your application |
943 | Best use "AnyEvent::post_detect { BLOCK }" when your application |
924 | allows it,as it takes care of these details. |
944 | allows it, as it takes care of these details. |
925 | |
945 | |
926 | This variable is mainly useful for modules that can do something |
946 | This variable is mainly useful for modules that can do something |
927 | useful when AnyEvent is used and thus want to know when it is |
947 | useful when AnyEvent is used and thus want to know when it is |
928 | initialised, but do not need to even load it by default. This array |
948 | initialised, but do not need to even load it by default. This array |
929 | provides the means to hook into AnyEvent passively, without loading |
949 | provides the means to hook into AnyEvent passively, without loading |
930 | it. |
950 | it. |
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951 | |
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952 | Example: To load Coro::AnyEvent whenever Coro and AnyEvent are used |
|
|
953 | together, you could put this into Coro (this is the actual code used |
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|
954 | by Coro to accomplish this): |
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955 | |
|
|
956 | if (defined $AnyEvent::MODEL) { |
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957 | # AnyEvent already initialised, so load Coro::AnyEvent |
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958 | require Coro::AnyEvent; |
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|
959 | } else { |
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|
960 | # AnyEvent not yet initialised, so make sure to load Coro::AnyEvent |
|
|
961 | # as soon as it is |
|
|
962 | push @AnyEvent::post_detect, sub { require Coro::AnyEvent }; |
|
|
963 | } |
931 | |
964 | |
932 | WHAT TO DO IN A MODULE |
965 | WHAT TO DO IN A MODULE |
933 | As a module author, you should "use AnyEvent" and call AnyEvent methods |
966 | As a module author, you should "use AnyEvent" and call AnyEvent methods |
934 | freely, but you should not load a specific event module or rely on it. |
967 | freely, but you should not load a specific event module or rely on it. |
935 | |
968 | |
… | |
… | |
988 | |
1021 | |
989 | OTHER MODULES |
1022 | OTHER MODULES |
990 | The following is a non-exhaustive list of additional modules that use |
1023 | The following is a non-exhaustive list of additional modules that use |
991 | AnyEvent as a client and can therefore be mixed easily with other |
1024 | AnyEvent as a client and can therefore be mixed easily with other |
992 | AnyEvent modules and other event loops in the same program. Some of the |
1025 | AnyEvent modules and other event loops in the same program. Some of the |
993 | modules come with AnyEvent, most are available via CPAN. |
1026 | modules come as part of AnyEvent, the others are available via CPAN. |
994 | |
1027 | |
995 | AnyEvent::Util |
1028 | AnyEvent::Util |
996 | Contains various utility functions that replace often-used but |
1029 | Contains various utility functions that replace often-used but |
997 | blocking functions such as "inet_aton" by event-/callback-based |
1030 | blocking functions such as "inet_aton" by event-/callback-based |
998 | versions. |
1031 | versions. |
… | |
… | |
1009 | transparent and non-blocking SSL/TLS (via AnyEvent::TLS. |
1042 | transparent and non-blocking SSL/TLS (via AnyEvent::TLS. |
1010 | |
1043 | |
1011 | AnyEvent::DNS |
1044 | AnyEvent::DNS |
1012 | Provides rich asynchronous DNS resolver capabilities. |
1045 | Provides rich asynchronous DNS resolver capabilities. |
1013 | |
1046 | |
|
|
1047 | AnyEvent::HTTP, AnyEvent::IRC, AnyEvent::XMPP, AnyEvent::GPSD, |
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1048 | AnyEvent::IGS, AnyEvent::FCP |
|
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1049 | Implement event-based interfaces to the protocols of the same name |
|
|
1050 | (for the curious, IGS is the International Go Server and FCP is the |
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1051 | Freenet Client Protocol). |
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1052 | |
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1053 | AnyEvent::Handle::UDP |
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1054 | Here be danger! |
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1055 | |
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|
1056 | As Pauli would put it, "Not only is it not right, it's not even |
