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2 | AnyEvent::Fork - everything you wanted to use fork() for, but couldn't |
2 | AnyEvent::Fork - everything you wanted to use fork() for, but couldn't |
3 | |
3 | |
4 | SYNOPSIS |
4 | SYNOPSIS |
5 | use AnyEvent::Fork; |
5 | use AnyEvent::Fork; |
6 | |
6 | |
7 | ################################################################## |
7 | AnyEvent::Fork |
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8 | ->new |
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9 | ->require ("MyModule") |
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10 | ->run ("MyModule::server", my $cv = AE::cv); |
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11 | |
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12 | my $fh = $cv->recv; |
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13 | |
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14 | DESCRIPTION |
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15 | This module allows you to create new processes, without actually forking |
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16 | them from your current process (avoiding the problems of forking), but |
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17 | preserving most of the advantages of fork. |
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18 | |
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19 | It can be used to create new worker processes or new independent |
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20 | subprocesses for short- and long-running jobs, process pools (e.g. for |
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21 | use in pre-forked servers) but also to spawn new external processes |
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22 | (such as CGI scripts from a web server), which can be faster (and more |
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23 | well behaved) than using fork+exec in big processes. |
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24 | |
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25 | Special care has been taken to make this module useful from other |
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26 | modules, while still supporting specialised environments such as |
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27 | App::Staticperl or PAR::Packer. |
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28 | |
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29 | WHAT THIS MODULE IS NOT |
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30 | This module only creates processes and lets you pass file handles and |
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31 | strings to it, and run perl code. It does not implement any kind of RPC |
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32 | - there is no back channel from the process back to you, and there is no |
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33 | RPC or message passing going on. |
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34 | |
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35 | If you need some form of RPC, you can either implement it yourself in |
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36 | whatever way you like, use some message-passing module such as |
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37 | AnyEvent::MP, some pipe such as AnyEvent::ZeroMQ, use AnyEvent::Handle |
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38 | on both sides to send e.g. JSON or Storable messages, and so on. |
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39 | |
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40 | COMPARISON TO OTHER MODULES |
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41 | There is an abundance of modules on CPAN that do "something fork", such |
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42 | as Parallel::ForkManager, AnyEvent::ForkManager, AnyEvent::Worker or |
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43 | AnyEvent::Subprocess. There are modules that implement their own process |
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44 | management, such as AnyEvent::DBI. |
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45 | |
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46 | The problems that all these modules try to solve are real, however, none |
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47 | of them (from what I have seen) tackle the very real problems of |
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48 | unwanted memory sharing, efficiency, not being able to use event |
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49 | processing or similar modules in the processes they create. |
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50 | |
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51 | This module doesn't try to replace any of them - instead it tries to |
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52 | solve the problem of creating processes with a minimum of fuss and |
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53 | overhead (and also luxury). Ideally, most of these would use |
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54 | AnyEvent::Fork internally, except they were written before AnyEvent:Fork |
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55 | was available, so obviously had to roll their own. |
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56 | |
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57 | PROBLEM STATEMENT |
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58 | There are two traditional ways to implement parallel processing on UNIX |
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59 | like operating systems - fork and process, and fork+exec and process. |
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60 | They have different advantages and disadvantages that I describe below, |
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61 | together with how this module tries to mitigate the disadvantages. |
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62 | |
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63 | Forking from a big process can be very slow. |
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64 | A 5GB process needs 0.05s to fork on my 3.6GHz amd64 GNU/Linux box. |
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65 | This overhead is often shared with exec (because you have to fork |
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66 | first), but in some circumstances (e.g. when vfork is used), |
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67 | fork+exec can be much faster. |
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68 | |
