| 1 | =head1 => NAME |
1 | =head1 NAME |
| 2 | |
2 | |
| 3 | AnyEvent - provide framework for multiple event loops |
3 | AnyEvent - provide framework for multiple event loops |
| 4 | |
4 | |
| 5 | EV, Event, Glib, Tk, Perl, Event::Lib, Qt, POE - various supported event loops |
5 | EV, Event, Glib, Tk, Perl, Event::Lib, Qt, POE - various supported event loops |
| 6 | |
6 | |
| … | |
… | |
| 18 | |
18 | |
| 19 | my $w = AnyEvent->condvar; # stores whether a condition was flagged |
19 | my $w = AnyEvent->condvar; # stores whether a condition was flagged |
| 20 | $w->send; # wake up current and all future recv's |
20 | $w->send; # wake up current and all future recv's |
| 21 | $w->recv; # enters "main loop" till $condvar gets ->send |
21 | $w->recv; # enters "main loop" till $condvar gets ->send |
| 22 | |
22 | |
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23 | =head1 INTRODUCTION/TUTORIAL |
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24 | |
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25 | This manpage is mainly a reference manual. If you are interested |
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26 | in a tutorial or some gentle introduction, have a look at the |
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27 | L<AnyEvent::Intro> manpage. |
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28 | |
| 23 | =head1 WHY YOU SHOULD USE THIS MODULE (OR NOT) |
29 | =head1 WHY YOU SHOULD USE THIS MODULE (OR NOT) |
| 24 | |
30 | |
| 25 | Glib, POE, IO::Async, Event... CPAN offers event models by the dozen |
31 | Glib, POE, IO::Async, Event... CPAN offers event models by the dozen |
| 26 | nowadays. So what is different about AnyEvent? |
32 | nowadays. So what is different about AnyEvent? |
| 27 | |
33 | |
| 28 | Executive Summary: AnyEvent is I<compatible>, AnyEvent is I<free of |
34 | Executive Summary: AnyEvent is I<compatible>, AnyEvent is I<free of |
| 29 | policy> and AnyEvent is I<small and efficient>. |
35 | policy> and AnyEvent is I<small and efficient>. |
| 30 | |
36 | |
| 31 | First and foremost, I<AnyEvent is not an event model> itself, it only |
37 | First and foremost, I<AnyEvent is not an event model> itself, it only |
| 32 | interfaces to whatever event model the main program happens to use in a |
38 | interfaces to whatever event model the main program happens to use, in a |
| 33 | pragmatic way. For event models and certain classes of immortals alike, |
39 | pragmatic way. For event models and certain classes of immortals alike, |
| 34 | the statement "there can only be one" is a bitter reality: In general, |
40 | the statement "there can only be one" is a bitter reality: In general, |
| 35 | only one event loop can be active at the same time in a process. AnyEvent |
41 | only one event loop can be active at the same time in a process. AnyEvent |
| 36 | helps hiding the differences between those event loops. |
42 | cannot change this, but it can hide the differences between those event |
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43 | loops. |
| 37 | |
44 | |
| 38 | The goal of AnyEvent is to offer module authors the ability to do event |
45 | The goal of AnyEvent is to offer module authors the ability to do event |
| 39 | programming (waiting for I/O or timer events) without subscribing to a |
46 | programming (waiting for I/O or timer events) without subscribing to a |
| 40 | religion, a way of living, and most importantly: without forcing your |
47 | religion, a way of living, and most importantly: without forcing your |
| 41 | module users into the same thing by forcing them to use the same event |
48 | module users into the same thing by forcing them to use the same event |
| 42 | model you use. |
49 | model you use. |
| 43 | |
50 | |
| 44 | For modules like POE or IO::Async (which is a total misnomer as it is |
51 | For modules like POE or IO::Async (which is a total misnomer as it is |
| 45 | actually doing all I/O I<synchronously>...), using them in your module is |
52 | actually doing all I/O I<synchronously>...), using them in your module is |
| 46 | like joining a cult: After you joined, you are dependent on them and you |
53 | like joining a cult: After you joined, you are dependent on them and you |
| 47 | cannot use anything else, as it is simply incompatible to everything that |
54 | cannot use anything else, as they are simply incompatible to everything |
| 48 | isn't itself. What's worse, all the potential users of your module are |
55 | that isn't them. What's worse, all the potential users of your |
| 49 | I<also> forced to use the same event loop you use. |
56 | module are I<also> forced to use the same event loop you use. |
| 50 | |
57 | |
| 51 | AnyEvent is different: AnyEvent + POE works fine. AnyEvent + Glib works |
58 | AnyEvent is different: AnyEvent + POE works fine. AnyEvent + Glib works |
| 52 | fine. AnyEvent + Tk works fine etc. etc. but none of these work together |
59 | fine. AnyEvent + Tk works fine etc. etc. but none of these work together |
| 53 | with the rest: POE + IO::Async? no go. Tk + Event? no go. Again: if |
60 | with the rest: POE + IO::Async? No go. Tk + Event? No go. Again: if |
| 54 | your module uses one of those, every user of your module has to use it, |
61 | your module uses one of those, every user of your module has to use it, |
| 55 | too. But if your module uses AnyEvent, it works transparently with all |
62 | too. But if your module uses AnyEvent, it works transparently with all |
| 56 | event models it supports (including stuff like POE and IO::Async, as long |
63 | event models it supports (including stuff like IO::Async, as long as those |
| 57 | as those use one of the supported event loops. It is trivial to add new |
64 | use one of the supported event loops. It is trivial to add new event loops |
| 58 | event loops to AnyEvent, too, so it is future-proof). |
65 | to AnyEvent, too, so it is future-proof). |
| 59 | |
66 | |
| 60 | In addition to being free of having to use I<the one and only true event |
