| 1 | =head1 NAME |
1 | =head1 NAME |
| 2 | |
2 | |
| 3 | EV - perl interface to libevent, monkey.org/~provos/libevent/ |
3 | EV - perl interface to libev, a high performance full-featured event loop |
| 4 | |
4 | |
| 5 | =head1 SYNOPSIS |
5 | =head1 SYNOPSIS |
| 6 | |
6 | |
| 7 | use EV; |
7 | use EV; |
| 8 | |
8 | |
| 9 | # TIMER |
9 | # TIMERS |
| 10 | |
10 | |
| 11 | my $w = EV::timer 2, 0, sub { |
11 | my $w = EV::timer 2, 0, sub { |
| 12 | warn "is called after 2s"; |
12 | warn "is called after 2s"; |
| 13 | }; |
13 | }; |
| 14 | |
14 | |
| 15 | my $w = EV::timer 2, 1, sub { |
15 | my $w = EV::timer 2, 1, sub { |
| 16 | warn "is called roughly every 2s (repeat = 1)"; |
16 | warn "is called roughly every 2s (repeat = 1)"; |
| 17 | }; |
17 | }; |
| 18 | |
18 | |
| 19 | undef $w; # destroy event watcher again |
19 | undef $w; # destroy event watcher again |
| 20 | |
20 | |
| 21 | # IO |
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| 22 | |
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| 23 | my $w = EV::timer_abs 0, 60, sub { |
21 | my $w = EV::periodic 0, 60, 0, sub { |
| 24 | warn "is called every minute, on the minute, exactly"; |
22 | warn "is called every minute, on the minute, exactly"; |
| 25 | }; |
23 | }; |
| 26 | |
24 | |
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25 | # IO |
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26 | |
| 27 | my $w = EV::io \*STDIN, EV::READ | EV::PERSIST, sub { |
27 | my $w = EV::io *STDIN, EV::READ, sub { |
| 28 | my ($w, $events) = @_; # all callbacks get the watcher object and event mask |
28 | my ($w, $revents) = @_; # all callbacks get the watcher object and event mask |
| 29 | if ($events & EV::TIMEOUT) { |
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| 30 | warn "nothign received on stdin for 10 seconds, retrying"; |
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| 31 | } else { |
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| 32 | warn "stdin is readable, you entered: ", <STDIN>; |
29 | warn "stdin is readable, you entered: ", <STDIN>; |
| 33 | } |
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| 34 | }; |
30 | }; |
| 35 | $w->timeout (10); |
31 | |
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32 | # SIGNALS |
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33 | |
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34 | my $w = EV::signal 'QUIT', sub { |
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35 | warn "sigquit received\n"; |
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36 | }; |
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37 | |
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38 | my $w = EV::signal 3, sub { |
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39 | warn "sigquit received (this is GNU/Linux, right?)\n"; |
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40 | }; |
| 36 | |
41 | |
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42 | # CHILD/PID STATUS CHANGES |
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43 | |
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44 | my $w = EV::child 666, sub { |
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45 | my ($w, $revents) = @_; |
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46 | # my $pid = $w->rpid; |
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47 | my $status = $w->rstatus; |
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48 | }; |
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49 | |
| 37 | # MAINLOOP |
50 | # MAINLOOP |
| 38 | EV::dispatch; # loop as long as watchers are active |
51 | EV::loop; # loop until EV::loop_done is called |
| 39 | EV::loop; # the same thing |
52 | EV::loop EV::LOOP_ONESHOT; # block until at least one event could be handled |
| 40 | EV::loop EV::LOOP_ONCE; |
53 | EV::loop EV::LOOP_NONBLOCK; # try to handle same events, but do not block |
| 41 | EV::loop EV::LOOP_ONSHOT; |
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| 42 | |
54 | |
| 43 | =head1 DESCRIPTION |
55 | =head1 DESCRIPTION |
| 44 | |
56 | |
| 45 | This module provides an interface to libevent |
57 | This module provides an interface to libev |
| 46 | (L<http://monkey.org/~provos/libevent/>). You probably should acquaint |
58 | (L<http://software.schmorp.de/pkg/libev.html>). |
| 47 | yourself with its documentation and source code to be able to use this |
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| 48 | module fully. |
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| 49 | |
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| 50 | Please note thta this module disables the libevent EPOLL method by |
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| 51 | default, see BUGS, below, if you need to enable it. |
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| 52 | |
59 | |
| 53 | =cut |
60 | =cut |
| 54 | |
61 | |
| 55 | package EV; |
62 | package EV; |
| 56 | |
63 | |
| 57 | use strict; |
64 | use strict; |
| 58 | |
65 | |
| 59 | BEGIN { |
66 | BEGIN { |
| 60 | our $VERSION = '0.01'; |
67 | our $VERSION = '0.51'; |
| 61 | use XSLoader; |
68 | use XSLoader; |
| 62 | XSLoader::load "EV", $VERSION; |
69 | XSLoader::load "EV", $VERSION; |
| 63 | } |
70 | } |
| 64 | |
71 | |
| 65 | =head1 FUNCTIONAL INTERFACE |
72 | @EV::Io::ISA = |
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73 | @EV::Timer::ISA = |
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74 | @EV::Periodic::ISA = |