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69 | This module can help here by telling a small(er) helper process to |
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70 | fork, which is faster then forking the main process, and also uses |
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71 | vfork where possible. This gives the speed of vfork, with the |
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72 | flexibility of fork. |
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73 | |
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74 | Forking usually creates a copy-on-write copy of the parent process. |
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75 | For example, modules or data files that are loaded will not use |
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76 | additional memory after a fork. When exec'ing a new process, modules |
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77 | and data files might need to be loaded again, at extra CPU and |
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78 | memory cost. But when forking, literally all data structures are |
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79 | copied - if the program frees them and replaces them by new data, |
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80 | the child processes will retain the old version even if it isn't |
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81 | used, which can suddenly and unexpectedly increase memory usage when |
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82 | freeing memory. |
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83 | |
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84 | The trade-off is between more sharing with fork (which can be good |
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85 | or bad), and no sharing with exec. |
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86 | |
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87 | This module allows the main program to do a controlled fork, and |
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88 | allows modules to exec processes safely at any time. When creating a |
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89 | custom process pool you can take advantage of data sharing via fork |
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90 | without risking to share large dynamic data structures that will |
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91 | blow up child memory usage. |
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92 | |
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93 | In other words, this module puts you into control over what is being |
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94 | shared and what isn't, at all times. |
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95 | |
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96 | Exec'ing a new perl process might be difficult. |
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97 | For example, it is not easy to find the correct path to the perl |
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98 | interpreter - $^X might not be a perl interpreter at all. |
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99 | |
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100 | This module tries hard to identify the correct path to the perl |
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101 | interpreter. With a cooperative main program, exec'ing the |
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102 | interpreter might not even be necessary, but even without help from |
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103 | the main program, it will still work when used from a module. |
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104 | |
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105 | Exec'ing a new perl process might be slow, as all necessary modules have |
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106 | to be loaded from disk again, with no guarantees of success. |
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107 | Long running processes might run into problems when perl is upgraded |
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108 | and modules are no longer loadable because they refer to a different |
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109 | perl version, or parts of a distribution are newer than the ones |
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110 | already loaded. |
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111 | |
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112 | This module supports creating pre-initialised perl processes to be |
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113 | used as a template for new processes. |
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114 | |
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115 | Forking might be impossible when a program is running. |
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116 | For example, POSIX makes it almost impossible to fork from a |
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117 | multi-threaded program while doing anything useful in the child - in |
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118 | fact, if your perl program uses POSIX threads (even indirectly via |
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119 | e.g. IO::AIO or threads), you cannot call fork on the perl level |
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120 | anymore without risking corruption issues on a number of operating |
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121 | systems. |
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122 | |
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123 | This module can safely fork helper processes at any time, by calling |
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124 | fork+exec in C, in a POSIX-compatible way (via Proc::FastSpawn). |
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125 | |
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126 | Parallel processing with fork might be inconvenient or difficult to |
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127 | implement. Modules might not work in both parent and child. |
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128 | For example, when a program uses an event loop and creates watchers |
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129 | it becomes very hard to use the event loop from a child program, as |
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130 | the watchers already exist but are only meaningful in the parent. |
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131 | Worse, a module might want to use such a module, not knowing whether |