67 | In addition to being free of having to use I<the one and only true event |
| 61 | model>, AnyEvent also is free of bloat and policy: with POE or similar |
68 | model>, AnyEvent also is free of bloat and policy: with POE or similar |
| 62 | modules, you get an enormous amount of code and strict rules you have to |
69 | modules, you get an enormous amount of code and strict rules you have to |
| 63 | follow. AnyEvent, on the other hand, is lean and up to the point, by only |
70 | follow. AnyEvent, on the other hand, is lean and up to the point, by only |
| 64 | offering the functionality that is necessary, in as thin as a wrapper as |
71 | offering the functionality that is necessary, in as thin as a wrapper as |
| 65 | technically possible. |
72 | technically possible. |
| 66 | |
73 | |
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74 | Of course, AnyEvent comes with a big (and fully optional!) toolbox |
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75 | of useful functionality, such as an asynchronous DNS resolver, 100% |
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76 | non-blocking connects (even with TLS/SSL, IPv6 and on broken platforms |
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77 | such as Windows) and lots of real-world knowledge and workarounds for |
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78 | platform bugs and differences. |
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79 | |
| 67 | Of course, if you want lots of policy (this can arguably be somewhat |
80 | Now, if you I<do want> lots of policy (this can arguably be somewhat |
| 68 | useful) and you want to force your users to use the one and only event |
81 | useful) and you want to force your users to use the one and only event |
| 69 | model, you should I<not> use this module. |
82 | model, you should I<not> use this module. |
| 70 | |
83 | |
| 71 | =head1 DESCRIPTION |
84 | =head1 DESCRIPTION |
| 72 | |
85 | |
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| 102 | starts using it, all bets are off. Maybe you should tell their authors to |
115 | starts using it, all bets are off. Maybe you should tell their authors to |
| 103 | use AnyEvent so their modules work together with others seamlessly... |
116 | use AnyEvent so their modules work together with others seamlessly... |
| 104 | |
117 | |
| 105 | The pure-perl implementation of AnyEvent is called |
118 | The pure-perl implementation of AnyEvent is called |
| 106 | C<AnyEvent::Impl::Perl>. Like other event modules you can load it |
119 | C<AnyEvent::Impl::Perl>. Like other event modules you can load it |
| 107 | explicitly. |
120 | explicitly and enjoy the high availability of that event loop :) |
| 108 | |
121 | |
| 109 | =head1 WATCHERS |
122 | =head1 WATCHERS |
| 110 | |
123 | |
| 111 | AnyEvent has the central concept of a I<watcher>, which is an object that |
124 | AnyEvent has the central concept of a I<watcher>, which is an object that |
| 112 | stores relevant data for each kind of event you are waiting for, such as |
125 | stores relevant data for each kind of event you are waiting for, such as |
| … | |
… | |
| 126 | Many watchers either are used with "recursion" (repeating timers for |
139 | Many watchers either are used with "recursion" (repeating timers for |
| 127 | example), or need to refer to their watcher object in other ways. |
140 | example), or need to refer to their watcher object in other ways. |
| 128 | |
141 | |
| 129 | An any way to achieve that is this pattern: |
142 | An any way to achieve that is this pattern: |
| 130 | |
143 | |
| 131 | my $w; $w = AnyEvent->type (arg => value ..., cb => sub { |
144 | my $w; $w = AnyEvent->type (arg => value ..., cb => sub { |
| 132 | # you can use $w here, for example to undef it |
145 | # you can use $w here, for example to undef it |
| 133 | undef $w; |
146 | undef $w; |
| 134 | }); |
147 | }); |
| 135 | |
148 | |
| 136 | Note that C<my $w; $w => combination. This is necessary because in Perl, |
149 | Note that C<my $w; $w => combination. This is necessary because in Perl, |
| 137 | my variables are only visible after the statement in which they are |
150 | my variables are only visible after the statement in which they are |
| 138 | declared. |
151 | declared. |
| 139 | |
152 | |
| 140 | =head2 I/O WATCHERS |
153 | =head2 I/O WATCHERS |
| 141 | |
154 | |
| 142 | You can create an I/O watcher by calling the C<< AnyEvent->io >> method |
155 | You can create an I/O watcher by calling the C<< AnyEvent->io >> method |
| 143 | with the following mandatory key-value pairs as arguments: |
156 | with the following mandatory key-value pairs as arguments: |
| 144 | |
157 | |
| 145 | C<fh> the Perl I<file handle> (I<not> file descriptor) to watch |
158 | C<fh> the Perl I<file handle> (I<not> file descriptor) to watch for events |
| 146 | for events. C<poll> must be a string that is either C<r> or C<w>, |
159 | (AnyEvent might or might not keep a reference to this file handle). C<poll> |
| 147 | which creates a watcher waiting for "r"eadable or "w"ritable events, |
160 | must be a string that is either C<r> or C<w>, which creates a watcher |
| 148 | respectively. C<cb> is the callback to invoke each time the file handle |
161 | waiting for "r"eadable or "w"ritable events, respectively. C<cb> is the |
| 149 | becomes ready. |
162 | callback to invoke each time the file handle becomes ready. |
| 150 | |
163 | |
| 151 | Although the callback might get passed parameters, their value and |
164 | Although the callback might get passed parameters, their value and |
| 152 | presence is undefined and you cannot rely on them. Portable AnyEvent |
165 | presence is undefined and you cannot rely on them. Portable AnyEvent |
| 153 | callbacks cannot use arguments passed to I/O watcher callbacks. |
166 | callbacks cannot use arguments passed to I/O watcher callbacks. |
| 154 | |
167 | |
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| 158 | |
171 | |
| 159 | Some event loops issue spurious readyness notifications, so you should |