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75 | @EV::Signal::ISA = |
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76 | @EV::Idle::ISA = |
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77 | @EV::Prepare::ISA = |
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78 | @EV::Check::ISA = |
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79 | @EV::Child::ISA = "EV::Watcher"; |
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80 | |
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81 | =head1 BASIC INTERFACE |
| 66 | |
82 | |
| 67 | =over 4 |
83 | =over 4 |
| 68 | |
84 | |
| 69 | =item $EV::NPRI |
85 | =item $EV::DIED |
| 70 | |
86 | |
| 71 | How many priority levels are available. |
87 | Must contain a reference to a function that is called when a callback |
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88 | throws an exception (with $@ containing thr error). The default prints an |
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89 | informative message and continues. |
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90 | |
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91 | If this callback throws an exception it will be silently ignored. |
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92 | |
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93 | =item $time = EV::time |
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94 | |
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95 | Returns the current time in (fractional) seconds since the epoch. |
| 72 | |
96 | |
| 73 | =item $time = EV::now |
97 | =item $time = EV::now |
| 74 | |
98 | |
| 75 | Returns the time in (fractional) seconds since the epoch. |
99 | Returns the time the last event loop iteration has been started. This |
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100 | is the time that (relative) timers are based on, and refering to it is |
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101 | usually faster then calling EV::time. |
| 76 | |
102 | |
| 77 | =item $version = EV::version |
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| 78 | |
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| 79 | =item $method = EV::method |
103 | =item $method = EV::ev_method |
| 80 | |
104 | |
| 81 | Return version string and event polling method used. |
105 | Returns an integer describing the backend used by libev (EV::METHOD_SELECT |
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106 | or EV::METHOD_EPOLL). |
| 82 | |
107 | |
| 83 | =item EV::loop $flags # EV::LOOP_ONCE, EV::LOOP_ONESHOT |
108 | =item EV::loop [$flags] |
| 84 | |
109 | |
| 85 | =item EV::loopexit $after |
110 | Begin checking for events and calling callbacks. It returns when a |
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111 | callback calls EV::loop_done. |
| 86 | |
112 | |
| 87 | Exit any active loop or dispatch after C<$after> seconds or immediately if |
113 | The $flags argument can be one of the following: |
| 88 | C<$after> is missing or zero. |
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| 89 | |
114 | |
| 90 | =item EV::dispatch |
115 | 0 as above |
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116 | EV::LOOP_ONESHOT block at most once (wait, but do not loop) |
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117 | EV::LOOP_NONBLOCK do not block at all (fetch/handle events but do not wait) |
| 91 | |
118 | |
| 92 | Same as C<EV::loop 0>. |
119 | =item EV::loop_done [$how] |
| 93 | |
120 | |
| 94 | =item EV::event $callback |
121 | When called with no arguments or an argument of 1, makes the innermost |
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122 | call to EV::loop return. |
| 95 | |
123 | |
| 96 | Creates a new event watcher waiting for nothing, calling the given callback. |
124 | When called with an agrument of 2, all calls to EV::loop will return as |
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125 | fast as possible. |
| 97 | |
126 | |
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127 | =back |
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128 | |
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129 | =head2 WATCHER |
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130 | |
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131 | A watcher is an object that gets created to record your interest in some |
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132 | event. For instance, if you want to wait for STDIN to become readable, you |
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133 | would create an EV::io watcher for that: |
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134 | |
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135 | my $watcher = EV::io *STDIN, EV::READ, sub { |
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136 | my ($watcher, $revents) = @_; |
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137 | warn "yeah, STDIN should not be readable without blocking!\n" |
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138 | }; |
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139 | |
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140 | All watchers can be active (waiting for events) or inactive (paused). Only |
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141 | active watchers will have their callbacks invoked. All callbacks will be |
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142 | called with at least two arguments: the watcher and a bitmask of received |