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132 | another module or the main program also does, leading to problems. |
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133 | |
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134 | Apart from event loops, graphical toolkits also commonly fall into |
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135 | the "unsafe module" category, or just about anything that |
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136 | communicates with the external world, such as network libraries and |
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137 | file I/O modules, which usually don't like being copied and then |
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138 | allowed to continue in two processes. |
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139 | |
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140 | With this module only the main program is allowed to create new |
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141 | processes by forking (because only the main program can know when it |
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142 | is still safe to do so) - all other processes are created via |
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143 | fork+exec, which makes it possible to use modules such as event |
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144 | loops or window interfaces safely. |
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145 | |
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146 | EXAMPLES |
8 | # create a single new process, tell it to run your worker function |
147 | Create a single new process, tell it to run your worker function. |
9 | |
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10 | AnyEvent::Fork |
148 | AnyEvent::Fork |
11 | ->new |
149 | ->new |
12 | ->require ("MyModule") |
150 | ->require ("MyModule") |
13 | ->run ("MyModule::worker, sub { |
151 | ->run ("MyModule::worker, sub { |
14 | my ($master_filehandle) = @_; |
152 | my ($master_filehandle) = @_; |
15 | |
153 | |
16 | # now $master_filehandle is connected to the |
154 | # now $master_filehandle is connected to the |
17 | # $slave_filehandle in the new process. |
155 | # $slave_filehandle in the new process. |
18 | }); |
156 | }); |
19 | |
157 | |
20 | # MyModule::worker might look like this |
158 | "MyModule" might look like this: |
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159 | |
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160 | package MyModule; |
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161 | |
21 | sub MyModule::worker { |
162 | sub worker { |
22 | my ($slave_filehandle) = @_; |
163 | my ($slave_filehandle) = @_; |
23 | |
164 | |
24 | # now $slave_filehandle is connected to the $master_filehandle |
165 | # now $slave_filehandle is connected to the $master_filehandle |
25 | # in the original prorcess. have fun! |
166 | # in the original prorcess. have fun! |
26 | } |
167 | } |
27 | |
168 | |
28 | ################################################################## |
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29 | # create a pool of server processes all accepting on the same socket |
169 | Create a pool of server processes all accepting on the same socket. |
30 | |
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31 | # create listener socket |
170 | # create listener socket |
32 | my $listener = ...; |
171 | my $listener = ...; |
33 | |
172 | |
34 | # create a pool template, initialise it and give it the socket |
173 | # create a pool template, initialise it and give it the socket |
35 | my $pool = AnyEvent::Fork |
174 | my $pool = AnyEvent::Fork |
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46 | } |
185 | } |
47 | |
186 | |
48 | # now do other things - maybe use the filehandle provided by run |
187 | # now do other things - maybe use the filehandle provided by run |
49 | # to wait for the processes to die. or whatever. |
188 | # to wait for the processes to die. or whatever. |
50 | |
189 | |
51 | # My::Server::run might look like this |
190 | "My::Server" might look like this: |
52 | sub My::Server::run { |
191 | |
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192 | package My::Server; |
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193 | |
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194 | sub run { |
53 | my ($slave, $listener, $id) = @_; |
195 | my ($slave, $listener, $id) = @_; |
54 | |
196 | |
55 | close $slave; # we do not use the socket, so close it to save resources |
197 | close $slave; # we do not use the socket, so close it to save resources |
56 | |
198 | |
57 | # we could go ballistic and use e.g. AnyEvent here, or IO::AIO, |
199 | # we could go ballistic and use e.g. AnyEvent here, or IO::AIO, |
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59 | while (my $socket = $listener->accept) { |
201 | while (my $socket = $listener->accept) { |
60 | # do sth. with new socket |
202 | # do sth. with new socket |
61 | } |
203 | } |
62 | } |
204 | } |
63 | |
205 | |
64 | DESCRIPTION |
206 | use AnyEvent::Fork as a faster fork+exec |
65 | This module allows you to create new processes, without actually forking |
207 | This runs "/bin/echo hi", with stdandard output redirected to /tmp/log |
66 | them from your current process (avoiding the problems of forking), but |
208 | and standard error redirected to the communications socket. It is |
67 | preserving most of the advantages of fork. |
209 | usually faster than fork+exec, but still lets you prepare the |
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210 | environment. |
68 | |
211 | |
69 | It can be used to create new worker processes or new independent |
212 | open my $output, ">/tmp/log" or die "$!"; |
70 | subprocesses for short- and long-running jobs, process pools (e.g. for |
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71 | use in pre-forked servers) but also to spawn new external processes |
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72 | (such as CGI scripts from a web server), which can be faster (and more |
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73 | well behaved) than using fork+exec in big processes. |
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74 | |
213 | |
75 | Special care has been taken to make this module useful from other |
214 | AnyEvent::Fork |
76 | modules, while still supporting specialised environments such as |
215 | ->new |
77 | App::Staticperl or PAR::Packer. |
216 | ->eval (' |
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217 | # compile a helper function for later use |
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218 | sub run { |
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219 | my ($fh, $output, @cmd) = @_; |
