1 | =head1 NAME |
1 | =head1 NAME |
2 | |
2 | |
3 | AnyEvent::Fork::RPC - simple RPC extension for AnyEvent::Fork |
3 | AnyEvent::Fork::RPC - simple RPC extension for AnyEvent::Fork |
4 | |
4 | |
5 | THE API IS NOT FINISHED, CONSIDER THIS A TECHNOLOGY DEMO |
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6 | |
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7 | =head1 SYNOPSIS |
5 | =head1 SYNOPSIS |
8 | |
6 | |
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7 | use AnyEvent::Fork; |
9 | use AnyEvent::Fork::RPC; |
8 | use AnyEvent::Fork::RPC; |
10 | # use AnyEvent::Fork is not needed |
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11 | |
9 | |
12 | my $rpc = AnyEvent::Fork |
10 | my $rpc = AnyEvent::Fork |
13 | ->new |
11 | ->new |
14 | ->require ("MyModule") |
12 | ->require ("MyModule") |
15 | ->AnyEvent::Fork::RPC::run ( |
13 | ->AnyEvent::Fork::RPC::run ( |
… | |
… | |
28 | $cv->recv; |
26 | $cv->recv; |
29 | |
27 | |
30 | =head1 DESCRIPTION |
28 | =head1 DESCRIPTION |
31 | |
29 | |
32 | This module implements a simple RPC protocol and backend for processes |
30 | This module implements a simple RPC protocol and backend for processes |
33 | created via L<AnyEvent::Fork>, allowing you to call a function in the |
31 | created via L<AnyEvent::Fork> or L<AnyEvent::Fork::Remote>, allowing you |
34 | child process and receive its return values (up to 4GB serialised). |
32 | to call a function in the child process and receive its return values (up |
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33 | to 4GB serialised). |
35 | |
34 | |
36 | It implements two different backends: a synchronous one that works like a |
35 | It implements two different backends: a synchronous one that works like a |
37 | normal function call, and an asynchronous one that can run multiple jobs |
36 | normal function call, and an asynchronous one that can run multiple jobs |
38 | concurrently in the child, using AnyEvent. |
37 | concurrently in the child, using AnyEvent. |
39 | |
38 | |
40 | It also implements an asynchronous event mechanism from the child to the |
39 | It also implements an asynchronous event mechanism from the child to the |
41 | parent, that could be used for progress indications or other information. |
40 | parent, that could be used for progress indications or other information. |
42 | |
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43 | Loading this module also always loads L<AnyEvent::Fork>, so you can make a |
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44 | separate C<use AnyEvent::Fork> if you wish, but you don't have to. |
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45 | |
41 | |
46 | =head1 EXAMPLES |
42 | =head1 EXAMPLES |
47 | |
43 | |
48 | =head2 Example 1: Synchronous Backend |
44 | =head2 Example 1: Synchronous Backend |
49 | |
45 | |
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53 | silly, but illustrates the use of events. |
49 | silly, but illustrates the use of events. |
54 | |
50 | |
55 | First the parent process: |
51 | First the parent process: |
56 | |
52 | |
57 | use AnyEvent; |
53 | use AnyEvent; |
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54 | use AnyEvent::Fork; |
58 | use AnyEvent::Fork::RPC; |
55 | use AnyEvent::Fork::RPC; |
59 | |
56 | |
60 | my $done = AE::cv; |
57 | my $done = AE::cv; |
61 | |
58 | |
62 | my $rpc = AnyEvent::Fork |
59 | my $rpc = AnyEvent::Fork |
63 | ->new |
60 | ->new |
64 | ->require ("MyWorker") |
61 | ->require ("MyWorker") |
65 | ->AnyEvent::Fork::RPC::run ("MyWorker::run", |
62 | ->AnyEvent::Fork::RPC::run ("MyWorker::run", |
66 | on_error => sub { warn "FATAL: $_[0]"; exit 1 }, |
63 | on_error => sub { warn "ERROR: $_[0]"; exit 1 }, |
67 | on_event => sub { warn "$_[0] requests handled\n" }, |
64 | on_event => sub { warn "$_[0] requests handled\n" }, |
68 | on_destroy => $done, |
65 | on_destroy => $done, |
69 | ); |
66 | ); |
70 | |
67 | |
71 | for my $id (1..6) { |
68 | for my $id (1..6) { |
… | |
… | |
178 | you really I<are> done. |
175 | you really I<are> done. |
179 | |
176 | |
180 | =head2 Example 2: Asynchronous Backend |
177 | =head2 Example 2: Asynchronous Backend |
181 | |
178 | |
182 | This example implements multiple count-downs in the child, using |
179 | This example implements multiple count-downs in the child, using |
183 | L<AnyEvent> timers. While this is a bit silly (one could use timers in te |
180 | L<AnyEvent> timers. While this is a bit silly (one could use timers in the |
184 | parent just as well), it illustrates the ability to use AnyEvent in the |