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143 | events. |
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144 | |
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145 | Each watcher type has its associated bit in revents, so you can use the |
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146 | same callback for multiple watchers. The event mask is named after the |
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147 | type, i..e. EV::child sets EV::CHILD, EV::prepare sets EV::PREPARE, |
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148 | EV::periodic sets EV::PERIODIC and so on, with the exception of IO events |
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149 | (which can set both EV::READ and EV::WRITE bits), and EV::timer (which |
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150 | uses EV::TIMEOUT). |
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151 | |
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152 | In the rare case where one wants to create a watcher but not start it at |
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153 | the same time, each constructor has a variant with a trailing C<_ns> in |
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154 | its name, e.g. EV::io has a non-starting variant EV::io_ns and so on. |
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155 | |
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156 | Please note that a watcher will automatically be stopped when the watcher |
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157 | object is destroyed, so you I<need> to keep the watcher objects returned by |
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158 | the constructors. |
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159 | |
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160 | Also, all methods changing some aspect of a watcher (->set, ->priority, |
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161 | ->fh and so on) automatically stop and start it again if it is active, |
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162 | which means pending events get lost. |
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163 | |
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164 | =head2 WATCHER TYPES |
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165 | |
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166 | Now lets move to the existing watcher types and asociated methods. |
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167 | |
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168 | The following methods are available for all watchers. Then followes a |
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169 | description of each watcher constructor (EV::io, EV::timer, EV::periodic, |
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170 | EV::signal, EV::child, EV::idle, EV::prepare and EV::check), followed by |
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171 | any type-specific methods (if any). |
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172 | |
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173 | =over 4 |
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174 | |
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175 | =item $w->start |
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176 | |
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177 | Starts a watcher if it isn't active already. Does nothing to an already |
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178 | active watcher. By default, all watchers start out in the active state |
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179 | (see the description of the C<_ns> variants if you need stopped watchers). |
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180 | |
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181 | =item $w->stop |
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182 | |
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183 | Stop a watcher if it is active. Also clear any pending events (events that |
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184 | have been received but that didn't yet result in a callback invocation), |
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185 | regardless of wether the watcher was active or not. |
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186 | |
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187 | =item $bool = $w->is_active |
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188 | |
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189 | Returns true if the watcher is active, false otherwise. |
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190 | |
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191 | =item $current_data = $w->data |
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192 | |
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193 | =item $old_data = $w->data ($new_data) |
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194 | |
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195 | Queries a freely usable data scalar on the watcher and optionally changes |
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196 | it. This is a way to associate custom data with a watcher: |
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197 | |
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198 | my $w = EV::timer 60, 0, sub { |
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199 | warn $_[0]->data; |