78 | |
220 | |
79 | WHAT THIS MODULE IS NOT |
221 | # perl will clear close-on-exec on STDOUT/STDERR |
80 | This module only creates processes and lets you pass file handles and |
222 | open STDOUT, ">&", $output or die; |
81 | strings to it, and run perl code. It does not implement any kind of RPC |
223 | open STDERR, ">&", $fh or die; |
82 | - there is no back channel from the process back to you, and there is no |
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83 | RPC or message passing going on. |
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84 | |
224 | |
85 | If you need some form of RPC, you can either implement it yourself in |
225 | exec @cmd; |
86 | whatever way you like, use some message-passing module such as |
226 | } |
87 | AnyEvent::MP, some pipe such as AnyEvent::ZeroMQ, use AnyEvent::Handle |
227 | ') |
88 | on both sides to send e.g. JSON or Storable messages, and so on. |
228 | ->send_fh ($output) |
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229 | ->send_arg ("/bin/echo", "hi") |
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230 | ->run ("run", my $cv = AE::cv); |
89 | |
231 | |
90 | PROBLEM STATEMENT |
232 | my $stderr = $cv->recv; |
91 | There are two ways to implement parallel processing on UNIX like |
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92 | operating systems - fork and process, and fork+exec and process. They |
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93 | have different advantages and disadvantages that I describe below, |
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94 | together with how this module tries to mitigate the disadvantages. |
|
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95 | |
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96 | Forking from a big process can be very slow (a 5GB process needs 0.05s |
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97 | to fork on my 3.6GHz amd64 GNU/Linux box for example). This overhead is |
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98 | often shared with exec (because you have to fork first), but in some |
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99 | circumstances (e.g. when vfork is used), fork+exec can be much faster. |
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100 | This module can help here by telling a small(er) helper process to |
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101 | fork, or fork+exec instead. |
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102 | |
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103 | Forking usually creates a copy-on-write copy of the parent process. |
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104 | Memory (for example, modules or data files that have been will not take |
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105 | additional memory). When exec'ing a new process, modules and data files |
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106 | might need to be loaded again, at extra CPU and memory cost. Likewise |
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107 | when forking, all data structures are copied as well - if the program |
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108 | frees them and replaces them by new data, the child processes will |
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109 | retain the memory even if it isn't used. |
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110 | This module allows the main program to do a controlled fork, and |
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111 | allows modules to exec processes safely at any time. When creating a |
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112 | custom process pool you can take advantage of data sharing via fork |
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113 | without risking to share large dynamic data structures that will |
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114 | blow up child memory usage. |
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115 | |
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116 | Exec'ing a new perl process might be difficult and slow. For example, it |
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117 | is not easy to find the correct path to the perl interpreter, and all |
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118 | modules have to be loaded from disk again. Long running processes might |
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119 | run into problems when perl is upgraded for example. |
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120 | This module supports creating pre-initialised perl processes to be |
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121 | used as template, and also tries hard to identify the correct path |
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122 | to the perl interpreter. With a cooperative main program, exec'ing |
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123 | the interpreter might not even be necessary. |
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124 | |
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125 | Forking might be impossible when a program is running. For example, |
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126 | POSIX makes it almost impossible to fork from a multi-threaded program |
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127 | and do anything useful in the child - strictly speaking, if your perl |
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128 | program uses posix threads (even indirectly via e.g. IO::AIO or |
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129 | threads), you cannot call fork on the perl level anymore, at all. |
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130 | This module can safely fork helper processes at any time, by calling |
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131 | fork+exec in C, in a POSIX-compatible way. |
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132 | |
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133 | Parallel processing with fork might be inconvenient or difficult to |
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134 | implement. For example, when a program uses an event loop and creates |
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135 | watchers it becomes very hard to use the event loop from a child |
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136 | program, as the watchers already exist but are only meaningful in the |
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137 | parent. Worse, a module might want to use such a system, not knowing |
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138 | whether another module or the main program also does, leading to |