181 | parent just as well), it illustrates the ability to use AnyEvent in the |
185 | child and the fact that responses can arrive in a different order then the |
182 | child and the fact that responses can arrive in a different order then the |
186 | requests. |
183 | requests. |
187 | |
184 | |
188 | It also shows how to embed the actual child code into a C<__DATA__> |
185 | It also shows how to embed the actual child code into a C<__DATA__> |
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193 | so silly anymore. |
190 | so silly anymore. |
194 | |
191 | |
195 | Without further ado, here is the code: |
192 | Without further ado, here is the code: |
196 | |
193 | |
197 | use AnyEvent; |
194 | use AnyEvent; |
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195 | use AnyEvent::Fork; |
198 | use AnyEvent::Fork::RPC; |
196 | use AnyEvent::Fork::RPC; |
199 | |
197 | |
200 | my $done = AE::cv; |
198 | my $done = AE::cv; |
201 | |
199 | |
202 | my $rpc = AnyEvent::Fork |
200 | my $rpc = AnyEvent::Fork |
203 | ->new |
201 | ->new |
204 | ->require ("AnyEvent::Fork::RPC::Async") |
202 | ->require ("AnyEvent::Fork::RPC::Async") |
205 | ->eval (do { local $/; <DATA> }) |
203 | ->eval (do { local $/; <DATA> }) |
206 | ->AnyEvent::Fork::RPC::run ("run", |
204 | ->AnyEvent::Fork::RPC::run ("run", |
207 | async => 1, |
205 | async => 1, |
208 | on_error => sub { warn "FATAL: $_[0]"; exit 1 }, |
206 | on_error => sub { warn "ERROR: $_[0]"; exit 1 }, |
209 | on_event => sub { print $_[0] }, |
207 | on_event => sub { print $_[0] }, |
210 | on_destroy => $done, |
208 | on_destroy => $done, |
211 | ); |
209 | ); |
212 | |
210 | |
213 | for my $count (3, 2, 1) { |
211 | for my $count (3, 2, 1) { |
… | |
… | |
289 | |
287 | |
290 | This concludes the async example. Since L<AnyEvent::Fork> does not |
288 | This concludes the async example. Since L<AnyEvent::Fork> does not |
291 | actually fork, you are free to use about any module in the child, not just |
289 | actually fork, you are free to use about any module in the child, not just |
292 | L<AnyEvent>, but also L<IO::AIO>, or L<Tk> for example. |
290 | L<AnyEvent>, but also L<IO::AIO>, or L<Tk> for example. |
293 | |
291 | |
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292 | =head2 Example 3: Asynchronous backend with Coro |
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293 | |
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294 | With L<Coro> you can create a nice asynchronous backend implementation by |
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295 | defining an rpc server function that creates a new Coro thread for every |
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296 | request that calls a function "normally", i.e. the parameters from the |
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297 | parent process are passed to it, and any return values are returned to the |
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298 | parent process, e.g.: |
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299 | |
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300 | package My::Arith; |
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301 | |
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302 | sub add { |
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303 | return $_[0] + $_[1]; |
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304 | } |
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305 | |
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306 | sub mul { |
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307 | return $_[0] * $_[1]; |
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308 | } |
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309 | |
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310 | sub run { |
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311 | my ($done, $func, @arg) = @_; |
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312 | |
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313 | Coro::async_pool { |
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314 | $done->($func->(@arg)); |
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315 | }; |
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316 | } |
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317 | |
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318 | The C<run> function creates a new thread for every invocation, using the |
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319 | first argument as function name, and calls the C<$done> callback on it's |
