ok
Direktori : /usr/local/share/perl5/Test/ |
Current File : //usr/local/share/perl5/Test/Alien.pm |
package Test::Alien; use strict; use warnings; use 5.008004; use Env qw( @PATH ); use File::Which 1.10 qw( which ); use Capture::Tiny qw( capture capture_merged ); use Alien::Build::Temp; use File::Copy qw( move ); use Text::ParseWords qw( shellwords ); use Test2::API qw( context run_subtest ); use base qw( Exporter ); use Path::Tiny qw( path ); use Alien::Build::Util qw( _dump ); use Config; our @EXPORT = qw( alien_ok run_ok xs_ok ffi_ok with_subtest synthetic helper_ok interpolate_template_is ); # ABSTRACT: Testing tools for Alien modules our $VERSION = '2.29'; # VERSION our @aliens; sub alien_ok ($;$) { my($alien, $message) = @_; my $name = ref $alien ? ref($alien) . '[instance]' : $alien; $name = 'undef' unless defined $name; my @methods = qw( cflags libs dynamic_libs bin_dir ); $message ||= "$name responds to: @methods"; my $ok; my @diag; if(defined $alien) { my @missing = grep { ! $alien->can($_) } @methods; $ok = !@missing; push @diag, map { " missing method $_" } @missing; if($ok) { push @aliens, $alien; unshift @PATH, $alien->bin_dir; } } else { $ok = 0; push @diag, " undefined alien"; } my $ctx = context(); $ctx->ok($ok, $message); $ctx->diag($_) for @diag; $ctx->release; $ok; } sub synthetic { my($opt) = @_; $opt ||= {}; my %alien = %$opt; require Test::Alien::Synthetic; bless \%alien, 'Test::Alien::Synthetic', } sub run_ok { my($command, $message) = @_; my(@command) = ref $command ? @$command : ($command); $message ||= "run @command"; require Test::Alien::Run; my $run = bless { out => '', err => '', exit => 0, sig => 0, cmd => [@command], }, 'Test::Alien::Run'; my $ctx = context(); my $exe = which $command[0]; if(defined $exe) { shift @command; $run->{cmd} = [$exe, @command]; my @diag; my $ok = 1; my($exit, $errno); ($run->{out}, $run->{err}, $exit, $errno) = capture { system $exe, @command; ($?,$!); }; if($exit == -1) { $ok = 0; $run->{fail} = "failed to execute: $errno"; push @diag, " failed to execute: $errno"; } elsif($exit & 127) { $ok = 0; push @diag, " killed with signal: @{[ $exit & 127 ]}"; $run->{sig} = $exit & 127; } else { $run->{exit} = $exit >> 8; } $ctx->ok($ok, $message); $ok ? $ctx->note(" using $exe") : $ctx->diag(" using $exe"); $ctx->diag(@diag) for @diag; } else { $ctx->ok(0, $message); $ctx->diag(" command not found"); $run->{fail} = 'command not found'; } $ctx->release; $run; } sub _flags { my($class, $method) = @_; my $static = "${method}_static"; $class->can($static) && $class->can('install_type') && $class->install_type eq 'share' && (!$class->can('xs_load')) ? $class->$static : $class->$method; } sub xs_ok { my $cb; $cb = pop if defined $_[-1] && ref $_[-1] eq 'CODE'; my($xs, $message) = @_; $message ||= 'xs'; $xs = { xs => $xs } unless ref $xs; # make sure this is a copy because we may # modify it. $xs->{xs} = "@{[ $xs->{xs} ]}"; $xs->{pxs} ||= {}; $xs->{cbuilder_check} ||= 'have_compiler'; $xs->{cbuilder_config} ||= {}; $xs->{cbuilder_compile} ||= {}; $xs->{cbuilder_link} ||= {}; require ExtUtils::CBuilder; my $skip = do { my $have_compiler = $xs->{cbuilder_check}; !ExtUtils::CBuilder->new( config => $xs->{cbuilder_config} )->$have_compiler; }; if($skip) { my $ctx = context(); $ctx->skip($message, 'test requires a compiler'); $ctx->skip("$message subtest", 'test requires a compiler') if $cb; $ctx->release; return; } if($xs->{cpp} || $xs->{'C++'}) { my $ctx = context(); $ctx->bail("The cpp and C++ options have been removed from xs_ok"); } else { $xs->{c_ext} ||= 'c'; } my $verbose = $xs->{verbose} || 0; my $ok = 1; my @diag; my $dir = Alien::Build::Temp->newdir( TEMPLATE => 'test-alien-XXXXXX', CLEANUP => $^O =~ /^(MSWin32|cygwin)$/ ? 