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139 | problems. |
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140 | This module only lets the main program create pools by forking |
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141 | (because only the main program can know when it is still safe to do |
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142 | so) - all other pools are created by fork+exec, after which such |
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143 | modules can again be loaded. |
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144 | |
233 | |
145 | CONCEPTS |
234 | CONCEPTS |
146 | This module can create new processes either by executing a new perl |
235 | This module can create new processes either by executing a new perl |
147 | process, or by forking from an existing "template" process. |
236 | process, or by forking from an existing "template" process. |
148 | |
237 | |
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220 | ->require ("Some::Module") |
309 | ->require ("Some::Module") |
221 | ->run ("Some::Module::run", sub { |
310 | ->run ("Some::Module::run", sub { |
222 | my ($fork_fh) = @_; |
311 | my ($fork_fh) = @_; |
223 | }); |
312 | }); |
224 | |
313 | |
225 | FUNCTIONS |
314 | THE "AnyEvent::Fork" CLASS |
226 | my $pool = new AnyEvent::Fork key => value... |
315 | This module exports nothing, and only implements a single class - |
227 | Create a new process pool. The following named parameters are |
316 | "AnyEvent::Fork". |
228 | supported: |
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229 | |
317 | |
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318 | There are two class constructors that both create new processes - "new" |
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319 | and "new_exec". The "fork" method creates a new process by forking an |
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320 | existing one and could be considered a third constructor. |
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321 | |
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322 | Most of the remaining methods deal with preparing the new process, by |
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323 | loading code, evaluating code and sending data to the new process. They |
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324 | usually return the process object, so you can chain method calls. |
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325 | |
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326 | If a process object is destroyed before calling its "run" method, then |
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327 | the process simply exits. After "run" is called, all responsibility is |
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328 | passed to the specified function. |
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329 | |
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330 | As long as there is any outstanding work to be done, process objects |
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331 | resist being destroyed, so there is no reason to store them unless you |
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332 | need them later - configure and forget works just fine. |
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333 | |
230 | my $proc = new AnyEvent::Fork |
334 | my $proc = new AnyEvent::Fork |
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335 | |
231 | Create a new "empty" perl interpreter process and returns its |
336 | Create a new "empty" perl interpreter process and returns its |
232 | process object for further manipulation. |
337 | process object for further manipulation. |
233 | |
338 | |
234 | The new process is forked from a template process that is kept |
339 | The new process is forked from a template process that is kept |
235 | around for this purpose. When it doesn't exist yet, it is created by |
340 | around for this purpose. When it doesn't exist yet, it is created by |
236 | a call to "new_exec" and kept around for future calls. |
341 | a call to "new_exec" first and then stays around for future calls. |
237 | |
342 | |
238 | When the process object is destroyed, it will release the file |
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239 | handle that connects it with the new process. When the new process |
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240 | has not yet called "run", then the process will exit. Otherwise, |
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241 | what happens depends entirely on the code that is executed. |
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242 | |
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243 | $new_proc = $proc->fork |
343 | $new_proc = $proc->fork |
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344 | |
244 | Forks $proc, creating a new process, and returns the process object |
345 | Forks $proc, creating a new process, and returns the process object |
245 | of the new process. |
346 | of the new process. |
246 | |
347 | |
247 | If any of the "send_" functions have been called before fork, then |
348 | If any of the "send_" functions have been called before fork, then |
248 | they will be cloned in the child. For example, in a pre-forked |
349 | they will be cloned in the child. For example, in a pre-forked |
249 | server, you might "send_fh" the listening socket into the template |
350 | server, you might "send_fh" the listening socket into the template |
250 | process, and then keep calling "fork" and "run". |
351 | process, and then keep calling "fork" and "run". |
251 | |
352 | |
252 | my $proc = new_exec AnyEvent::Fork |
353 | my $proc = new_exec AnyEvent::Fork |
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354 | |
253 | Create a new "empty" perl interpreter process and returns its |
355 | Create a new "empty" perl interpreter process and returns its |
254 | process object for further manipulation. |
356 | process object for further manipulation. |
255 | |
357 | |
256 | Unlike the "new" method, this method *always* spawns a new perl |
358 | Unlike the "new" method, this method *always* spawns a new perl |
257 | process (except in some cases, see AnyEvent::Fork::Early for |
359 | process (except in some cases, see AnyEvent::Fork::Early for |
… | |
… | |
264 | The path to the perl interpreter is divined using various methods - |
366 | The path to the perl interpreter is divined using various methods - |
265 | first $^X is investigated to see if the path ends with something |
367 | first $^X is investigated to see if the path ends with something |
266 | that sounds as if it were the perl interpreter. Failing this, the |
368 | that sounds as if it were the perl interpreter. Failing this, the |