172 | Some event loops issue spurious readyness notifications, so you should |
| 160 | always use non-blocking calls when reading/writing from/to your file |
173 | always use non-blocking calls when reading/writing from/to your file |
| 161 | handles. |
174 | handles. |
| 162 | |
175 | |
| 163 | Example: |
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| 164 | |
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| 165 | # wait for readability of STDIN, then read a line and disable the watcher |
176 | Example: wait for readability of STDIN, then read a line and disable the |
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177 | watcher. |
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178 | |
| 166 | my $w; $w = AnyEvent->io (fh => \*STDIN, poll => 'r', cb => sub { |
179 | my $w; $w = AnyEvent->io (fh => \*STDIN, poll => 'r', cb => sub { |
| 167 | chomp (my $input = <STDIN>); |
180 | chomp (my $input = <STDIN>); |
| 168 | warn "read: $input\n"; |
181 | warn "read: $input\n"; |
| 169 | undef $w; |
182 | undef $w; |
| 170 | }); |
183 | }); |
| … | |
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| 180 | |
193 | |
| 181 | Although the callback might get passed parameters, their value and |
194 | Although the callback might get passed parameters, their value and |
| 182 | presence is undefined and you cannot rely on them. Portable AnyEvent |
195 | presence is undefined and you cannot rely on them. Portable AnyEvent |
| 183 | callbacks cannot use arguments passed to time watcher callbacks. |
196 | callbacks cannot use arguments passed to time watcher callbacks. |
| 184 | |
197 | |
| 185 | The timer callback will be invoked at most once: if you want a repeating |
198 | The callback will normally be invoked once only. If you specify another |
| 186 | timer you have to create a new watcher (this is a limitation by both Tk |
199 | parameter, C<interval>, as a strictly positive number (> 0), then the |
| 187 | and Glib). |
200 | callback will be invoked regularly at that interval (in fractional |
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201 | seconds) after the first invocation. If C<interval> is specified with a |
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202 | false value, then it is treated as if it were missing. |
| 188 | |
203 | |
| 189 | Example: |
204 | The callback will be rescheduled before invoking the callback, but no |
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205 | attempt is done to avoid timer drift in most backends, so the interval is |
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206 | only approximate. |
| 190 | |
207 | |
| 191 | # fire an event after 7.7 seconds |
208 | Example: fire an event after 7.7 seconds. |
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209 | |
| 192 | my $w = AnyEvent->timer (after => 7.7, cb => sub { |
210 | my $w = AnyEvent->timer (after => 7.7, cb => sub { |
| 193 | warn "timeout\n"; |
211 | warn "timeout\n"; |
| 194 | }); |
212 | }); |
| 195 | |
213 | |
| 196 | # to cancel the timer: |
214 | # to cancel the timer: |
| 197 | undef $w; |
215 | undef $w; |
| 198 | |
216 | |
| 199 | Example 2: |
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| 200 | |
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| 201 | # fire an event after 0.5 seconds, then roughly every second |
217 | Example 2: fire an event after 0.5 seconds, then roughly every second. |
| 202 | my $w; |
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| 203 | |
218 | |
| 204 | my $cb = sub { |
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| 205 | # cancel the old timer while creating a new one |
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| 206 | $w = AnyEvent->timer (after => 1, cb => $cb); |
219 | my $w = AnyEvent->timer (after => 0.5, interval => 1, cb => sub { |
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220 | warn "timeout\n"; |
| 207 | }; |
221 | }; |
| 208 | |
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| 209 | # start the "loop" by creating the first watcher |
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| 210 | $w = AnyEvent->timer (after => 0.5, cb => $cb); |
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| 211 | |
222 | |
| 212 | =head3 TIMING ISSUES |
223 | =head3 TIMING ISSUES |
| 213 | |
224 | |
| 214 | There are two ways to handle timers: based on real time (relative, "fire |
225 | There are two ways to handle timers: based on real time (relative, "fire |
| 215 | in 10 seconds") and based on wallclock time (absolute, "fire at 12 |
226 | in 10 seconds") and based on wallclock time (absolute, "fire at 12 |
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| 227 | timers. |
238 | timers. |
| 228 | |
239 | |
| 229 | AnyEvent always prefers relative timers, if available, matching the |
240 | AnyEvent always prefers relative timers, if available, matching the |
| 230 | AnyEvent API. |
241 | AnyEvent API. |
| 231 | |
242 | |
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243 | AnyEvent has two additional methods that return the "current time": |
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244 | |
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245 | =over 4 |
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246 | |
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247 | =item AnyEvent->time |
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248 | |
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249 | This returns the "current wallclock time" as a fractional number of |
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250 | seconds since the Epoch (the same thing as C<time> or C<Time::HiRes::time> |
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251 | return, and the result is guaranteed to be compatible with those). |
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252 | |
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253 | It progresses independently of any event loop processing, i.e. each call |