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|
1057 | wrong!" - there are so many things wrong with AnyEvent::Handle::UDP, |
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1058 | most notably it's use of a stream-based API with a protocol that |
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1059 | isn't streamable, that the only way to improve it is to delete it. |
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1060 | |
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1061 | It features data corruption (but typically only under load) and |
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1062 | general confusion. On top, the author is not only clueless about UDP |
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|
1063 | but also fact-resistant - some gems of his understanding: "connect |
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1064 | doesn't work with UDP", "UDP packets are not IP packets", "UDP only |
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1065 | has datagrams, not packets", "I don't need to implement proper error |
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1066 | checking as UDP doesn't support error checking" and so on - he |
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1067 | doesn't even understand what's wrong with his module when it is |
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|
1068 | explained to him. |
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1069 | |
1014 | AnyEvent::HTTP |
1070 | AnyEvent::DBI |
1015 | A simple-to-use HTTP library that is capable of making a lot of |
1071 | Executes DBI requests asynchronously in a proxy process for you, |
1016 | concurrent HTTP requests. |
1072 | notifying you in an event-bnased way when the operation is finished. |
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1073 | |
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1074 | AnyEvent::AIO |
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1075 | Truly asynchronous (as opposed to non-blocking) I/O, should be in |
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1076 | the toolbox of every event programmer. AnyEvent::AIO transparently |
|
|
1077 | fuses IO::AIO and AnyEvent together, giving AnyEvent access to |
|
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1078 | event-based file I/O, and much more. |
1017 | |
1079 | |
1018 | AnyEvent::HTTPD |
1080 | AnyEvent::HTTPD |
1019 | Provides a simple web application server framework. |
1081 | A simple embedded webserver. |
1020 | |
1082 | |
1021 | AnyEvent::FastPing |
1083 | AnyEvent::FastPing |
1022 | The fastest ping in the west. |
1084 | The fastest ping in the west. |
1023 | |
|
|
1024 | AnyEvent::DBI |
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1025 | Executes DBI requests asynchronously in a proxy process. |
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1026 | |
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1027 | AnyEvent::AIO |
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1028 | Truly asynchronous I/O, should be in the toolbox of every event |
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1029 | programmer. AnyEvent::AIO transparently fuses IO::AIO and AnyEvent |
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1030 | together. |
|
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1031 | |
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1032 | AnyEvent::BDB |
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1033 | Truly asynchronous Berkeley DB access. AnyEvent::BDB transparently |
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1034 | fuses BDB and AnyEvent together. |
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1035 | |
|
|
1036 | AnyEvent::GPSD |
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1037 | A non-blocking interface to gpsd, a daemon delivering GPS |
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1038 | information. |
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1039 | |
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1040 | AnyEvent::IRC |
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1041 | AnyEvent based IRC client module family (replacing the older |
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1042 | Net::IRC3). |
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1043 | |
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|
1044 | AnyEvent::XMPP |
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1045 | AnyEvent based XMPP (Jabber protocol) module family (replacing the |