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320 | return values. This makes it quite natural to define the C<add> and C<mul> |
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321 | functions to add or multiply two numbers and return the result. |
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322 | |
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323 | Since this is the asynchronous backend, it's quite possible to define RPC |
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324 | function that do I/O or wait for external events - their execution will |
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325 | overlap as needed. |
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326 | |
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327 | The above could be used like this: |
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328 | |
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329 | my $rpc = AnyEvent::Fork |
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330 | ->new |
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331 | ->require ("MyWorker") |
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332 | ->AnyEvent::Fork::RPC::run ("My::Arith::run", |
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333 | on_error => ..., on_event => ..., on_destroy => ..., |
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334 | ); |
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335 | |
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336 | $rpc->(add => 1, 3, Coro::rouse_cb); say Coro::rouse_wait; |
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337 | $rpc->(mul => 3, 2, Coro::rouse_cb); say Coro::rouse_wait; |
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338 | |
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339 | The C<say>'s will print C<4> and C<6>. |
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340 | |
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341 | =head2 Example 4: Forward AnyEvent::Log messages using C<on_event> |
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342 | |
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343 | This partial example shows how to use the C<event> function to forward |
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344 | L<AnyEvent::Log> messages to the parent. |
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345 | |
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346 | For this, the parent needs to provide a suitable C<on_event>: |
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347 | |
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348 | ->AnyEvent::Fork::RPC::run ( |
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349 | on_event => sub { |
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350 | if ($_[0] eq "ae_log") { |
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351 | my (undef, $level, $message) = @_; |
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352 | AE::log $level, $message; |
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353 | } else { |
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354 | # other event types |
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355 | } |
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356 | }, |
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357 | ) |
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358 | |
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359 | In the child, as early as possible, the following code should reconfigure |
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360 | L<AnyEvent::Log> to log via C<AnyEvent::Fork::RPC::event>: |
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361 | |
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362 | $AnyEvent::Log::LOG->log_cb (sub { |
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363 | my ($timestamp, $orig_ctx, $level, $message) = @{+shift}; |
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364 | |
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365 | if (defined &AnyEvent::Fork::RPC::event) { |
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366 | AnyEvent::Fork::RPC::event (ae_log => $level, $message); |
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367 | } else { |
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368 | warn "[$$ before init] $message\n"; |
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369 | } |