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200 | }; |
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201 | $w->data ("print me!"); |
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202 | |
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203 | =item $current_cb = $w->cb |
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204 | |
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205 | =item $old_cb = $w->cb ($new_cb) |
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206 | |
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207 | Queries the callback on the watcher and optionally changes it. You can do |
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208 | this at any time without the watcher restarting. |
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209 | |
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210 | =item $current_priority = $w->priority |
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211 | |
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212 | =item $old_priority = $w->priority ($new_priority) |
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213 | |
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214 | Queries the priority on the watcher and optionally changes it. Pending |
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215 | watchers with higher priority will be invoked first. The valid range of |
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216 | priorities lies between EV::MAXPRI (default 2) and EV::MINPRI (default |
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217 | -2). If the priority is outside this range it will automatically be |
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218 | normalised to the nearest valid priority. |
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219 | |
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220 | The default priority of any newly-created weatcher is 0. |
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221 | |
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222 | =item $w->trigger ($revents) |
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223 | |
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224 | Call the callback *now* with the given event mask. |
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225 | |
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226 | |
| 98 | =item my $w = EV::io $fileno_or_fh, $eventmask, $callback |
227 | =item $w = EV::io $fileno_or_fh, $eventmask, $callback |
| 99 | |
228 | |
| 100 | =item my $w = EV::io_ns $fileno_or_fh, $eventmask, $callback |
229 | =item $w = EV::io_ns $fileno_or_fh, $eventmask, $callback |
| 101 | |
230 | |
| 102 | As long as the returned watcher object is alive, call the C<$callback> |
231 | As long as the returned watcher object is alive, call the C<$callback> |
| 103 | when the events specified in C<$eventmask> happen. Initially, the timeout |
232 | when the events specified in C<$eventmask>. |
| 104 | is disabled. |
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| 105 | |
233 | |
| 106 | Youc an additionall set a timeout to occur on the watcher, but note that |
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| 107 | this timeout will not be reset when you get an I/O event in the EV::PERSIST |
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| 108 | case, and reaching a timeout will always stop the watcher even in the |
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| 109 | EV::PERSIST case. |
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| 110 | |
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| 111 | If you want a timeout to occur only after a specific time of inactivity, set |
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| 112 | a repeating timeout and do NOT use EV::PERSIST. |
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| 113 | |
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| 114 | Eventmask can be one or more of these constants ORed together: |
234 | The $eventmask can be one or more of these constants ORed together: |
| 115 | |
235 | |
| 116 | EV::READ wait until read() wouldn't block anymore |
236 | EV::READ wait until read() wouldn't block anymore |
| 117 | EV::WRITE wait until write() wouldn't block anymore |
237 | EV::WRITE wait until write() wouldn't block anymore |
| 118 | EV::PERSIST stay active after a (non-timeout) event occured |
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| 119 | |
238 | |
| 120 | The C<io_ns> variant doesn't add/start the newly created watcher. |
239 | The C<io_ns> variant doesn't start (activate) the newly created watcher. |
| 121 | |
240 | |
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241 | =item $w->set ($fileno_or_fh, $eventmask) |
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242 | |
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243 | Reconfigures the watcher, see the constructor above for details. Can be |
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244 | called at any time. |
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245 | |
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246 | =item $current_fh = $w->fh |
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247 | |
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248 | =item $old_fh = $w->fh ($new_fh) |
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249 | |