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1046 | older Net::XMPP2>. |
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1047 | |
|
|
1048 | AnyEvent::IGS |
|
|
1049 | A non-blocking interface to the Internet Go Server protocol (used by |
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1050 | App::IGS). |
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1051 | |
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1052 | Net::FCP |
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1053 | AnyEvent-based implementation of the Freenet Client Protocol, |
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1054 | birthplace of AnyEvent. |
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1055 | |
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1056 | Event::ExecFlow |
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1057 | High level API for event-based execution flow control. |
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1058 | |
1085 | |
1059 | Coro |
1086 | Coro |
1060 | Has special support for AnyEvent via Coro::AnyEvent. |
1087 | Has special support for AnyEvent via Coro::AnyEvent. |
1061 | |
1088 | |
1062 | SIMPLIFIED AE API |
1089 | SIMPLIFIED AE API |
1063 | Starting with version 5.0, AnyEvent officially supports a second, much |
1090 | Starting with version 5.0, AnyEvent officially supports a second, much |
1064 | simpler, API that is designed to reduce the calling, typing and memory |
1091 | simpler, API that is designed to reduce the calling, typing and memory |
1065 | overhead. |
1092 | overhead by using function call syntax and a fixed number of parameters. |
1066 | |
1093 | |
1067 | See the AE manpage for details. |
1094 | See the AE manpage for details. |
1068 | |
1095 | |
1069 | ERROR AND EXCEPTION HANDLING |
1096 | ERROR AND EXCEPTION HANDLING |
1070 | In general, AnyEvent does not do any error handling - it relies on the |
1097 | In general, AnyEvent does not do any error handling - it relies on the |
… | |
… | |
1335 | |
1362 | |
1336 | The actual code goes further and collects all errors ("die"s, |
1363 | The actual code goes further and collects all errors ("die"s, |
1337 | exceptions) that occurred during request processing. The "result" method |
1364 | exceptions) that occurred during request processing. The "result" method |
1338 | detects whether an exception as thrown (it is stored inside the $txn |
1365 | detects whether an exception as thrown (it is stored inside the $txn |
1339 | object) and just throws the exception, which means connection errors and |
1366 | object) and just throws the exception, which means connection errors and |
1340 | other problems get reported tot he code that tries to use the result, |
1367 | other problems get reported to the code that tries to use the result, |
1341 | not in a random callback. |
1368 | not in a random callback. |
1342 | |
1369 | |
1343 | All of this enables the following usage styles: |
1370 | All of this enables the following usage styles: |
1344 | |
1371 | |
1345 | 1. Blocking: |
1372 | 1. Blocking: |
… | |
… | |
1758 | clock is available, can take avdantage of advanced kernel interfaces |
1785 | clock is available, can take avdantage of advanced kernel interfaces |
1759 | such as "epoll" and "kqueue", and is the fastest backend *by far*. |
1786 | such as "epoll" and "kqueue", and is the fastest backend *by far*. |
1760 | You can even embed Glib/Gtk2 in it (or vice versa, see EV::Glib and |
1787 | You can even embed Glib/Gtk2 in it (or vice versa, see EV::Glib and |
1761 | Glib::EV). |
1788 | Glib::EV). |
1762 | |
1789 | |
|
|
1790 | If you only use backends that rely on another event loop (e.g. |
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|
1791 | "Tk"), then this module will do nothing for you. |
|
|
1792 | |
1763 | Guard |
1793 | Guard |
1764 | The guard module, when used, will be used to implement |
1794 | The guard module, when used, will be used to implement |
1765 | "AnyEvent::Util::guard". This speeds up guards considerably (and |
1795 | "AnyEvent::Util::guard". This speeds up guards considerably (and |
1766 | uses a lot less memory), but otherwise doesn't affect guard |
1796 | uses a lot less memory), but otherwise doesn't affect guard |
1767 | operation much. It is purely used for performance. |
1797 | operation much. It is purely used for performance. |
1768 | |
1798 | |
1769 | JSON and JSON::XS |
1799 | JSON and JSON::XS |
1770 | One of these modules is required when you want to read or write JSON |
