# Test::NoLeaks ![Build status](https://api.travis-ci.org/binary-com/perl-Test-NoLeaks.png "Build status") # NAME Test::NoLeaks - Memory and file descriptor leak detector # VERSION 0.05 # SYNOPSYS use Test::NoLeaks; test_noleaks ( code => sub{ # code that might leak }, track_memory => 1, track_fds => 1, passes => 2, warmup_passes => 1, tolerate_hits => 0, ); Sample output: # pass 1, leaked: 225280 bytes 0 file descriptors # pass 36, leaked: 135168 bytes 0 file descriptors # pass 52, leaked: 319488 bytes 0 file descriptors # pass 84, leaked: 135168 bytes 0 file descriptors # pass 98, leaked: 155648 bytes 0 file descriptors not ok 1214 - Leaked 970752 bytes (5 hits) 0 file descriptors test_noleaks ( code => sub { ... }, track_memory => 1, passes => 2, ); # old-school way use Test::More; use Test::NoLeaks qw/noleaks/; ok noleaks( code => sub { ... }, track_memory => ..., track_fds => ..., passes => ..., warmup_passes => ..., ), "non-leaked code description"; # DESCRIPTION It is hard to track memory leaks. There are a lot of perl modules (e.g. [Test::LeakTrace](https://metacpan.org/pod/Test::LeakTrace)), that try to **detect** and **point** leaks. Unfortunately, they do not always work, and they are rather limited because they are not able to detect leaks in XS-code or external libraries. Instead of examining perl internals, this module offers a bit naive empirical approach: let the suspicious code to be launched in infinite loop some time and watch (via tools like `top`)if the memory consumption by perl process increses over time. If it does, while it is expected to be constant (stabilized), then, surely, there are leaks. This approach is able only to **detect** and not able to **point** them. The module `Test::NoLeaks` implements the general idea of the approach, which might be enough in many cases. # INTERFACE ### `test_noleaks` ### `noleaks` The mandatory hash has the following members - `code` Suspicious for leaks subroutine, that will be executed multiple times. - `track_memory` - `track_fds` Track memory or file descriptor leaks. At leas one of them should be specified. In **Unices**, every socket is file descriptor too, so, `track_fds` will be able to track unclosed sockets, i.e. network connections. - `passes` How many times `code` should be executed. If memory leak is too small, number of passes should be large enough to trigger additional pages allocation for perl process, and the leak will be detected. Page size is 4kb on linux, so, if `code` leaks 4 bytes on every pass, then `1024` passes should be specified. In general, the more passes are specified, the more chance to detect possible leaks. It is good idea to initally define `passes` to some large number, e.g. `10_000` to be sure, that the suspicious code leaks, but then decrease to some smaller number, enough to produce test fail report, i.e. enough to produces 3-5 memory hits (additional pages allocations). This will speed up tests execution and will save CO2 atmospheric emissions a little bit. Default value is `100`. Minimal value is `2`. - `warmup_passes` How many times the `code` should be executed before module starts tracking resources consumption on executing the `code` `passes` times. If you have caches, memoizes etc., then `warmup_passes` is your friend. Default value is `0`. - `tolerate_hits` How many passes, which considered leaked, should be ingnored, i.e. maximal number of possible false leak reports. Even if your code has no leaks, it might cause perl interpreter allocate additional memory pages, e.g. due to memory fragmentation. Those allocations are legal, and should not be treated as leaks. Use this **only** when memory leaks are already fixed, but there are still false leak reports from `test_leak`. This value expected to be small enough, i.e. `1` or `2`. For additional assurance, please, increase `passes` value, if `tolarate_hits` is non-zero. Default value is `0`. # MEMORY LEAKS TESTING TECHNIQUES `Test::NoLeaks` can be used to test web applications for memory leaks. Let's consider you have the following suspicious code sub might_leak { my $t = Test::Mojo->new('MyApp'); $t->post_ok('/search.json' => form => {q => 'Perl'}) ->status_is(200); ...; } test_noleaks ( code => \&might_leak, track_memory => 1, track_fds => 1, passes => 1000, ); The `might_leak` subroutine isn't optimal for leak detection, because it mixes infrastructure-related code (application) with request code. Let's consider, that there is a leak: every request creates some data and puts it into application, but forgets to do clean up. As soon as the application is re-created on every pass, the leaked data might be destroyed together with the application, and leak might remain undetected. So, the code under test should look much more production like, i.e. my $t = Test::Mojo->new('MyApp'); ok($t); sub might_leak { $t->post_ok('/search.json' => form => {q => 'Perl'}) ->status_is(200); ...; } That way web-application is created only once, and leaks will be tracked on request-related code. Anyway, `might_leak` still wrong, because it unintentionally leaks due to use of direct or indirect [Test::More](https://metacpan.org/pod/Test::More) functions, like `ok` or `post_ok`. They should not be used; if you still need to assert, that `might_leak` works propertly, you can use `BAIL_OUT` subroutine, to cancel any further testing, e.g. sub might_leak { my $got = some_function_might_leak; my $expected = "some_value"; BAIL_OUT('some_function_might_leak does not work propertly!') unless $got eq $expected; } Please, **do not** use `test_noleaks` more then once per test file. Consider the following example: # (A) test_noleaks( code => &does_not_leak_but_consumes_large_amount_of_memory, ..., ) # (B) test_noleaks( code => &leaks_but_consumes_small_amount_of_memory, ... ) In A-case OS already allocated large amount of memory for Perl interpreter. In case-B perl might just re-use them, without allocating new ones, and this will be false negative, i.e. memory leak might **not** be reported. # LIMITATIONS - Currently it works propertly only on **Linux** Patches or pull requests to support other OSes are welcome. - The module will not work propertly in **fork**ed child It seems a little bit strange to use `test_noleaks` or `noleaks` in forked child, but if you really need that, please, send PR. # SEE ALSO [Test::MemoryGrowth](https://metacpan.org/pod/Test::MemoryGrowth) # SOURCE CODE [GitHub](https://github.com/binary-com/perl-Test-NoLeaks) # AUTHOR binary.com, `` # BUGS Please report any bugs or feature requests to [https://github.com/binary-com/perl-Test-NoLeaks/issues](https://github.com/binary-com/perl-Test-NoLeaks/issues). # LICENSE AND COPYRIGHT Copyright (C) 2015, 2016 binary.com This program is free software; you can redistribute it and/or modify it under the terms of the the Artistic License (2.0). 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