267 | module falls back to using $Config::Config{perlpath}. |
369 | module falls back to using $Config::Config{perlpath}. |
268 | |
370 | |
269 | $pid = $proc->pid |
371 | $pid = $proc->pid |
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372 | |
270 | Returns the process id of the process *iff it is a direct child of |
373 | Returns the process id of the process *iff it is a direct child of |
271 | the process* running AnyEvent::Fork, and "undef" otherwise. |
374 | the process running AnyEvent::Fork*, and "undef" otherwise. |
272 | |
375 | |
273 | Normally, only processes created via "AnyEvent::Fork->new_exec" and |
376 | Normally, only processes created via "AnyEvent::Fork->new_exec" and |
274 | AnyEvent::Fork::Template are direct children, and you are |
377 | AnyEvent::Fork::Template are direct children, and you are |
275 | responsible to clean up their zombies when they die. |
378 | responsible to clean up their zombies when they die. |
276 | |
379 | |
277 | All other processes are not direct children, and will be cleaned up |
380 | All other processes are not direct children, and will be cleaned up |
278 | by AnyEvent::Fork. |
381 | by AnyEvent::Fork itself. |
279 | |
382 | |
280 | $proc = $proc->eval ($perlcode, @args) |
383 | $proc = $proc->eval ($perlcode, @args) |
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384 | |
281 | Evaluates the given $perlcode as ... perl code, while setting @_ to |
385 | Evaluates the given $perlcode as ... perl code, while setting @_ to |
282 | the strings specified by @args. |
386 | the strings specified by @args, in the "main" package. |
283 | |
387 | |
284 | This call is meant to do any custom initialisation that might be |
388 | This call is meant to do any custom initialisation that might be |
285 | required (for example, the "require" method uses it). It's not |
389 | required (for example, the "require" method uses it). It's not |
286 | supposed to be used to completely take over the process, use "run" |
390 | supposed to be used to completely take over the process, use "run" |
287 | for that. |
391 | for that. |
… | |
… | |
289 | The code will usually be executed after this call returns, and there |
393 | The code will usually be executed after this call returns, and there |
290 | is no way to pass anything back to the calling process. Any |
394 | is no way to pass anything back to the calling process. Any |
291 | evaluation errors will be reported to stderr and cause the process |
395 | evaluation errors will be reported to stderr and cause the process |
292 | to exit. |
396 | to exit. |
293 | |
397 | |
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398 | If you want to execute some code (that isn't in a module) to take |
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399 | over the process, you should compile a function via "eval" first, |
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400 | and then call it via "run". This also gives you access to any |
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401 | arguments passed via the "send_xxx" methods, such as file handles. |
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402 | See the "use AnyEvent::Fork as a faster fork+exec" example to see it |
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403 | in action. |
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404 | |
294 | Returns the process object for easy chaining of method calls. |
405 | Returns the process object for easy chaining of method calls. |
295 | |
406 | |
296 | $proc = $proc->require ($module, ...) |
407 | $proc = $proc->require ($module, ...) |
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408 | |
297 | Tries to load the given module(s) into the process |
409 | Tries to load the given module(s) into the process |
298 | |
410 | |
299 | Returns the process object for easy chaining of method calls. |
411 | Returns the process object for easy chaining of method calls. |
300 | |
412 | |
301 | $proc = $proc->send_fh ($handle, ...) |
413 | $proc = $proc->send_fh ($handle, ...) |
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414 | |
302 | Send one or more file handles (*not* file descriptors) to the |
415 | Send one or more file handles (*not* file descriptors) to the |
303 | process, to prepare a call to "run". |
416 | process, to prepare a call to "run". |
304 | |
417 | |
305 | The process object keeps a reference to the handles until this is |
418 | The process object keeps a reference to the handles until they have |
306 | done, so you must not explicitly close the handles. This is most |
419 | been passed over to the process, so you must not explicitly close |
307 | easily accomplished by simply not storing the file handles anywhere |
420 | the handles. This is most easily accomplished by simply not storing |
308 | after passing them to this method. |
421 | the file handles anywhere after passing them to this method - when |
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422 | AnyEvent::Fork is finished using them, perl will automatically close |
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423 | them. |
309 | |
424 | |
310 | Returns the process object for easy chaining of method calls. |
425 | Returns the process object for easy chaining of method calls. |
311 | |
426 | |
312 | Example: pass a file handle to a process, and release it without |
427 | Example: pass a file handle to a process, and release it without |
313 | closing. It will be closed automatically when it is no longer used. |
428 | closing. It will be closed automatically when it is no longer used. |
314 | |
429 | |
315 | $proc->send_fh ($my_fh); |
430 | $proc->send_fh ($my_fh); |
316 | undef $my_fh; # free the reference if you want, but DO NOT CLOSE IT |
431 | undef $my_fh; # free the reference if you want, but DO NOT CLOSE IT |
317 | |
432 | |
318 | $proc = $proc->send_arg ($string, ...) |
433 | $proc = $proc->send_arg ($string, ...) |
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434 | |
319 | Send one or more argument strings to the process, to prepare a call |
435 | Send one or more argument strings to the process, to prepare a call |
320 | to "run". The strings can be any octet string. |
436 | to "run". The strings can be any octet strings. |
321 | |
437 | |
322 | The protocol is optimised to pass a moderate number of relatively |
438 | The protocol is optimised to pass a moderate number of relatively |
323 | short strings - while you can pass up to 4GB of data in one go, this |
439 | short strings - while you can pass up to 4GB of data in one go, this |
324 | is more meant to pass some ID information or other startup info, not |
440 | is more meant to pass some ID information or other startup info, not |
325 | big chunks of data. |
441 | big chunks of data. |
326 | |