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250 | Returns the previously set filehandle and optionally set a new one. |
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251 | |
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252 | =item $current_eventmask = $w->events |
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253 | |
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254 | =item $old_eventmask = $w->events ($new_eventmask) |
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255 | |
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256 | Returns the previously set event mask and optionally set a new one. |
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257 | |
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258 | |
| 122 | =item my $w = EV::timer $after, $repeat, $callback |
259 | =item $w = EV::timer $after, $repeat, $callback |
| 123 | |
260 | |
| 124 | =item my $w = EV::timer_ns $after, $repeat, $callback |
261 | =item $w = EV::timer_ns $after, $repeat, $callback |
| 125 | |
262 | |
| 126 | Calls the callback after C<$after> seconds. If C<$repeat> is true, the |
263 | Calls the callback after C<$after> seconds. If C<$repeat> is non-zero, |
| 127 | timer will be restarted after the callback returns. This means that the |
264 | the timer will be restarted (with the $repeat value as $after) after the |
| 128 | callback would be called roughly every C<$after> seconds, prolonged by the |
265 | callback returns. |
| 129 | time the callback takes. |
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| 130 | |
266 | |
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267 | This means that the callback would be called roughly after C<$after> |
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268 | seconds, and then every C<$repeat> seconds. "Roughly" because the time of |
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269 | callback processing is not taken into account, so the timer will slowly |
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270 | drift. If that isn't acceptable, look at EV::periodic. |
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271 | |
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272 | The timer is based on a monotonic clock, that is if somebody is sitting |
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273 | in front of the machine while the timer is running and changes the system |
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274 | clock, the timer will nevertheless run (roughly) the same time. |
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275 | |
| 131 | The C<timer_ns> variant doesn't add/start the newly created watcher. |
276 | The C<timer_ns> variant doesn't start (activate) the newly created watcher. |
| 132 | |
277 | |
| 133 | =item my $w = EV::timer_abs $at, $interval, $callback |
278 | =item $w->set ($after, $repeat) |
| 134 | |
279 | |
| 135 | =item my $w = EV::timer_abs_ns $at, $interval, $callback |
280 | Reconfigures the watcher, see the constructor above for details. Can be at |
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281 | any time. |
| 136 | |
282 | |
| 137 | Similar to EV::timer, but the time is given as an absolute point in time |
283 | =item $w->again |
| 138 | (C<$at>), plus an optional C<$interval>. |
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| 139 | |
284 | |
| 140 | If the C<$interval> is zero, then the callback will be called at the time |
285 | Similar to the C<start> method, but has special semantics for repeating timers: |
| 141 | C<$at> if that is in the future, or as soon as possible if its in the |
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| 142 | past. It will not automatically repeat. |
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| 143 | |
286 | |
| 144 | If the C<$interval> is nonzero, then the watcher will always be scheduled |
287 | If the timer is active and repeating, reset the timeout to occur |
| 145 | to time out at the next C<$at + integer * $interval> time. |
288 | C<$repeat> seconds after now. |
| 146 | |
289 | |
| 147 | This can be used to schedule a callback to run at very regular intervals, |
290 | If the timer is active and non-repeating, it will be stopped. |
| 148 | as long as the processing time is less then the interval (otherwise |
291 | |
| 149 | obviously events will be skipped). |
292 | If the timer is in active and repeating, start it. |
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293 | |
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294 | Otherwise do nothing. |
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295 | |
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296 | This behaviour is useful when you have a timeout for some IO |
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297 | operation. You create a timer object with the same value for C<$after> and |
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298 | C<$repeat>, and then, in the read/write watcher, run the C<again> method |
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299 | on the timeout. |
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300 | |
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301 | |
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302 | =item $w = EV::periodic $at, $interval, $reschedule_cb, $callback |
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303 | |
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304 | =item $w = EV::periodic_ns $at, $interval, $reschedule_cb, $callback |