0 : 1, ); my $xs_filename = path($dir)->child('test.xs')->stringify; my $c_filename = path($dir)->child("test.@{[ $xs->{c_ext} ]}")->stringify; my $ctx = context(); my $module; if($xs->{xs} =~ /\bTA_MODULE\b/) { our $count; $count = 0 unless defined $count; my $name = sprintf "Test::Alien::XS::Mod%s", $count++; my $code = $xs->{xs}; $code =~ s{\bTA_MODULE\b}{$name}g; $xs->{xs} = $code; } # this regex copied shamefully from ExtUtils::ParseXS # in part because we need the module name to do the bootstrap # and also because if this regex doesn't match then ParseXS # does an exit() which we don't want. if($xs->{xs} =~ /^MODULE\s*=\s*([\w:]+)(?:\s+PACKAGE\s*=\s*([\w:]+))?(?:\s+PREFIX\s*=\s*(\S+))?\s*$/m) { $module = $1; $ctx->note("detect module name $module") if $verbose; } else { $ok = 0; push @diag, ' XS does not have a module decleration that we could find'; } if($ok) { open my $fh, '>', $xs_filename; print $fh $xs->{xs}; close $fh; require ExtUtils::ParseXS; my $pxs = ExtUtils::ParseXS->new; my($out, $err) = capture_merged { eval { $pxs->process_file( filename => $xs_filename, output => $c_filename, versioncheck => 0, prototypes => 0, %{ $xs->{pxs} }, ); }; $@; }; $ctx->note("parse xs $xs_filename => $c_filename") if $verbose; $ctx->note($out) if $verbose; $ctx->note("error: $err") if $verbose && $err; unless($pxs->report_error_count == 0) { $ok = 0; push @diag, ' ExtUtils::ParseXS failed:'; push @diag, " $err" if $err; push @diag, " $_" for split /\r?\n/, $out; } } if($ok) { my $cb = ExtUtils::CBuilder->new( config => do { my %config = %{ $xs->{cbuilder_config} }; my $lddlflags = join(' ', grep !/^-l/, shellwords map { _flags $_, 'libs' } @aliens) . " $Config{lddlflags}"; $config{lddlflags} = defined $config{lddlflags} ? "$lddlflags $config{lddlflags}" : $lddlflags; \%config; }, ); my %compile_options = ( source => $c_filename, %{ $xs->{cbuilder_compile} }, ); if(defined $compile_options{extra_compiler_flags} && ref($compile_options{extra_compiler_flags}) eq '') { $compile_options{extra_compiler_flags} = [ shellwords $compile_options{extra_compiler_flags} ]; } push @{ $compile_options{extra_compiler_flags} }, shellwords map { _flags $_, 'cflags' } @aliens; my($out, $obj, $err) = capture_merged { my $obj = eval { $cb->compile(%compile_options); }; ($obj, $@); }; $ctx->note("compile $c_filename") if $verbose; $ctx->note($out) if $verbose; $ctx->note($err) if $verbose && $err; if($verbose > 1) { $ctx->note(_dump({ compile_options => \%compile_options })); } unless($obj) { $ok = 0; push @diag, ' ExtUtils::CBuilder->compile failed'; push @diag, " $err" if $err; push @diag, " $_" for split /\r?\n/, $out; } if($ok) { my %link_options = ( objects => [$obj], module_name => $module, %{ $xs->{cbuilder_link} }, ); if(defined $link_options{extra_linker_flags} && ref($link_options{extra_linker_flags}) eq '') { $link_options{extra_linker_flags} = [ shellwords $link_options{extra_linker_flags} ]; } unshift @{ $link_options{extra_linker_flags} }, grep /^-l/, shellwords map { _flags $_, 'libs' } @aliens; my($out, $lib, $err) = capture_merged { my $lib = eval { $cb->link(%link_options); }; ($lib, $@); }; $ctx->note("link $obj") if $verbose; $ctx->note($out) if $verbose; $ctx->note($err) if $verbose && $err; if($verbose > 1) { $ctx->note(_dump({ link_options => \%link_options })); } if($lib && -f $lib) { $ctx->note("created lib $lib") if $xs->{verbose}; } else { $ok = 0; push @diag, ' ExtUtils::CBuilder->link failed'; push @diag, " $err" if $err; push @diag, " $_" for split /\r?