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370 | }); |
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371 | |
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372 | There is an important twist - the C<AnyEvent::Fork::RPC::event> function |
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373 | is only defined when the child is fully initialised. If you redirect the |
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374 | log messages in your C<init> function for example, then the C<event> |
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375 | function might not yet be available. This is why the log callback checks |
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376 | whether the fucntion is there using C<defined>, and only then uses it to |
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377 | log the message. |
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378 | |
294 | =head1 PARENT PROCESS USAGE |
379 | =head1 PARENT PROCESS USAGE |
295 | |
380 | |
296 | This module exports nothing, and only implements a single function: |
381 | This module exports nothing, and only implements a single function: |
297 | |
382 | |
298 | =over 4 |
383 | =over 4 |
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305 | |
390 | |
306 | use Errno (); |
391 | use Errno (); |
307 | use Guard (); |
392 | use Guard (); |
308 | |
393 | |
309 | use AnyEvent; |
394 | use AnyEvent; |
310 | use AnyEvent::Fork; # we don't actually depend on it, this is for convenience |
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311 | |
395 | |
312 | our $VERSION = 0.1; |
396 | our $VERSION = 1.21; |
313 | |
397 | |
314 | =item my $rpc = AnyEvent::Fork::RPC::run $fork, $function, [key => value...] |
398 | =item my $rpc = AnyEvent::Fork::RPC::run $fork, $function, [key => value...] |
315 | |
399 | |
316 | The traditional way to call it. But it is way cooler to call it in the |
400 | The traditional way to call it. But it is way cooler to call it in the |
317 | following way: |
401 | following way: |
… | |
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337 | Called on (fatal) errors, with a descriptive (hopefully) message. If |
421 | Called on (fatal) errors, with a descriptive (hopefully) message. If |
338 | this callback is not provided, but C<on_event> is, then the C<on_event> |
422 | this callback is not provided, but C<on_event> is, then the C<on_event> |
339 | callback is called with the first argument being the string C<error>, |
423 | callback is called with the first argument being the string C<error>, |
340 | followed by the error message. |
424 | followed by the error message. |
341 | |
425 | |
342 | If neither handler is provided it prints the error to STDERR and will |
426 | If neither handler is provided, then the error is reported with loglevel |
343 | start failing badly. |
427 | C<error> via C<AE::log>. |
344 | |
428 | |
345 | =item on_event => $cb->(...) |
429 | =item on_event => $cb->(...) |
346 | |
430 | |
347 | Called for every call to the C<AnyEvent::Fork::RPC::event> function in the |
431 | Called for every call to the C<AnyEvent::Fork::RPC::event> function in the |
348 | child, with the arguments of that function passed to the callback. |
432 | child, with the arguments of that function passed to the callback. |
… | |
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370 | It is called very early - before the serialisers are created or the |
454 | It is called very early - before the serialisers are created or the |
371 | C<$function> name is resolved into a function reference, so it could be |
455 | C<$function> name is resolved into a function reference, so it could be |
372 | used to load any modules that provide the serialiser or function. It can |
456 | used to load any modules that provide the serialiser or function. It can |
373 | not, however, create events. |
457 | not, however, create events. |
374 | |
458 | |
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459 | =item done => $function (default C<CORE::exit>) |
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460 | |
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461 | The function to call when the asynchronous backend detects an end of file |
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462 | condition when reading from the communications socket I<and> there are no |
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463 | outstanding requests. It's ignored by the synchronous backend. |
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464 | |