442 | |
327 | Returns the process object for easy chaining of method calls. |
443 | Returns the process object for easy chaining of method calls. |
328 | |
444 | |
329 | $proc->run ($func, $cb->($fh)) |
445 | $proc->run ($func, $cb->($fh)) |
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446 | |
330 | Enter the function specified by the fully qualified name in $func in |
447 | Enter the function specified by the function name in $func in the |
331 | the process. The function is called with the communication socket as |
448 | process. The function is called with the communication socket as |
332 | first argument, followed by all file handles and string arguments |
449 | first argument, followed by all file handles and string arguments |
333 | sent earlier via "send_fh" and "send_arg" methods, in the order they |
450 | sent earlier via "send_fh" and "send_arg" methods, in the order they |
334 | were called. |
451 | were called. |
335 | |
452 | |
336 | If the called function returns, the process exits. |
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337 | |
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338 | Preparing the process can take time - when the process is ready, the |
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339 | callback is invoked with the local communications socket as |
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340 | argument. |
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341 | |
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342 | The process object becomes unusable on return from this function. |
453 | The process object becomes unusable on return from this function - |
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454 | any further method calls result in undefined behaviour. |
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455 | |
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456 | The function name should be fully qualified, but if it isn't, it |
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457 | will be looked up in the "main" package. |
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458 | |
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459 | If the called function returns, doesn't exist, or any error occurs, |
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460 | the process exits. |
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461 | |
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462 | Preparing the process is done in the background - when all commands |
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463 | have been sent, the callback is invoked with the local |
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464 | communications socket as argument. At this point you can start using |
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465 | the socket in any way you like. |
343 | |
466 | |
344 | If the communication socket isn't used, it should be closed on both |
467 | If the communication socket isn't used, it should be closed on both |
345 | sides, to save on kernel memory. |
468 | sides, to save on kernel memory. |
346 | |
469 | |
347 | The socket is non-blocking in the parent, and blocking in the newly |
470 | The socket is non-blocking in the parent, and blocking in the newly |
348 | created process. The close-on-exec flag is set on both. Even if not |
471 | created process. The close-on-exec flag is set in both. |
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472 | |
349 | used otherwise, the socket can be a good indicator for the existence |
473 | Even if not used otherwise, the socket can be a good indicator for |
350 | of the process - if the other process exits, you get a readable |
474 | the existence of the process - if the other process exits, you get a |
351 | event on it, because exiting the process closes the socket (if it |
475 | readable event on it, because exiting the process closes the socket |
352 | didn't create any children using fork). |
476 | (if it didn't create any children using fork). |
353 | |
477 | |
354 | Example: create a template for a process pool, pass a few strings, |
478 | Example: create a template for a process pool, pass a few strings, |
355 | some file handles, then fork, pass one more string, and run some |
479 | some file handles, then fork, pass one more string, and run some |
356 | code. |
480 | code. |
357 | |
481 | |
… | |
… | |
366 | ->send_arg ("str3") |
490 | ->send_arg ("str3") |
367 | ->run ("Some::function", sub { |
491 | ->run ("Some::function", sub { |
368 | my ($fh) = @_; |
492 | my ($fh) = @_; |
369 | |
493 | |
370 | # fh is nonblocking, but we trust that the OS can accept these |
494 | # fh is nonblocking, but we trust that the OS can accept these |
371 | # extra 3 octets anyway. |
495 | # few octets anyway. |
372 | syswrite $fh, "hi #$_\n"; |
496 | syswrite $fh, "hi #$_\n"; |
373 | |
497 | |
374 | # $fh is being closed here, as we don't store it anywhere |
498 | # $fh is being closed here, as we don't store it anywhere |
375 | }); |
499 | }); |
376 | } |
500 | } |
… | |
… | |
378 | # Some::function might look like this - all parameters passed before fork |
502 | # Some::function might look like this - all parameters passed before fork |
379 | # and after will be passed, in order, after the communications socket. |
503 | # and after will be passed, in order, after the communications socket. |
380 | sub Some::function { |
504 | sub Some::function { |
381 | my ($fh, $str1, $str2, $fh1, $fh2, $str3) = @_; |
505 | my ($fh, $str1, $str2, $fh1, $fh2, $str3) = @_; |
382 | |
506 | |
383 | print scalar <$fh>; # prints "hi 1\n" and "hi 2\n" |
507 | print scalar <$fh>; # prints "hi #1\n" and "hi #2\n" in any order |
384 | } |
508 | } |
385 | |
509 | |
386 | PERFORMANCE |
510 | PERFORMANCE |
387 | Now for some unscientific benchmark numbers (all done on an amd64 |
511 | Now for some unscientific benchmark numbers (all done on an amd64 |
388 | GNU/Linux box). These are intended to give you an idea of the relative |
512 | GNU/Linux box). These are intended to give you an idea of the relative |
… | |
… | |
411 | 479 vfork+execs per second, using AnyEvent::Fork->new_exec |
535 | 479 vfork+execs per second, using AnyEvent::Fork->new_exec |
412 | |
536 | |
413 | So how can "AnyEvent->new" be faster than a standard fork, even though |
537 | So how can "AnyEvent->new" be faster than a standard fork, even though |
414 | it uses the same operations, but adds a lot of overhead? |
538 | it uses the same operations, but adds a lot of overhead? |
415 | |
539 | |
416 | The difference is simply the process size: forking the 6MB process takes |
540 | The difference is simply the process size: forking the 5MB process takes |
417 | so much longer than forking the 2.5MB template process that the overhead |