\n/, $out; } if($ok) { my @modparts = split(/::/,$module); my $dl_dlext = $Config{dlext}; my $modfname = $modparts[-1]; my $libpath = path($dir)->child('auto', @modparts, "$modfname.$dl_dlext"); $libpath->parent->mkpath; move($lib, "$libpath") || die "unable to copy $lib => $libpath $!"; pop @modparts; my $pmpath = path($dir)->child(@modparts, "$modfname.pm"); $pmpath->parent->mkpath; open my $fh, '>', "$pmpath"; my($alien_with_xs_load, @rest) = grep { $_->can('xs_load') } @aliens; if($alien_with_xs_load) { { no strict 'refs'; @{join '::', $module, 'rest'} = @rest; ${join '::', $module, 'alien_with_xs_load'} = $alien_with_xs_load; } print $fh '# line '. __LINE__ . ' "' . __FILE__ . qq("\n) . qq{ package $module; use strict; use warnings; our \$VERSION = '0.01'; our \@rest; our \$alien_with_xs_load; \$alien_with_xs_load->xs_load('$module', \$VERSION, \@rest); 1; }; } else { print $fh '# line '. __LINE__ . ' "' . __FILE__ . qq("\n) . qq{ package $module; use strict; use warnings; require XSLoader; our \$VERSION = '0.01'; XSLoader::load('$module',\$VERSION); 1; }; } close $fh; { local @INC = @INC; unshift @INC, "$dir"; ## no critic eval '# line '. __LINE__ . ' "' . __FILE__ . qq("\n) . qq{ use $module; }; ## use critic } if(my $error = $@) { $ok = 0; push @diag, ' XSLoader failed'; push @diag, " $error"; } } } } $ctx->ok($ok, $message); $ctx->diag($_) for @diag; $ctx->release; if($cb) { $cb = sub { my $ctx = context(); $ctx->plan(0, 'SKIP', "subtest requires xs success"); $ctx->release; } unless $ok; @_ = ("$message subtest", $cb, 1, $module); goto \&Test2::API::run_subtest; } $ok; } sub with_subtest (&) { my($code) = @_; # it may be possible to catch a segmentation fault, # but not with signal handlers apparently. See: # https://feepingcreature.github.io/handling.html return $code if $^O eq 'MSWin32'; # try to catch a segmentation fault and bail out # with a useful diagnostic. prove test to swallow # the diagnostic on such failures. sub { local $SIG{SEGV} = sub { my $ctx = context(); $ctx->bail("Segmentation fault"); }; $code->(@_); } } sub ffi_ok { my $cb; $cb = pop if defined $_[-1] && ref $_[-1] eq 'CODE'; my($opt, $message) = @_; $message ||= 'ffi'; my $ok = 1; my $skip; my $ffi; my @diag; { my $min = '0.12'; # the first CPAN release $min = '0.15' if $opt->{ignore_not_found}; $min = '0.18' if $opt->{lang}; $min = '0.99' if defined $opt->{api} && $opt->{api} > 0; unless(eval { require FFI::Platypus; FFI::Platypus->VERSION($min) }) { $ok = 0; $skip = "Test requires FFI::Platypus $min"; } } if($ok && $opt->{lang}) { my $class = "FFI::Platypus::Lang::@{[ $opt->{lang} ]}"; { my $pm = "$class.pm"; $pm =~ s/::/\//g; eval { require $pm }; } if($@) { $ok = 0; $skip = "Test requires FFI::Platypus::Lang::@{[ $opt->{lang} ]}"; } } if($ok) { $ffi = FFI::Platypus->new( do { my @args = ( lib => [map { $_->dynamic_libs } @aliens], ignore_not_found => $opt->{ignore_not_found}, lang => $opt->{lang}, ); push @args, api => $opt->{api} if defined $opt->{api}; @args; } ); foreach my $symbol (@{ $opt->{symbols} || [] }) { unless($ffi->find_symbol($symbol)) { $ok = 0; push @diag, " $symbol not found" } } } my $ctx = context(); if($skip) { $ctx->skip($message, $skip); } else { $ctx->ok($ok, $message); } $ctx->diag($_) for @diag; $ctx->release; if($cb) { $cb = sub { my $ctx = context(); $ctx->plan(0, 'SKIP', "subtest requires ffi success"); $ctx->release; } unless $ok; @_ = ("$message subtest", $cb, 1, $ffi); goto \&Test2::API::run_subtest; } $ok; } sub _interpolator { require Alien::Build::Interpolate::Default; my $intr = Alien::Build::Interpolate::Default->new; foreach my $alien (@aliens) { if($alien->can('alien_helper')) { my $help = $alien->alien_helper; foreach my $name (keys %$help) { my $code = $help->{$name}; $intr->replace_helper($name, $code); } } } $intr; } sub helper_ok { my($name, $message) = @_; $message ||= "helper $name exists"; my $intr = _interpolator; my $code = $intr->has_helper($name); my $ok = defined $code; my $ctx = context(); $ctx->ok($ok, $message); $ctx->release; $ok; } sub interpolate_template_is { my($template, $pattern, $message) = @_; $message ||= "template matches"; my $intr = _interpolator; my $value = eval { $intr->interpolate($template) }; my $error = $@; my @diag; my $ok; if($error) { $ok = 0; push @diag, "error in evaluation:"; push @diag, " $error"; } elsif(ref($pattern) eq 'Regexp') { $ok = $value =~ $pattern; push @diag, "value '$value' does not match $pattern'" unless $ok; } else { $ok = $value eq "$pattern"; push @diag, "value '$value' does not equal '$pattern'" unless $ok; } my $ctx = context(); $ctx->ok($ok, $message, [@diag]); $ctx->release; $ok; } 1; __END__ =pod =encoding UTF-8 =head1 NAME Test::Alien - Testing tools for Alien modules =head1 VERSION version 2.29 =head1 SYNOPSIS Test commands that come with your Alien: use Test2::V0; use Test::Alien; use Alien::patch; alien_ok 'Alien::patch'; run_ok([ 'patch', '--version' ]) ->success # we only accept the version written # by Larry ... ->out_like(qr{Larry Wall}); done_testing; Test that your library works with C<XS>: use Test2::V0; use Test::Alien; use Alien::Editline; alien_ok 'Alien::Editline'; my $xs = do { local $/; <DATA> }; xs_ok $xs, with_subtest { my($module) = @_; ok $module->version; }; done_testing; __DATA__ #include "EXTERN.h" #include "perl.h" #include "XSUB.h" #include <editline/readline.h> const char * version(const char *class) { return rl_library_version; } MODULE = TA_MODULE PACKAGE = TA_MODULE const char *version(class); const char *class; Test that your library works with L<FFI::Platypus>: use Test2::V0; use Test::Alien; use Alien::LibYAML; alien_ok 'Alien::LibYAML'; ffi_ok { symbols => ['yaml_get_version'] }, with_subtest { my($ffi) = @_; my $get_version = $ffi->function(yaml_get_version => ['int*','int*','int*'] => 'void'); $get_version->call(\my $major, \my $minor, \my $patch); like $major, qr{[0-9]+}; like $minor, qr{[0-9]+}; like $patch, qr{[0-9]+}; }; done_testing; =head1 DESCRIPTION This module provides tools for testing L<Alien> modules. It has hooks to work easily with L<Alien::Base> based modules, but can also be used via the synthetic interface to test non L<Alien::Base> based L<Alien> modules. It has very modest prerequisites. Prior to this module the best way to test a L<Alien> module was via L<Test::CChecker>. The main downside to that module is that it is heavily influenced by and uses L<ExtUtils::CChecker>, which is a tool for checking at install time various things about your compiler. It was also written before L<Alien::Base> became as stable as it is today. In particular, L<Test::CChecker> does its testing by creating an executable and running it. Unfortunately Perl uses extensions by creating dynamic libraries and linking them into the Perl process, which is different in subtle and error prone ways. This module attempts to test the libraries in the way that they will actually be used, via either C<XS> or L<FFI::Platypus>. It also provides a mechanism for testing binaries that are provided by the various L<Alien> modules (for example L<Alien::gmake> and L<Alien::patch>). L<Alien> modules can actually be useable without a compiler, or without L<FFI::Platypus> (for example, if the library is provided by the system, and you are using L<FFI::Platypus>, or if you are building