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465 | By overriding this you can prolong the life of a RPC process after e.g. |
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466 | the parent has exited by running the event loop in the provided function |
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467 | (or simply calling it, for example, when your child process uses L<EV> you |
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468 | could provide L<EV::loop> as C<done> function). |
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469 | |
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470 | Of course, in that case you are responsible for exiting at the appropriate |
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471 | time and not returning from |
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472 | |
375 | =item async => $boolean (default: 0) |
473 | =item async => $boolean (default: 0) |
376 | |
474 | |
377 | The default server used in the child does all I/O blockingly, and only |
475 | The default server used in the child does all I/O blockingly, and only |
378 | allows a single RPC call to execute concurrently. |
476 | allows a single RPC call to execute concurrently. |
379 | |
477 | |
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417 | =over 4 |
515 | =over 4 |
418 | |
516 | |
419 | =item octet strings - C<$AnyEvent::Fork::RPC::STRING_SERIALISER> |
517 | =item octet strings - C<$AnyEvent::Fork::RPC::STRING_SERIALISER> |
420 | |
518 | |
421 | This serialiser concatenates length-prefixes octet strings, and is the |
519 | This serialiser concatenates length-prefixes octet strings, and is the |
422 | default. |
520 | default. That means you can only pass (and return) strings containing |
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521 | character codes 0-255. |
423 | |
522 | |
424 | Implementation: |
523 | Implementation: |
425 | |
524 | |
426 | ( |
525 | ( |
427 | sub { pack "(w/a*)*", @_ }, |
526 | sub { pack "(w/a*)*", @_ }, |
… | |
… | |
448 | |
547 | |
449 | =item storable - C<$AnyEvent::Fork::RPC::STORABLE_SERIALISER> |
548 | =item storable - C<$AnyEvent::Fork::RPC::STORABLE_SERIALISER> |
450 | |
549 | |
451 | This serialiser uses L<Storable>, which means it has high chance of |
550 | This serialiser uses L<Storable>, which means it has high chance of |
452 | serialising just about anything you throw at it, at the cost of having |
551 | serialising just about anything you throw at it, at the cost of having |
453 | very high overhead per operation. It also comes with perl. |
552 | very high overhead per operation. It also comes with perl. It should be |
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553 | used when you need to serialise complex data structures. |
454 | |
554 | |
455 | Implementation: |
555 | Implementation: |
456 | |
556 | |
457 | use Storable (); |
557 | use Storable (); |
458 | ( |
558 | ( |
459 | sub { Storable::freeze \@_ }, |
559 | sub { Storable::freeze \@_ }, |
460 | sub { @{ Storable::thaw shift } } |
560 | sub { @{ Storable::thaw shift } } |
461 | ) |
561 | ) |
462 | |
562 | |
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563 | =item portable storable - C<$AnyEvent::Fork::RPC::NSTORABLE_SERIALISER> |
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564 | |
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565 | This serialiser also uses L<Storable>, but uses it's "network" format |
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566 | to serialise data, which makes it possible to talk to different |
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567 | perl binaries (for example, when talking to a process created with |
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568 | L<AnyEvent::Fork::Remote>). |
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569 | |
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570 | Implementation: |
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571 | |
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572 | use Storable (); |
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573 | ( |
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574 | sub { Storable::nfreeze \@_ }, |
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575 | sub { @{ Storable::thaw shift } } |
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576 | ) |
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577 | |
463 | =back |
578 | =back |
464 | |
579 | |
465 | =back |
580 | =back |
466 | |
581 | |
467 | See the examples section earlier in this document for some actual |