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305 | |
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306 | Similar to EV::timer, but is not based on relative timeouts but on |
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307 | absolute times. Apart from creating "simple" timers that trigger "at" the |
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308 | specified time, it can also be used for non-drifting absolute timers and |
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309 | more complex, cron-like, setups that are not adversely affected by time |
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310 | jumps (i.e. when the system clock is changed by explicit date -s or other |
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311 | means such as ntpd). It is also the most complex watcher type in EV. |
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312 | |
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313 | It has three distinct "modes": |
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314 | |
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315 | =over 4 |
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316 | |
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317 | =item * absolute timer ($interval = $reschedule_cb = 0) |
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318 | |
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319 | This time simply fires at the wallclock time C<$at> and doesn't repeat. It |
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320 | will not adjust when a time jump occurs, that is, if it is to be run |
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321 | at January 1st 2011 then it will run when the system time reaches or |
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322 | surpasses this time. |
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323 | |
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324 | =item * non-repeating interval timer ($interval > 0, $reschedule_cb = 0) |
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325 | |
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326 | In this mode the watcher will always be scheduled to time out at the |
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327 | next C<$at + N * $interval> time (for some integer N) and then repeat, |
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328 | regardless of any time jumps. |
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329 | |
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330 | This can be used to create timers that do not drift with respect to system |
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331 | time: |
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332 | |
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333 | my $hourly = EV::periodic 0, 3600, 0, sub { print "once/hour\n" }; |
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334 | |
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335 | That doesn't mean there will always be 3600 seconds in between triggers, |
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336 | but only that the the clalback will be called when the system time shows a |
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337 | full hour (UTC). |
| 150 | |
338 | |
| 151 | Another way to think about it (for the mathematically inclined) is that |
339 | Another way to think about it (for the mathematically inclined) is that |
| 152 | C<timer_abs> will try to tun the callback at the next possible time where |
340 | EV::periodic will try to run the callback in this mode at the next |
| 153 | C<$time = $at (mod $interval)>, regardless of any time jumps. |
341 | possible time where C<$time = $at (mod $interval)>, regardless of any time |
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342 | jumps. |
| 154 | |
343 | |
| 155 | The C<timer_abs_ns> variant doesn't add/start the newly created watcher. |
344 | =item * manual reschedule mode ($reschedule_cb = coderef) |
| 156 | |
345 | |
| 157 | =item my $w = EV::signal $signum, $callback |
346 | In this mode $interval and $at are both being ignored. Instead, each time |
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347 | the periodic watcher gets scheduled, the first callback ($reschedule_cb) |
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348 | will be called with the watcher as first, and the current time as second |
|
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349 | argument. |
| 158 | |
350 | |
| 159 | =item my $w = EV::signal_ns $signum, $callback |
351 | I<This callback MUST NOT stop or destroy the event watcher, ever.> |
| 160 | |
352 | |
| 161 | Call the callback when signal $signum is received. |
353 | It must return the next time to trigger, based on the passed time value |
|
|
354 | (that is, the lowest time value larger than to the second argument). It |
|
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355 | will usually be called just before the callback will be triggered, but |
|
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356 | might be called at other times, too. |
| 162 | |
357 | |
| 163 | The C<signal_ns> variant doesn't add/start the newly created watcher. |
358 | This can be used to create very complex timers, such as a timer that |
|
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359 | triggers on each midnight, local time (actually 24 hours after the last |
|