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254 | will check the system clock, which usually gets updated frequently. |
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255 | |
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256 | =item AnyEvent->now |
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257 | |
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258 | This also returns the "current wallclock time", but unlike C<time>, above, |
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259 | this value might change only once per event loop iteration, depending on |
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260 | the event loop (most return the same time as C<time>, above). This is the |
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261 | time that AnyEvent's timers get scheduled against. |
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262 | |
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263 | I<In almost all cases (in all cases if you don't care), this is the |
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264 | function to call when you want to know the current time.> |
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265 | |
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266 | This function is also often faster then C<< AnyEvent->time >>, and |
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267 | thus the preferred method if you want some timestamp (for example, |
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268 | L<AnyEvent::Handle> uses this to update it's activity timeouts). |
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269 | |
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270 | The rest of this section is only of relevance if you try to be very exact |
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271 | with your timing, you can skip it without bad conscience. |
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272 | |
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273 | For a practical example of when these times differ, consider L<Event::Lib> |
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274 | and L<EV> and the following set-up: |
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275 | |
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276 | The event loop is running and has just invoked one of your callback at |
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277 | time=500 (assume no other callbacks delay processing). In your callback, |
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278 | you wait a second by executing C<sleep 1> (blocking the process for a |
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279 | second) and then (at time=501) you create a relative timer that fires |
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280 | after three seconds. |
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281 | |
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282 | With L<Event::Lib>, C<< AnyEvent->time >> and C<< AnyEvent->now >> will |
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283 | both return C<501>, because that is the current time, and the timer will |
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284 | be scheduled to fire at time=504 (C<501> + C<3>). |
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285 | |
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286 | With L<EV>, C<< AnyEvent->time >> returns C<501> (as that is the current |
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287 | time), but C<< AnyEvent->now >> returns C<500>, as that is the time the |
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288 | last event processing phase started. With L<EV>, your timer gets scheduled |
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289 | to run at time=503 (C<500> + C<3>). |
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290 | |
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291 | In one sense, L<Event::Lib> is more exact, as it uses the current time |
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292 | regardless of any delays introduced by event processing. However, most |
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293 | callbacks do not expect large delays in processing, so this causes a |
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294 | higher drift (and a lot more system calls to get the current time). |
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295 | |
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296 | In another sense, L<EV> is more exact, as your timer will be scheduled at |
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297 | the same time, regardless of how long event processing actually took. |
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298 | |
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299 | In either case, if you care (and in most cases, you don't), then you |
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300 | can get whatever behaviour you want with any event loop, by taking the |
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301 | difference between C<< AnyEvent->time >> and C<< AnyEvent->now >> into |
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302 | account. |
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303 | |
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304 | =back |
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305 | |
| 232 | =head2 SIGNAL WATCHERS |
306 | =head2 SIGNAL WATCHERS |
| 233 | |
307 | |
| 234 | You can watch for signals using a signal watcher, C<signal> is the signal |
308 | You can watch for signals using a signal watcher, C<signal> is the signal |
| 235 | I<name> without any C<SIG> prefix, C<cb> is the Perl callback to |
309 | I<name> in uppercase and without any C<SIG> prefix, C<cb> is the Perl |
| 236 | be invoked whenever a signal occurs. |
310 | callback to be invoked whenever a signal occurs. |
| 237 | |
311 | |
| 238 | Although the callback might get passed parameters, their value and |