582 | See the examples section earlier in this document for some actual |
468 | examples. |
583 | examples. |
469 | |
584 | |
470 | =cut |
585 | =cut |
471 | |
586 | |
472 | our $STRING_SERIALISER = '(sub { pack "(w/a*)*", @_ }, sub { unpack "(w/a*)*", shift })'; |
587 | our $STRING_SERIALISER = '(sub { pack "(w/a*)*", @_ }, sub { unpack "(w/a*)*", shift })'; |
473 | our $JSON_SERIALISER = 'use JSON (); (sub { JSON::encode_json \@_ }, sub { @{ JSON::decode_json shift } })'; |
588 | our $JSON_SERIALISER = 'use JSON (); (sub { JSON::encode_json \@_ }, sub { @{ JSON::decode_json shift } })'; |
474 | our $STORABLE_SERIALISER = 'use Storable (); (sub { Storable::freeze \@_ }, sub { @{ Storable::thaw shift } })'; |
589 | our $STORABLE_SERIALISER = 'use Storable (); (sub { Storable::freeze \@_ }, sub { @{ Storable::thaw shift } })'; |
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590 | our $NSTORABLE_SERIALISER = 'use Storable (); (sub { Storable::nfreeze \@_ }, sub { @{ Storable::thaw shift } })'; |
475 | |
591 | |
476 | sub run { |
592 | sub run { |
477 | my ($self, $function, %arg) = @_; |
593 | my ($self, $function, %arg) = @_; |
478 | |
594 | |
479 | my $serialiser = delete $arg{serialiser} || $STRING_SERIALISER; |
595 | my $serialiser = delete $arg{serialiser} || $STRING_SERIALISER; |
… | |
… | |
482 | my $on_destroy = delete $arg{on_destroy}; |
598 | my $on_destroy = delete $arg{on_destroy}; |
483 | |
599 | |
484 | # default for on_error is to on_event, if specified |
600 | # default for on_error is to on_event, if specified |
485 | $on_error ||= $on_event |
601 | $on_error ||= $on_event |
486 | ? sub { $on_event->(error => shift) } |
602 | ? sub { $on_event->(error => shift) } |
487 | : sub { die "AnyEvent::Fork::RPC: uncaught error: $_[0].\n" }; |
603 | : sub { AE::log die => "AnyEvent::Fork::RPC: uncaught error: $_[0]." }; |
488 | |
604 | |
489 | # default for on_event is to raise an error |
605 | # default for on_event is to raise an error |
490 | $on_event ||= sub { $on_error->("event received, but no on_event handler") }; |
606 | $on_event ||= sub { $on_error->("event received, but no on_event handler") }; |
491 | |
607 | |
492 | my ($f, $t) = eval $serialiser; die $@ if $@; |
608 | my ($f, $t) = eval $serialiser; die $@ if $@; |
… | |
… | |
513 | }; |
629 | }; |
514 | |
630 | |
515 | my $module = "AnyEvent::Fork::RPC::" . ($arg{async} ? "Async" : "Sync"); |
631 | my $module = "AnyEvent::Fork::RPC::" . ($arg{async} ? "Async" : "Sync"); |
516 | |
632 | |
517 | $self->require ($module) |
633 | $self->require ($module) |
518 | ->send_arg ($function, $arg{init}, $serialiser) |
634 | ->send_arg ($function, $arg{init}, $serialiser, $arg{done} || "$module\::do_exit") |
519 | ->run ("$module\::run", sub { |
635 | ->run ("$module\::run", sub { |
520 | $fh = shift; |
636 | $fh = shift; |
521 | |
637 | |
522 | my ($id, $len); |
638 | my ($id, $len); |
523 | $rw = AE::io $fh, 0, sub { |
639 | $rw = AE::io $fh, 0, sub { |
524 | $rlen = $rlen * 2 + 16 if $rlen - 128 < length $rbuf; |
640 | $rlen = $rlen * 2 + 16 if $rlen - 128 < length $rbuf; |
525 | $len = sysread $fh, $rbuf, $rlen - length $rbuf, length $rbuf; |
641 | $len = sysread $fh, $rbuf, $rlen - length $rbuf, length $rbuf; |
526 | |
642 | |
527 | if ($len) { |
643 | if ($len) { |
528 | while (8 <= length $rbuf) { |
644 | while (8 <= length $rbuf) { |
529 | ($id, $len) = unpack "LL", $rbuf; |
645 | ($id, $len) = unpack "NN", $rbuf; |
530 | 8 + $len <= length $rbuf |
646 | 8 + $len <= length $rbuf |
531 | or last; |
647 | or last; |
532 | |
648 | |
533 | my @r = $t->(substr $rbuf, 8, $len); |
649 | my @r = $t->(substr $rbuf, 8, $len); |
534 | substr $rbuf, 0, 8 + $len, ""; |
650 | substr $rbuf, 0, 8 + $len, ""; |
… | |
… | |
579 | |
695 | |
580 | $rcb{$id} = pop; |
696 | $rcb{$id} = pop; |
581 | |
697 | |
582 | $guard if 0; # keep it alive |
698 | $guard if 0; # keep it alive |
583 | |
699 | |
584 | $wbuf .= pack "LL/a*", $id, &$f; |
700 | $wbuf .= pack "NN/a*", $id, &$f; |
585 | $ww ||= $fh && AE::io $fh, 1, $wcb; |
701 | $ww ||= $fh && AE::io $fh, 1, $wcb; |
586 | } |
702 | } |
587 | : sub { |
703 | : sub { |
588 | push @rcb, pop; |
704 | push @rcb, pop; |
589 | |
705 | |
590 | $guard; # keep it alive |
706 | $guard; # keep it alive |
591 | |
707 | |
592 | $wbuf .= pack "L/a*", &$f; |
708 | $wbuf .= pack "N/a*", &$f; |
593 | $ww ||= $fh && AE::io $fh, 1, $wcb; |
709 | $ww ||= $fh && AE::io $fh, 1, $wcb; |
594 | } |
710 | } |
595 | } |
711 | } |
596 | |
712 | |
597 | =item $rpc->(..., $cb->(...)) |