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360 | midnight, to keep the example simple. If you know a way to do it correctly |
|
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361 | in about the same space (without requiring elaborate modules), drop me a |
|
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362 | note :): |
|
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363 | |
|
|
364 | my $daily = EV::periodic 0, 0, sub { |
|
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365 | my ($w, $now) = @_; |
|
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366 | |
|
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367 | use Time::Local (); |
|
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368 | my (undef, undef, undef, $d, $m, $y) = localtime $now; |
|
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369 | 86400 + Time::Local::timelocal 0, 0, 0, $d, $m, $y |
|
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370 | }, sub { |
|
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371 | print "it's midnight or likely shortly after, now\n"; |
|
|
372 | }; |
| 164 | |
373 | |
| 165 | =back |
374 | =back |
| 166 | |
375 | |
| 167 | =head1 THE EV::Event CLASS |
376 | The C<periodic_ns> variant doesn't start (activate) the newly created watcher. |
| 168 | |
377 | |
| 169 | All EV functions creating an event watcher (designated by C<my $w => |
378 | =item $w->set ($at, $interval, $reschedule_cb) |
| 170 | above) support the following methods on the returned watcher object: |
|
|
| 171 | |
379 | |
| 172 | =over 4 |
380 | Reconfigures the watcher, see the constructor above for details. Can be at |
|
|
381 | any time. |
| 173 | |
382 | |
| 174 | =item $w->add ($timeout) |
383 | =item $w->again |
| 175 | |
384 | |
| 176 | Stops and (re-)starts the event watcher, setting the optional timeout to |
385 | Simply stops and starts the watcher again. |
| 177 | the given value, or clearing the timeout if none is given. |
|
|
| 178 | |
386 | |
| 179 | =item $w->start |
|
|
| 180 | |
387 | |
| 181 | Stops and (re-)starts the event watcher without touching the timeout. |
388 | =item $w = EV::signal $signal, $callback |
| 182 | |
389 | |
| 183 | =item $w->del |
390 | =item $w = EV::signal_ns $signal, $callback |
| 184 | |
391 | |
|
|
392 | Call the callback when $signal is received (the signal can be specified |
|
|
393 | by number or by name, just as with kill or %SIG). |
|
|
394 | |
|
|
395 | EV will grab the signal for the process (the kernel only allows one |
|
|
396 | component to receive a signal at a time) when you start a signal watcher, |
|
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397 | and removes it again when you stop it. Perl does the same when you |
|
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398 | add/remove callbacks to %SIG, so watch out. |
|
|
399 | |
|
|
400 | You can have as many signal watchers per signal as you want. |
|
|
401 | |
|
|
402 | The C<signal_ns> variant doesn't start (activate) the newly created watcher. |
|
|
403 | |
|
|
404 | =item $w->set ($signal) |
|
|
405 | |
|
|
406 | Reconfigures the watcher, see the constructor above for details. Can be at |
|
|
407 | any time. |
|
|
408 | |
|
|
409 | =item $current_signum = $w->signal |
|
|
410 | |
|
|
411 | =item $old_signum = $w->signal ($new_signal) |
|
|
412 | |
|
|
413 | Returns the previously set signal (always as a number not name) and |
|
|
414 | optionally set a new one. |
|
|
415 | |
|
|
416 | |
|
|
417 | =item $w = EV::child $pid, $callback |
|
|
418 | |
|
|
419 | =item $w = EV::child_ns $pid, $callback |
|
|
420 | |
|
|
421 | Call the callback when a status change for pid C<$pid> (or any pid |
|
|
422 | if C<$pid> is 0) has been received. More precisely: when the process |
|
|
423 | receives a SIGCHLD, EV will fetch the outstanding exit/wait status for all |
|
|
424 | changed/zombie children and call the callback. |
|
|
425 | |
|
|
426 | You can access both status and pid by using the C<rstatus> and C<rpid> |
|
|
427 | methods on the watcher object. |
|
|
428 | |
|
|
429 | You can have as many pid watchers per pid as you want. |
|
|
430 | |
|
|
431 | The C<child_ns> variant doesn't start (activate) the newly created watcher. |
|
|
432 | |
| 185 | =item $w->stop |
433 | =item $w->set ($pid) |
| 186 | |
434 | |
| 187 | Stop the event watcher if it was started. |
435 | Reconfigures the watcher, see the constructor above for details. Can be at |
|
|
436 | any time. |
| 188 | |
437 | |
| 189 | =item $current_callback = $w->cb |
|
|
| 190 | |
|
|
| 191 | =item $old_callback = $w->cb ($new_callback) |
|
|
| 192 | |
|
|
| 193 | Return the previously set callback and optionally set a new one. |
|
|
| 194 | |
|
|
| 195 | =item $current_fh = $w->fh |
438 | =item $current_pid = $w->pid |
| 196 | |
439 | |
| 197 | =item $old_fh = $w->fh ($new_fh) |
440 | =item $old_pid = $w->pid ($new_pid) |
| 198 | |
441 | |
| 199 | Returns the previously set filehandle and optionally set a new one. |
|
|
| 200 | |
|
|
| 201 | =item $current_eventmask = $w->events |
|
|
| 202 | |
|
|
| 203 | =item $old_eventmask = $w->events ($new_eventmask) |
|
|
| 204 | |
|
|
| 205 | Returns the previously set event mask and optionally set a new one. |
442 | Returns the previously set process id and optionally set a new one. |
| 206 | |
443 | |
| 207 | =item $w->timeout ($after, $repeat) |
444 | =item $exit_status = $w->rstatus |
| 208 | |
445 | |
| 209 | Resets the timeout (see C<EV::timer> for details). |