312 | Although the callback might get passed parameters, their value and |
| 239 | presence is undefined and you cannot rely on them. Portable AnyEvent |
313 | presence is undefined and you cannot rely on them. Portable AnyEvent |
| 240 | callbacks cannot use arguments passed to signal watcher callbacks. |
314 | callbacks cannot use arguments passed to signal watcher callbacks. |
| 241 | |
315 | |
| … | |
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| 277 | AnyEvent program, you I<have> to create at least one watcher before you |
351 | AnyEvent program, you I<have> to create at least one watcher before you |
| 278 | C<fork> the child (alternatively, you can call C<AnyEvent::detect>). |
352 | C<fork> the child (alternatively, you can call C<AnyEvent::detect>). |
| 279 | |
353 | |
| 280 | Example: fork a process and wait for it |
354 | Example: fork a process and wait for it |
| 281 | |
355 | |
| 282 | my $done = AnyEvent->condvar; |
356 | my $done = AnyEvent->condvar; |
| 283 | |
357 | |
| 284 | my $pid = fork or exit 5; |
358 | my $pid = fork or exit 5; |
| 285 | |
359 | |
| 286 | my $w = AnyEvent->child ( |
360 | my $w = AnyEvent->child ( |
| 287 | pid => $pid, |
361 | pid => $pid, |
| 288 | cb => sub { |
362 | cb => sub { |
| 289 | my ($pid, $status) = @_; |
363 | my ($pid, $status) = @_; |
| 290 | warn "pid $pid exited with status $status"; |
364 | warn "pid $pid exited with status $status"; |
| 291 | $done->send; |
365 | $done->send; |
| 292 | }, |
366 | }, |
| 293 | ); |
367 | ); |
| 294 | |
368 | |
| 295 | # do something else, then wait for process exit |
369 | # do something else, then wait for process exit |
| 296 | $done->recv; |
370 | $done->recv; |
| 297 | |
371 | |
| 298 | =head2 CONDITION VARIABLES |
372 | =head2 CONDITION VARIABLES |
| 299 | |
373 | |
| 300 | If you are familiar with some event loops you will know that all of them |
374 | If you are familiar with some event loops you will know that all of them |
| 301 | require you to run some blocking "loop", "run" or similar function that |
375 | require you to run some blocking "loop", "run" or similar function that |
| … | |
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| 312 | C<cb>, which specifies a callback to be called when the condition variable |
386 | C<cb>, which specifies a callback to be called when the condition variable |
| 313 | becomes true. |
387 | becomes true. |
| 314 | |
388 | |
| 315 | After creation, the condition variable is "false" until it becomes "true" |
389 | After creation, the condition variable is "false" until it becomes "true" |
| 316 | by calling the C<send> method (or calling the condition variable as if it |
390 | by calling the C<send> method (or calling the condition variable as if it |
| 317 | were a callback). |
391 | were a callback, read about the caveats in the description for the C<< |
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392 | ->send >> method). |
| 318 | |
393 | |
| 319 | Condition variables are similar to callbacks, except that you can |
394 | Condition variables are similar to callbacks, except that you can |
| 320 | optionally wait for them. They can also be called merge points - points |
395 | optionally wait for them. They can also be called merge points - points |
| 321 | in time where multiple outstanding events have been processed. And yet |
396 | in time where multiple outstanding events have been processed. And yet |
| 322 | another way to call them is transactions - each condition variable can be |
397 | another way to call them is transactions - each condition variable can be |
| … | |
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| 394 | immediately from within send. |
469 | immediately from within send. |
| 395 | |
470 | |
| 396 | Any arguments passed to the C<send> call will be returned by all |
471 | Any arguments passed to the C<send> call will be returned by all |
| 397 | future C<< ->recv >> calls. |
472 | future C<< ->recv >> calls. |
| 398 | |
473 | |
| 399 | Condition variables are overloaded so one can call them directly (as a |
474 | Condition variables are overloaded so one can call them directly |
| 400 | code reference). Calling them directly is the same as calling C<send>. |
475 | (as a code reference). Calling them directly is the same as calling |
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476 | C<send>. Note, however, that many C-based event loops do not handle |
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477 | overloading, so as tempting as it may be, passing a condition variable |
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478 | instead of a callback does not work. Both the pure perl and EV loops |
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479 | support overloading, however, as well as all functions that use perl to |
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480 | invoke a callback (as in L<AnyEvent::Socket> and L<AnyEvent::DNS> for |
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481 | example). |
| 401 | |
482 | |
| 402 | =item $cv->croak ($error) |
483 | =item $cv->croak ($error) |
| 403 | |
484 | |
| 404 | Similar to send, but causes all call's to C<< ->recv >> to invoke |
485 | Similar to send, but causes all call's to C<< ->recv >> to invoke |
| 405 | C<Carp::croak> with the given error message/object/scalar. |
486 | C<Carp::croak> with the given error message/object/scalar. |
| … | |
… | |
| 515 | |
596 | |
| 516 | This is a mutator function that returns the callback set and optionally |
597 | This is a mutator function that returns the callback set and optionally |
| 517 | replaces it before doing so. |
598 | replaces it before doing so. |
| 518 | |
599 | |
| 519 | The callback will be called when the condition becomes "true", i.e. when |
600 | The callback will be called when the condition becomes "true", i.e. when |
| 520 | C<send> or C<croak> are called. Calling C<recv> inside the callback |
601 | C<send> or C<croak> are called, with the only argument being the condition |