1800 | One of these modules is required when you want to read or write JSON |
1771 | data via AnyEvent::Handle. It is also written in pure-perl, but can |
1801 | data via AnyEvent::Handle. JSON is also written in pure-perl, but |
1772 | take advantage of the ultra-high-speed JSON::XS module when it is |
1802 | can take advantage of the ultra-high-speed JSON::XS module when it |
1773 | installed. |
1803 | is installed. |
1774 | |
|
|
1775 | In fact, AnyEvent::Handle will use JSON::XS by default if it is |
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|
1776 | installed. |
|
|
1777 | |
1804 | |
1778 | Net::SSLeay |
1805 | Net::SSLeay |
1779 | Implementing TLS/SSL in Perl is certainly interesting, but not very |
1806 | Implementing TLS/SSL in Perl is certainly interesting, but not very |
1780 | worthwhile: If this module is installed, then AnyEvent::Handle (with |
1807 | worthwhile: If this module is installed, then AnyEvent::Handle (with |
1781 | the help of AnyEvent::TLS), gains the ability to do TLS/SSL. |
1808 | the help of AnyEvent::TLS), gains the ability to do TLS/SSL. |
… | |
… | |
1787 | additionally use it to try to use a monotonic clock for timing |
1814 | additionally use it to try to use a monotonic clock for timing |
1788 | stability. |
1815 | stability. |
1789 | |
1816 | |
1790 | FORK |
1817 | FORK |
1791 | Most event libraries are not fork-safe. The ones who are usually are |
1818 | Most event libraries are not fork-safe. The ones who are usually are |
1792 | because they rely on inefficient but fork-safe "select" or "poll" calls. |
1819 | because they rely on inefficient but fork-safe "select" or "poll" calls |
1793 | Only EV is fully fork-aware. |
1820 | - higher performance APIs such as BSD's kqueue or the dreaded Linux |
|
|
1821 | epoll are usually badly thought-out hacks that are incompatible with |
|
|
1822 | fork in one way or another. Only EV is fully fork-aware and ensures that |
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|
1823 | you continue event-processing in both parent and child (or both, if you |
|
|
1824 | know what you are doing). |
1794 | |
1825 | |
1795 | This means that, in general, you cannot fork and do event processing in |
1826 | This means that, in general, you cannot fork and do event processing in |
1796 | the child if a watcher was created before the fork (which in turn |
1827 | the child if the event library was initialised before the fork (which |
1797 | initialises the event library). |
1828 | usually happens when the first AnyEvent watcher is created, or the |
|
|
1829 | library is loaded). |
1798 | |
1830 | |
1799 | If you have to fork, you must either do so *before* creating your first |
1831 | If you have to fork, you must either do so *before* creating your first |
1800 | watcher OR you must not use AnyEvent at all in the child OR you must do |
1832 | watcher OR you must not use AnyEvent at all in the child OR you must do |
1801 | something completely out of the scope of AnyEvent. |
1833 | something completely out of the scope of AnyEvent. |
1802 | |
1834 | |
1803 | The problem of doing event processing in the parent *and* the child is |
1835 | The problem of doing event processing in the parent *and* the child is |
1804 | much more complicated: even for backends that *are* fork-aware or |
1836 | much more complicated: even for backends that *are* fork-aware or |
1805 | fork-safe, their behaviour is not usually what you want: fork clones all |
1837 | fork-safe, their behaviour is not usually what you want: fork clones all |
1806 | watchers, that means all timers, I/O watchers etc. are active in both |
1838 | watchers, that means all timers, I/O watchers etc. are active in both |
1807 | parent and child, which is almost never what you want. |
1839 | parent and child, which is almost never what you want. USing "exec" to |
|
|
1840 | start worker children from some kind of manage rprocess is usually |
|
|
1841 | preferred, because it is much easier and cleaner, at the expense of |
|
|
1842 | having to have another binary. |
1808 | |
1843 | |
1809 | SECURITY CONSIDERATIONS |
1844 | SECURITY CONSIDERATIONS |
1810 | AnyEvent can be forced to load any event model via |
1845 | AnyEvent can be forced to load any event model via |
1811 | $ENV{PERL_ANYEVENT_MODEL}. While this cannot (to my knowledge) be used |
1846 | $ENV{PERL_ANYEVENT_MODEL}. While this cannot (to my knowledge) be used |
1812 | to execute arbitrary code or directly gain access, it can easily be used |
1847 | to execute arbitrary code or directly gain access, it can easily be used |