446 | Return the exit/wait status (as returned by waitpid, see the waitpid entry |
|
|
447 | in perlfunc). |
| 210 | |
448 | |
| 211 | =item $w->timeout_abs ($at, $interval) |
449 | =item $pid = $w->rpid |
| 212 | |
450 | |
| 213 | Resets the timeout (see C<EV::timer_abs> for details). |
451 | Return the pid of the awaited child (useful when you have installed a |
|
|
452 | watcher for all pids). |
| 214 | |
453 | |
| 215 | =item $w->priority_set ($priority) |
|
|
| 216 | |
454 | |
| 217 | Set the priority of the watcher to C<$priority> (0 <= $priority < $EV::NPRI). |
455 | =item $w = EV::idle $callback |
|
|
456 | |
|
|
457 | =item $w = EV::idle_ns $callback |
|
|
458 | |
|
|
459 | Call the callback when there are no pending io, timer/periodic, signal or |
|
|
460 | child events, i.e. when the process is idle. |
|
|
461 | |
|
|
462 | The process will not block as long as any idle watchers are active, and |
|
|
463 | they will be called repeatedly until stopped. |
|
|
464 | |
|
|
465 | The C<idle_ns> variant doesn't start (activate) the newly created watcher. |
|
|
466 | |
|
|
467 | |
|
|
468 | =item $w = EV::prepare $callback |
|
|
469 | |
|
|
470 | =item $w = EV::prepare_ns $callback |
|
|
471 | |
|
|
472 | Call the callback just before the process would block. You can still |
|
|
473 | create/modify any watchers at this point. |
|
|
474 | |
|
|
475 | See the EV::check watcher, below, for explanations and an example. |
|
|
476 | |
|
|
477 | The C<prepare_ns> variant doesn't start (activate) the newly created watcher. |
|
|
478 | |
|
|
479 | |
|
|
480 | =item $w = EV::check $callback |
|
|
481 | |
|
|
482 | =item $w = EV::check_ns $callback |
|
|
483 | |
|
|
484 | Call the callback just after the process wakes up again (after it has |
|
|
485 | gathered events), but before any other callbacks have been invoked. |
|
|
486 | |
|
|
487 | This is used to integrate other event-based software into the EV |
|
|
488 | mainloop: You register a prepare callback and in there, you create io and |
|
|
489 | timer watchers as required by the other software. Here is a real-world |
|
|
490 | example of integrating Net::SNMP (with some details left out): |
|
|
491 | |
|
|
492 | our @snmp_watcher; |
|
|
493 | |
|
|
494 | our $snmp_prepare = EV::prepare sub { |
|
|
495 | # do nothing unless active |
|
|
496 | $dispatcher->{_event_queue_h} |
|
|
497 | or return; |
|
|
498 | |
|
|
499 | # make the dispatcher handle any outstanding stuff |
|
|
500 | |
|
|
501 | # create an IO watcher for each and every socket |
|
|
502 | @snmp_watcher = ( |
|
|
503 | (map { EV::io $_, EV::READ, sub { } } |
|
|
504 | keys %{ $dispatcher->{_descriptors} }), |
|
|
505 | ); |
|
|
506 | |
|
|
507 | # if there are any timeouts, also create a timer |
|
|
508 | push @snmp_watcher, EV::timer $event->[Net::SNMP::Dispatcher::_TIME] - EV::now, 0, sub { } |
|
|
509 | if $event->[Net::SNMP::Dispatcher::_ACTIVE]; |
|
|
510 | }; |
|
|
511 | |
|
|
512 | The callbacks are irrelevant, the only purpose of those watchers is |
|
|
513 | to wake up the process as soon as one of those events occurs (socket |
|
|
514 | readable, or timer timed out). The corresponding EV::check watcher will then |
|
|
515 | clean up: |
|
|
516 | |
|
|
517 | our $snmp_check = EV::check sub { |
|
|
518 | # destroy all watchers |
|
|
519 | @snmp_watcher = (); |
|
|
520 | |
|
|
521 | # make the dispatcher handle any new stuff |
|
|
522 | }; |
|
|
523 | |
|
|
524 | The callbacks of the created watchers will not be called as the watchers |
|
|
525 | are destroyed before this cna happen (remember EV::check gets called |
|
|
526 | first). |
|
|
527 | |
|
|
528 | The C<check_ns> variant doesn't start (activate) the newly created watcher. |
| 218 | |
529 | |
| 219 | =back |
530 | =back |
| 220 | |
531 | |
| 221 | =head1 BUGS |
532 | =head1 THREADS |
| 222 | |
533 | |
| 223 | Lots. Libevent itself isn't well tested and rather buggy, and this module |
534 | Threads are not supported by this in any way. Perl pseudo-threads is evil |
| 224 | is quite new at the moment. |
535 | stuff and must die. |
| 225 | |
|
|
| 226 | Please note that the epoll method is not, in general, reliable in programs |
|
|
| 227 | that use fork (even if no libveent calls are being made in the forked |
|
|
| 228 | process). If your program behaves erratically, try setting the environment |
|
|
| 229 | variable C<EVENT_NOEPOLL> first when running the program. |
|
|
| 230 | |
|
|
| 231 | In general, if you fork, then you can only use the EV module in one of the |
|
|
| 232 | children. |
|
|
| 233 | |
536 | |
| 234 | =cut |
537 | =cut |
| 235 | |
538 | |
| 236 | our $NPRI = 4; |
539 | our $DIED = sub { |
| 237 | our $BASE = init; |
540 | warn "EV: error in callback (ignoring): $@"; |
| 238 | priority_init $NPRI; |
541 | }; |
|
|
542 | |
|
|
543 | default_loop |
|
|
544 | or die 'EV: cannot initialise libev backend. bad $ENV{LIBEV_METHODS}?'; |
| 239 | |
545 | |
| 240 | push @AnyEvent::REGISTRY, [EV => "EV::AnyEvent"]; |
546 | push @AnyEvent::REGISTRY, [EV => "EV::AnyEvent"]; |
| 241 | |
547 | |
| 242 | 1; |
548 | 1; |
| 243 | |
549 | |
| 244 | =head1 SEE ALSO |
550 | =head1 SEE ALSO |
| 245 | |
551 | |
| 246 | L<EV::DNS>, L<event(3)>, L<event.h>, L<evdns.h>. |
|
|
| 247 | L<EV::AnyEvent>. |
552 | L<EV::DNS>, L<EV::AnyEvent>. |
| 248 | |
553 | |
| 249 | =head1 AUTHOR |
554 | =head1 AUTHOR |
| 250 | |
555 | |
| 251 | Marc Lehmann <schmorp@schmorp.de> |
556 | Marc Lehmann <schmorp@schmorp.de> |
| 252 | http://home.schmorp.de/ |
557 | http://home.schmorp.de/ |