| 521 | or at any later time is guaranteed not to block. |
602 | variable itself. Calling C<recv> inside the callback or at any later time |
|
|
603 | is guaranteed not to block. |
| 522 | |
604 | |
| 523 | =back |
605 | =back |
| 524 | |
606 | |
| 525 | =head1 GLOBAL VARIABLES AND FUNCTIONS |
607 | =head1 GLOBAL VARIABLES AND FUNCTIONS |
| 526 | |
608 | |
| … | |
… | |
| 655 | =item L<AnyEvent::Util> |
737 | =item L<AnyEvent::Util> |
| 656 | |
738 | |
| 657 | Contains various utility functions that replace often-used but blocking |
739 | Contains various utility functions that replace often-used but blocking |
| 658 | functions such as C<inet_aton> by event-/callback-based versions. |
740 | functions such as C<inet_aton> by event-/callback-based versions. |
| 659 | |
741 | |
| 660 | =item L<AnyEvent::Handle> |
|
|
| 661 | |
|
|
| 662 | Provide read and write buffers and manages watchers for reads and writes. |
|
|
| 663 | |
|
|
| 664 | =item L<AnyEvent::Socket> |
742 | =item L<AnyEvent::Socket> |
| 665 | |
743 | |
| 666 | Provides various utility functions for (internet protocol) sockets, |
744 | Provides various utility functions for (internet protocol) sockets, |
| 667 | addresses and name resolution. Also functions to create non-blocking tcp |
745 | addresses and name resolution. Also functions to create non-blocking tcp |
| 668 | connections or tcp servers, with IPv6 and SRV record support and more. |
746 | connections or tcp servers, with IPv6 and SRV record support and more. |
| 669 | |
747 | |
|
|
748 | =item L<AnyEvent::Handle> |
|
|
749 | |
|
|
750 | Provide read and write buffers, manages watchers for reads and writes, |
|
|
751 | supports raw and formatted I/O, I/O queued and fully transparent and |
|
|
752 | non-blocking SSL/TLS. |
|
|
753 | |
| 670 | =item L<AnyEvent::DNS> |
754 | =item L<AnyEvent::DNS> |
| 671 | |
755 | |
| 672 | Provides rich asynchronous DNS resolver capabilities. |
756 | Provides rich asynchronous DNS resolver capabilities. |
| 673 | |
757 | |
|
|
758 | =item L<AnyEvent::HTTP> |
|
|
759 | |
|
|
760 | A simple-to-use HTTP library that is capable of making a lot of concurrent |
|
|
761 | HTTP requests. |
|
|
762 | |
| 674 | =item L<AnyEvent::HTTPD> |
763 | =item L<AnyEvent::HTTPD> |
| 675 | |
764 | |
| 676 | Provides a simple web application server framework. |
765 | Provides a simple web application server framework. |
| 677 | |
766 | |
| 678 | =item L<AnyEvent::FastPing> |
767 | =item L<AnyEvent::FastPing> |
| 679 | |
768 | |
| 680 | The fastest ping in the west. |
769 | The fastest ping in the west. |
|
|
770 | |
|
|
771 | =item L<AnyEvent::DBI> |
|
|
772 | |
|
|
773 | Executes L<DBI> requests asynchronously in a proxy process. |
|
|
774 | |
|
|
775 | =item L<AnyEvent::AIO> |
|
|
776 | |
|
|
777 | Truly asynchronous I/O, should be in the toolbox of every event |
|
|
778 | programmer. AnyEvent::AIO transparently fuses L<IO::AIO> and AnyEvent |
|
|
779 | together. |
|
|
780 | |
|
|
781 | =item L<AnyEvent::BDB> |
|
|
782 | |
|
|
783 | Truly asynchronous Berkeley DB access. AnyEvent::BDB transparently fuses |
|
|
784 | L<BDB> and AnyEvent together. |
|
|
785 | |
|
|
786 | =item L<AnyEvent::GPSD> |
|
|
787 | |
|
|
788 | A non-blocking interface to gpsd, a daemon delivering GPS information. |
|
|
789 | |
|
|
790 | =item L<AnyEvent::IGS> |
|
|
791 | |
|
|
792 | A non-blocking interface to the Internet Go Server protocol (used by |
|
|
793 | L<App::IGS>). |
| 681 | |
794 | |
| 682 | =item L<Net::IRC3> |
795 | =item L<Net::IRC3> |
| 683 | |
796 | |
| 684 | AnyEvent based IRC client module family. |
797 | AnyEvent based IRC client module family. |
| 685 | |
798 | |
| … | |
… | |
| 698 | |
811 | |
| 699 | =item L<Coro> |
812 | =item L<Coro> |
| 700 | |
813 | |
| 701 | Has special support for AnyEvent via L<Coro::AnyEvent>. |
814 | Has special support for AnyEvent via L<Coro::AnyEvent>. |
| 702 | |
815 | |
| 703 | =item L<AnyEvent::AIO>, L<IO::AIO> |
|
|
| 704 | |
|
|
| 705 | Truly asynchronous I/O, should be in the toolbox of every event |
|
|
| 706 | programmer. AnyEvent::AIO transparently fuses IO::AIO and AnyEvent |
|
|
| 707 | together. |
|
|
| 708 | |
|
|
| 709 | =item L<AnyEvent::BDB>, L<BDB> |
|
|
| 710 | |
|
|
| 711 | Truly asynchronous Berkeley DB access. AnyEvent::AIO transparently fuses |
|
|
| 712 | IO::AIO and AnyEvent together. |
|
|
| 713 | |
|
|
| 714 | =item L<IO::Lambda> |
816 | =item L<IO::Lambda> |
| 715 | |
817 | |
| 716 | The lambda approach to I/O - don't ask, look there. Can use AnyEvent. |
818 | The lambda approach to I/O - don't ask, look there. Can use AnyEvent. |
| 717 | |
819 | |
| 718 | =back |
820 | =back |
| … | |
… | |
| 724 | no warnings; |
826 | no warnings; |
| 725 | use strict; |
827 | use strict; |
| 726 | |
828 | |
| 727 | use Carp; |
829 | use Carp; |
| 728 | |
830 | |
| 729 | our $VERSION = '4.03'; |
831 | our $VERSION = 4.22; |
| 730 | our $MODEL; |
832 | our $MODEL; |
| 731 | |
833 | |
| 732 | our $AUTOLOAD; |
834 | our $AUTOLOAD; |
| 733 | our @ISA; |
835 | our @ISA; |
| 734 | |
836 | |
|
|
837 | our @REGISTRY; |
|
|
838 | |
|
|
839 | our $WIN32; |
|
|
840 | |
|
|
841 | BEGIN { |
|
|
842 | my $win32 = ! ! ($^O =~ /mswin32/i); |
|
|
843 | eval "sub WIN32(){ $win32 }"; |
|
|
844 | } |
|
|
845 | |
| 735 | our $verbose = $ENV{PERL_ANYEVENT_VERBOSE}*1; |
846 | our $verbose = $ENV{PERL_ANYEVENT_VERBOSE}*1; |
| 736 | |
847 | |
| 737 | our @REGISTRY; |
848 | our %PROTOCOL; # (ipv4|ipv6) => (1|2), higher numbers are preferred |
| 738 | |
|
|
| 739 | our %PROTOCOL; # (ipv4|ipv6) => (1|2) |
|
|
| 740 | |
849 | |
| 741 | { |
850 | { |
| 742 | my $idx; |
851 | my $idx; |
| 743 | $PROTOCOL{$_} = ++$idx |
852 | $PROTOCOL{$_} = ++$idx |
|
|
853 | for reverse split /\s*,\s*/, |
| 744 | for split /\s*,\s*/, $ENV{PERL_ANYEVENT_PROTOCOLS} || "ipv4,ipv6"; |
854 | $ENV{PERL_ANYEVENT_PROTOCOLS} || "ipv4,ipv6"; |
| 745 | } |
855 | } |
| 746 | |
856 | |
| 747 | my @models = ( |
857 | my @models = ( |
| 748 | [EV:: => AnyEvent::Impl::EV::], |
858 | [EV:: => AnyEvent::Impl::EV::], |
| 749 | [Event:: => AnyEvent::Impl::Event::], |