541 | so much longer than forking the 2.5MB template process that the extra |
418 | introduced is canceled out. |
542 | overhead introduced is canceled out. |
419 | |
543 | |
420 | If the benchmark process grows, the normal fork becomes even slower: |
544 | If the benchmark process grows, the normal fork becomes even slower: |
421 | |
545 | |
422 | 1340 new processes, manual fork in a 20MB process |
546 | 1340 new processes, manual fork of a 20MB process |
423 | 731 new processes, manual fork in a 200MB process |
547 | 731 new processes, manual fork of a 200MB process |
424 | 235 new processes, manual fork in a 2000MB process |
548 | 235 new processes, manual fork of a 2000MB process |
425 | |
549 | |
426 | What that means (to me) is that I can use this module without having a |
550 | What that means (to me) is that I can use this module without having a |
427 | very bad conscience because of the extra overhead required to start new |
551 | bad conscience because of the extra overhead required to start new |
428 | processes. |
552 | processes. |
429 | |
553 | |
430 | TYPICAL PROBLEMS |
554 | TYPICAL PROBLEMS |
431 | This section lists typical problems that remain. I hope by recognising |
555 | This section lists typical problems that remain. I hope by recognising |
432 | them, most can be avoided. |
556 | them, most can be avoided. |
433 | |
557 | |
434 | "leaked" file descriptors for exec'ed processes |
558 | leaked file descriptors for exec'ed processes |
435 | POSIX systems inherit file descriptors by default when exec'ing a |
559 | POSIX systems inherit file descriptors by default when exec'ing a |
436 | new process. While perl itself laudably sets the close-on-exec flags |
560 | new process. While perl itself laudably sets the close-on-exec flags |
437 | on new file handles, most C libraries don't care, and even if all |
561 | on new file handles, most C libraries don't care, and even if all |
438 | cared, it's often not possible to set the flag in a race-free |
562 | cared, it's often not possible to set the flag in a race-free |
439 | manner. |
563 | manner. |
… | |
… | |
459 | libraries or the code that leaks those file descriptors. |
583 | libraries or the code that leaks those file descriptors. |
460 | |
584 | |
461 | Fortunately, most of these leaked descriptors do no harm, other than |
585 | Fortunately, most of these leaked descriptors do no harm, other than |
462 | sitting on some resources. |
586 | sitting on some resources. |
463 | |
587 | |
464 | "leaked" file descriptors for fork'ed processes |
588 | leaked file descriptors for fork'ed processes |
465 | Normally, AnyEvent::Fork does start new processes by exec'ing them, |
589 | Normally, AnyEvent::Fork does start new processes by exec'ing them, |
466 | which closes file descriptors not marked for being inherited. |
590 | which closes file descriptors not marked for being inherited. |
467 | |
591 | |
468 | However, AnyEvent::Fork::Early and AnyEvent::Fork::Template offer a |
592 | However, AnyEvent::Fork::Early and AnyEvent::Fork::Template offer a |
469 | way to create these processes by forking, and this leaks more file |
593 | way to create these processes by forking, and this leaks more file |
… | |
… | |
477 | |
601 | |
478 | The solution is to either not load these modules before use'ing |
602 | The solution is to either not load these modules before use'ing |
479 | AnyEvent::Fork::Early or AnyEvent::Fork::Template, or to delay |
603 | AnyEvent::Fork::Early or AnyEvent::Fork::Template, or to delay |
480 | initialising them, for example, by calling "init Gtk2" manually. |
604 | initialising them, for example, by calling "init Gtk2" manually. |
481 | |
605 | |
482 | exit runs destructors |
606 | exiting calls object destructors |
483 | This only applies to users of Lc<AnyEvent::Fork:Early> and |
607 | This only applies to users of AnyEvent::Fork:Early and |
484 | AnyEvent::Fork::Template. |
608 | AnyEvent::Fork::Template, or when initialiasing code creates objects |
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609 | that reference external resources. |
485 | |
610 | |
486 | When a process created by AnyEvent::Fork exits, it might do so by |
611 | When a process created by AnyEvent::Fork exits, it might do so by |
487 | calling exit, or simply letting perl reach the end of the program. |
612 | calling exit, or simply letting perl reach the end of the program. |
488 | At which point Perl runs all destructors. |
613 | At which point Perl runs all destructors. |
489 | |
614 | |
… | |
… | |
505 | and sweat to make it so, mostly due to the bloody broken perl that |
630 | and sweat to make it so, mostly due to the bloody broken perl that |
506 | nobody seems to care about. The fork emulation is a bad joke - I have |
631 | nobody seems to care about. The fork emulation is a bad joke - I have |
507 | yet to see something useful that you can do with it without running into |
632 | yet to see something useful that you can do with it without running into |
508 | memory corruption issues or other braindamage. Hrrrr. |
633 | memory corruption issues or other braindamage. Hrrrr. |
509 | |
634 | |
510 | Cygwin perl is not supported at the moment, as it should implement fd |
635 | Cygwin perl is not supported at the moment due to some hilarious |
511 | passing, but doesn't, and rolling my own is hard, as cygwin doesn't |
636 | shortcomings of its API - see IO::FDPoll for more details. |
512 | support enough functionality to do it. |
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513 | |
637 | |
514 | SEE ALSO |
638 | SEE ALSO |
515 | AnyEvent::Fork::Early (to avoid executing a perl interpreter), |
639 | AnyEvent::Fork::Early (to avoid executing a perl interpreter), |
516 | AnyEvent::Fork::Template (to create a process by forking the main |
640 | AnyEvent::Fork::Template (to create a process by forking the main |
517 | program at a convenient time). |
641 | program at a convenient time). |
518 | |
642 | |
519 | AUTHOR |
643 | AUTHOR |
520 | Marc Lehmann <schmorp@schmorp.de> |
644 | Marc Lehmann <schmorp@schmorp.de> |
521 | http://home.schmorp.de/ |
645 | http://home.schmorp.de/ |
522 | |
646 | |
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647 | POD ERRORS |
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648 | Hey! The above document had some coding errors, which are explained |
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649 | below: |
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650 | |
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651 | Around line 360: |
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652 | You can't have =items (as at line 476) unless the first thing after |
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653 | the =over is an =item |
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654 | |