713 | =item $rpc->(..., $cb->(...)) |
… | |
… | |
636 | child process to the parent, except that there is no notion of return |
752 | child process to the parent, except that there is no notion of return |
637 | values. |
753 | values. |
638 | |
754 | |
639 | See the examples section earlier in this document for some actual |
755 | See the examples section earlier in this document for some actual |
640 | examples. |
756 | examples. |
|
|
757 | |
|
|
758 | =back |
|
|
759 | |
|
|
760 | =head2 PROCESS EXIT |
|
|
761 | |
|
|
762 | If and when the child process exits depends on the backend and |
|
|
763 | configuration. Apart from explicit exits (e.g. by calling C<exit>) or |
|
|
764 | runtime conditions (uncaught exceptions, signals etc.), the backends exit |
|
|
765 | under these conditions: |
|
|
766 | |
|
|
767 | =over 4 |
|
|
768 | |
|
|
769 | =item Synchronous Backend |
|
|
770 | |
|
|
771 | The synchronous backend is very simple: when the process waits for another |
|
|
772 | request to arrive and the writing side (usually in the parent) is closed, |
|
|
773 | it will exit normally, i.e. as if your main program reached the end of the |
|
|
774 | file. |
|
|
775 | |
|
|
776 | That means that if your parent process exits, the RPC process will usually |
|
|
777 | exit as well, either because it is idle anyway, or because it executes a |
|
|
778 | request. In the latter case, you will likely get an error when the RPc |
|
|
779 | process tries to send the results to the parent (because agruably, you |
|
|
780 | shouldn't exit your parent while there are still outstanding requests). |
|
|
781 | |
|
|
782 | The process is usually quiescent when it happens, so it should rarely be a |
|
|
783 | problem, and C<END> handlers can be used to clean up. |
|
|
784 | |
|
|
785 | =item Asynchronous Backend |
|
|
786 | |
|
|
787 | For the asynchronous backend, things are more complicated: Whenever it |
|
|
788 | listens for another request by the parent, it might detect that the socket |
|
|
789 | was closed (e.g. because the parent exited). It will sotp listening for |
|
|
790 | new requests and instead try to write out any remaining data (if any) or |
|
|
791 | simply check whether the socket can be written to. After this, the RPC |
|
|
792 | process is effectively done - no new requests are incoming, no outstanding |
|
|
793 | request data can be written back. |
|
|
794 | |
|
|
795 | Since chances are high that there are event watchers that the RPC server |
|
|
796 | knows nothing about (why else would one use the async backend if not for |
|
|
797 | the ability to register watchers?), the event loop would often happily |
|
|
798 | continue. |
|
|
799 | |
|
|
800 | This is why the asynchronous backend explicitly calls C<CORE::exit> when |
|
|
801 | it is done (under other circumstances, such as when there is an I/O error |
|
|
802 | and there is outstanding data to write, it will log a fatal message via |
|
|
803 | L<AnyEvent::Log>, also causing the program to exit). |
|
|
804 | |
|
|
805 | You can override this by specifying a function name to call via the C<done> |
|
|
806 | parameter instead. |
641 | |
807 | |
642 | =back |
808 | =back |
643 | |
809 | |
644 | =head1 ADVANCED TOPICS |
810 | =head1 ADVANCED TOPICS |
645 | |
811 | |
… | |
… | |
728 | half it has passed earlier. |
894 | half it has passed earlier. |
729 | |
895 | |
730 | Here is some (untested) pseudocode to that effect: |
896 | Here is some (untested) pseudocode to that effect: |
731 | |
897 | |
732 | use AnyEvent::Util; |
898 | use AnyEvent::Util; |
|
|
899 | use AnyEvent::Fork; |
733 | use AnyEvent::Fork::RPC; |
900 | use AnyEvent::Fork::RPC; |
734 | use IO::FDPass; |
901 | use IO::FDPass; |
735 | |
902 | |
736 | my ($s1, $s2) = AnyEvent::Util::portable_socketpair; |
903 | my ($s1, $s2) = AnyEvent::Util::portable_socketpair; |
737 | |
904 | |
… | |
… | |
784 | |
951 | |
785 | =head1 SEE ALSO |
952 | =head1 SEE ALSO |
786 | |
953 | |
787 | L<AnyEvent::Fork>, to create the processes in the first place. |
954 | L<AnyEvent::Fork>, to create the processes in the first place. |
788 | |
955 | |
|
|
956 | L<AnyEvent::Fork::Remote>, likewise, but helpful for remote processes. |
|
|
957 | |
789 | L<AnyEvent::Fork::Pool>, to manage whole pools of processes. |
958 | L<AnyEvent::Fork::Pool>, to manage whole pools of processes. |
790 | |
959 | |
791 | =head1 AUTHOR AND CONTACT INFORMATION |
960 | =head1 AUTHOR AND CONTACT INFORMATION |
792 | |
961 | |
793 | Marc Lehmann <schmorp@schmorp.de> |
962 | Marc Lehmann <schmorp@schmorp.de> |