859 | [Event:: => AnyEvent::Impl::Event::], |
| 750 | [Tk:: => AnyEvent::Impl::Tk::], |
|
|
| 751 | [Wx:: => AnyEvent::Impl::POE::], |
|
|
| 752 | [Prima:: => AnyEvent::Impl::POE::], |
|
|
| 753 | [AnyEvent::Impl::Perl:: => AnyEvent::Impl::Perl::], |
860 | [AnyEvent::Impl::Perl:: => AnyEvent::Impl::Perl::], |
| 754 | # everything below here will not be autoprobed as the pureperl backend should work everywhere |
861 | # everything below here will not be autoprobed |
| 755 | [Glib:: => AnyEvent::Impl::Glib::], |
862 | # as the pureperl backend should work everywhere |
|
|
863 | # and is usually faster |
|
|
864 | [Tk:: => AnyEvent::Impl::Tk::], # crashes with many handles |
|
|
865 | [Glib:: => AnyEvent::Impl::Glib::], # becomes extremely slow with many watchers |
| 756 | [Event::Lib:: => AnyEvent::Impl::EventLib::], # too buggy |
866 | [Event::Lib:: => AnyEvent::Impl::EventLib::], # too buggy |
| 757 | [Qt:: => AnyEvent::Impl::Qt::], # requires special main program |
867 | [Qt:: => AnyEvent::Impl::Qt::], # requires special main program |
| 758 | [POE::Kernel:: => AnyEvent::Impl::POE::], # lasciate ogni speranza |
868 | [POE::Kernel:: => AnyEvent::Impl::POE::], # lasciate ogni speranza |
|
|
869 | [Wx:: => AnyEvent::Impl::POE::], |
|
|
870 | [Prima:: => AnyEvent::Impl::POE::], |
| 759 | ); |
871 | ); |
| 760 | |
872 | |
| 761 | our %method = map +($_ => 1), qw(io timer signal child condvar one_event DESTROY); |
873 | our %method = map +($_ => 1), qw(io timer time now signal child condvar one_event DESTROY); |
| 762 | |
874 | |
| 763 | our @post_detect; |
875 | our @post_detect; |
| 764 | |
876 | |
| 765 | sub post_detect(&) { |
877 | sub post_detect(&) { |
| 766 | my ($cb) = @_; |
878 | my ($cb) = @_; |
| … | |
… | |
| 783 | } |
895 | } |
| 784 | |
896 | |
| 785 | sub detect() { |
897 | sub detect() { |
| 786 | unless ($MODEL) { |
898 | unless ($MODEL) { |
| 787 | no strict 'refs'; |
899 | no strict 'refs'; |
|
|
900 | local $SIG{__DIE__}; |
| 788 | |
901 | |
| 789 | if ($ENV{PERL_ANYEVENT_MODEL} =~ /^([a-zA-Z]+)$/) { |
902 | if ($ENV{PERL_ANYEVENT_MODEL} =~ /^([a-zA-Z]+)$/) { |
| 790 | my $model = "AnyEvent::Impl::$1"; |
903 | my $model = "AnyEvent::Impl::$1"; |
| 791 | if (eval "require $model") { |
904 | if (eval "require $model") { |
| 792 | $MODEL = $model; |
905 | $MODEL = $model; |
| … | |
… | |
| 826 | $MODEL |
939 | $MODEL |
| 827 | or die "No event module selected for AnyEvent and autodetect failed. Install any one of these modules: EV, Event or Glib."; |
940 | or die "No event module selected for AnyEvent and autodetect failed. Install any one of these modules: EV, Event or Glib."; |
| 828 | } |
941 | } |
| 829 | } |
942 | } |
| 830 | |
943 | |
|
|
944 | push @{"$MODEL\::ISA"}, "AnyEvent::Base"; |
|
|
945 | |
| 831 | unshift @ISA, $MODEL; |
946 | unshift @ISA, $MODEL; |
| 832 | push @{"$MODEL\::ISA"}, "AnyEvent::Base"; |
947 | |
|
|
948 | require AnyEvent::Strict if $ENV{PERL_ANYEVENT_STRICT}; |
| 833 | |
949 | |
| 834 | (shift @post_detect)->() while @post_detect; |
950 | (shift @post_detect)->() while @post_detect; |
| 835 | } |
951 | } |
| 836 | |
952 | |
| 837 | $MODEL |
953 | $MODEL |
| … | |
… | |
| 847 | |
963 | |
| 848 | my $class = shift; |
964 | my $class = shift; |
| 849 | $class->$func (@_); |
965 | $class->$func (@_); |
| 850 | } |
966 | } |
| 851 | |
967 | |
|
|
968 | # utility function to dup a filehandle. this is used by many backends |
|
|
969 | # to support binding more than one watcher per filehandle (they usually |
|
|
970 | # allow only one watcher per fd, so we dup it to get a different one). |
|
|
971 | sub _dupfh($$$$) { |
|
|
972 | my ($poll, $fh, $r, $w) = @_; |
|
|
973 | |
|
|
974 | require Fcntl; |
|
|
975 | |
|
|
976 | # cygwin requires the fh mode to be matching, unix doesn't |
|
|
977 | my ($rw, $mode) = $poll eq "r" ? ($r, "<") |
|
|
978 | : $poll eq "w" ? ($w, ">") |
|
|
979 | : Carp::croak "AnyEvent->io requires poll set to either 'r' or 'w'"; |
|
|
980 | |
|
|
981 | open my $fh2, "$mode&" . fileno $fh |
|
|
982 | or die "cannot dup() filehandle: $!"; |
|
|
983 | |
|
|
984 | # we assume CLOEXEC is already set by perl in all important cases |
|
|
985 | |
|
|
986 | ($fh2, $rw) |
|
|
987 | } |
|
|
988 | |
| 852 | package AnyEvent::Base; |
989 | package AnyEvent::Base; |
|
|
990 | |
|
|
991 | # default implementation for now and time |
|
|
992 | |
|
|
993 | use Time::HiRes (); |
|
|
994 | |
|
|
995 | sub time { Time::HiRes::time } |
|
|
996 | sub now { Time::HiRes::time } |
| 853 | |
997 | |
| 854 | # default implementation for ->condvar |
998 | # default implementation for ->condvar |
| 855 | |
999 | |
| 856 | sub condvar { |
1000 | sub condvar { |
| 857 | bless { @_ == 3 ? (_ae_cb => $_[2]) : () }, AnyEvent::CondVar:: |
1001 | bless { @_ == 3 ? (_ae_cb => $_[2]) : () }, AnyEvent::CondVar:: |
| … | |
… | |
| 878 | sub AnyEvent::Base::Signal::DESTROY { |
1022 | sub AnyEvent::Base::Signal::DESTROY { |
| 879 | my ($signal, $cb) = @{$_[0]}; |
1023 | my ($signal, $cb) = @{$_[0]}; |
| 880 | |
1024 | |
| 881 | delete $SIG_CB{$signal}{$cb}; |
1025 | delete $SIG_CB{$signal}{$cb}; |
| 882 | |
1026 | |
| 883 | $SIG{$signal} = 'DEFAULT' unless keys %{ $SIG_CB{$signal} }; |
1027 | delete $SIG{$signal} unless keys %{ $SIG_CB{$signal} }; |
| 884 | } |
1028 | } |
| 885 | |
1029 | |
| 886 | # default implementation for ->child |
1030 | # default implementation for ->child |
| 887 | |
1031 | |
| 888 | our %PID_CB; |
1032 | our %PID_CB; |
| … | |
… | |
| 915 | or Carp::croak "required option 'pid' is missing"; |
1059 | or Carp::croak "required option 'pid' is missing"; |
| 916 | |
1060 | |
| 917 | $PID_CB{$pid}{$arg{cb}} = $arg{cb}; |
1061 | $PID_CB{$pid}{$arg{cb}} = $arg{cb}; |
| 918 | |
1062 | |
| 919 | unless ($WNOHANG) { |
1063 | unless ($WNOHANG) { |
| 920 | $WNOHANG = eval { require POSIX; &POSIX::WNOHANG } || 1; |
1064 | $WNOHANG = eval { local $SIG{__DIE__}; require POSIX; &POSIX::WNOHANG } || 1; |
| 921 | } |
1065 | } |
| 922 | |
1066 | |
| 923 | unless ($CHLD_W) { |
1067 | unless ($CHLD_W) { |
| 924 | $CHLD_W = AnyEvent->signal (signal => 'CHLD', cb => \&_sigchld); |
1068 | $CHLD_W = AnyEvent->signal (signal => 'CHLD', cb => \&_sigchld); |
| 925 | # child could be a zombie already, so make at least one round |
1069 | # child could be a zombie already, so make at least one round |
| … | |
… | |
| 1058 | C<PERL_ANYEVENT_MODEL>. |
1202 | C<PERL_ANYEVENT_MODEL>. |
| 1059 | |
1203 | |
| 1060 | When set to C<2> or higher, cause AnyEvent to report to STDERR which event |
1204 | When set to C<2> or higher, cause AnyEvent to report to STDERR which event |
| 1061 | model it chooses. |
1205 | model it chooses. |
| 1062 | |
1206 | |
|
|
1207 | =item C<PERL_ANYEVENT_STRICT> |
|
|
1208 | |
|
|
1209 | AnyEvent does not do much argument checking by default, as thorough |
|
|
1210 | argument checking is very costly. Setting this variable to a true value |
|
|
1211 | will cause AnyEvent to load C<AnyEvent::Strict> and then to thoroughly |
|
|
1212 | check the arguments passed to most method calls. If it finds any problems |
|
|
1213 | it will croak. |
|
|
1214 | |
|
|
1215 | In other words, enables "strict" mode. |
|
|
1216 | |
|
|
1217 | Unlike C<use strict> it is definitely recommended ot keep it off in |
|
|
1218 | production. |
|
|
1219 | |
| 1063 | =item C<PERL_ANYEVENT_MODEL> |
1220 | =item C<PERL_ANYEVENT_MODEL> |
| 1064 | |
1221 | |
| 1065 | This can be used to specify the event model to be used by AnyEvent, before |
1222 | This can be used to specify the event model to be used by AnyEvent, before |
| 1066 | auto detection and -probing kicks in. It must be a string consisting |
1223 | auto detection and -probing kicks in. It must be a string consisting |
| 1067 | entirely of ASCII letters. The string C<AnyEvent::Impl::> gets prepended |
1224 | entirely of ASCII letters. The string C<AnyEvent::Impl::> gets prepended |
| … | |
… | |
| 1072 | This functionality might change in future versions. |
1229 | This functionality might change in future versions. |
| 1073 | |
1230 | |
| 1074 | For example, to force the pure perl model (L<AnyEvent::Impl::Perl>) you |
1231 | For example, to force the pure perl model (L<AnyEvent::Impl::Perl>) you |
| 1075 | could start your program like this: |
1232 | could start your program like this: |
| 1076 | |
1233 | |
| 1077 | PERL_ANYEVENT_MODEL=Perl perl ... |
1234 | PERL_ANYEVENT_MODEL=Perl perl ... |
| 1078 | |
1235 | |
| 1079 | =item C<PERL_ANYEVENT_PROTOCOLS> |
1236 | =item C<PERL_ANYEVENT_PROTOCOLS> |
| 1080 | |
1237 | |
| 1081 | Used by both L<AnyEvent::DNS> and L<AnyEvent::Socket> to determine preferences |
1238 | Used by both L<AnyEvent::DNS> and L<AnyEvent::Socket> to determine preferences |
| 1082 | for IPv4 or IPv6. The default is unspecified (and might change, or be the result |
1239 | for IPv4 or IPv6. The default is unspecified (and might change, or be the result |
| … | |
… | |
| 1104 | some (broken) firewalls drop such DNS packets, which is why it is off by |
1261 | some (broken) firewalls drop such DNS packets, which is why it is off by |
| 1105 | default. |
1262 | default. |
| 1106 | |
1263 | |
| 1107 | Setting this variable to C<1> will cause L<AnyEvent::DNS> to announce |
1264 | Setting this variable to C<1> will cause L<AnyEvent::DNS> to announce |
| 1108 | EDNS0 in its DNS requests. |
1265 | EDNS0 in its DNS requests. |
|
|
1266 | |
|
|
1267 | =item C<PERL_ANYEVENT_MAX_FORKS> |
|
|
1268 | |
|
|
1269 | The maximum number of child processes that C<AnyEvent::Util::fork_call> |
|
|
1270 | will create in parallel. |
| 1109 | |
1271 | |
| 1110 | =back |
1272 | =back |
| 1111 | |
1273 | |
| 1112 | =head1 EXAMPLE PROGRAM |
1274 | =head1 EXAMPLE PROGRAM |
| 1113 | |
1275 | |
| … | |
… | |
| 1552 | specified in the variable. |
1714 | specified in the variable. |
| 1553 | |
1715 | |
| 1554 | You can make AnyEvent completely ignore this variable by deleting it |
1716 | You can make AnyEvent completely ignore this variable by deleting it |
| 1555 | before the first watcher gets created, e.g. with a C<BEGIN> block: |
1717 | before the first watcher gets created, e.g. with a C<BEGIN> block: |
| 1556 | |
1718 | |
| 1557 | BEGIN { delete $ENV{PERL_ANYEVENT_MODEL} } |
1719 | BEGIN { delete $ENV{PERL_ANYEVENT_MODEL} } |
| 1558 | |
1720 | |
| 1559 | use AnyEvent; |
1721 | use AnyEvent; |
| 1560 | |
1722 | |
| 1561 | Similar considerations apply to $ENV{PERL_ANYEVENT_VERBOSE}, as that can |
1723 | Similar considerations apply to $ENV{PERL_ANYEVENT_VERBOSE}, as that can |
| 1562 | be used to probe what backend is used and gain other information (which is |
1724 | be used to probe what backend is used and gain other information (which is |
| 1563 | probably even less useful to an attacker than PERL_ANYEVENT_MODEL). |
1725 | probably even less useful to an attacker than PERL_ANYEVENT_MODEL), and |
|
|
1726 | $ENV{PERL_ANYEGENT_STRICT}. |
|
|
1727 | |
|
|
1728 | |
|
|
1729 | =head1 BUGS |
|
|
1730 | |
|
|
1731 | Perl 5.8 has numerous memleaks that sometimes hit this module and are hard |
|
|
1732 | to work around. If you suffer from memleaks, first upgrade to Perl 5.10 |
|
|
1733 | and check wether the leaks still show up. (Perl 5.10.0 has other annoying |
|
|
1734 | mamleaks, such as leaking on C<map> and C<grep> but it is usually not as |
|
|
1735 | pronounced). |
| 1564 | |
1736 | |
| 1565 | |
1737 | |
| 1566 | =head1 SEE ALSO |
1738 | =head1 SEE ALSO |
| 1567 | |
1739 | |
| 1568 | Utility functions: L<AnyEvent::Util>. |
1740 | Utility functions: L<AnyEvent::Util>. |
| … | |
… | |
| 1585 | Nontrivial usage examples: L<Net::FCP>, L<Net::XMPP2>, L<AnyEvent::DNS>. |
1757 | Nontrivial usage examples: L<Net::FCP>, L<Net::XMPP2>, L<AnyEvent::DNS>. |
| 1586 | |
1758 | |
| 1587 | |
1759 | |
| 1588 | =head1 AUTHOR |
1760 | =head1 AUTHOR |
| 1589 | |
1761 | |
| 1590 | Marc Lehmann <schmorp@schmorp.de> |
1762 | Marc Lehmann <schmorp@schmorp.de> |
| 1591 | http://home.schmorp.de/ |
1763 | http://home.schmorp.de/ |
| 1592 | |
1764 | |
| 1593 | =cut |
1765 | =cut |
| 1594 | |
1766 | |
| 1595 | 1 |
1767 | 1 |
| 1596 | |
1768 | |