from source and you are using C<XS>), so tests with missing prerequisites are automatically skipped. For example, L</xs_ok> will automatically skip itself if a compiler is not found, and L</ffi_ok> will automatically skip itself if L<FFI::Platypus> is not installed. =head1 FUNCTIONS =head2 alien_ok alien_ok $alien, $message; alien_ok $alien; Load the given L<Alien> instance or class. Checks that the instance or class conforms to the same interface as L<Alien::Base>. Will be used by subsequent tests. The C<$alien> module only needs to provide these methods in order to conform to the L<Alien::Base> interface: =over 4 =item cflags String containing the compiler flags =item libs String containing the linker and library flags =item dynamic_libs List of dynamic libraries. Returns empty list if the L<Alien> module does not provide this. =item bin_dir Directory containing tool binaries. Returns empty list if the L<Alien> module does not provide this. =back If your L<Alien> module does not conform to this interface then you can create a synthetic L<Alien> module using the L</synthetic> function. =head2 synthetic my $alien = synthetic \%config; Create a synthetic L<Alien> module which can be passed into L</alien_ok>. C<\%config> can contain these keys (all of which are optional): =over 4 =item cflags String containing the compiler flags. =item cflags_static String containing the static compiler flags (optional). =item libs String containing the linker and library flags. =item libs_static String containing the static linker flags (optional). =item dynamic_libs List reference containing the dynamic libraries. =item bin_dir Tool binary directory. =item runtime_prop Runtime properties. =back See L<Test::Alien::Synthetic> for more details. =head2 run_ok my $run = run_ok $command; my $run = run_ok $command, $message; Runs the given command, falling back on any C<Alien::Base#bin_dir> methods provided by L<Alien> modules specified with L</alien_ok>. C<$command> can be either a string or an array reference. Only fails if the command cannot be found, or if it is killed by a signal! Returns a L<Test::Alien::Run> object, which you can use to test the exit status, output and standard error. Always returns an instance of L<Test::Alien::Run>, even if the command could not be found. =head2 xs_ok xs_ok $xs; xs_ok $xs, $message; Compiles, links the given C<XS> code and attaches to Perl. If you use the special module name C<TA_MODULE> in your C<XS> code, it will be replaced by an automatically generated package name. This can be useful if you want to pass the same C<XS> code to multiple calls to C<xs_ok> without subsequent calls replacing previous ones. C<$xs> may be either a string containing the C<XS> code, or a hash reference with these keys: =over 4 =item xs The XS code. This is the only required element. =item pxs Extra L<ExtUtils::ParseXS> arguments passed in as a hash reference. =item cbuilder_check The compile check that should be done prior to attempting to build. Should be one of C<have_compiler> or C<have_cplusplus>. Defaults to C<have_compiler>. =item cbuilder_config Hash to override values normally provided by C<Config>. =item cbuilder_compile Extra The L<ExtUtils::CBuilder> arguments passed in as a hash reference. =item cbuilder_link Extra The L<ExtUtils::CBuilder> arguments passed in as a hash reference. =item verbose Spew copious debug information via test note. =back You can use the C<with_subtest> keyword to conditionally run a subtest if the C<xs_ok> call succeeds. If C<xs_ok> does not work, then the subtest will automatically be skipped. Example: xs_ok $xs, with_subtest { # skipped if $xs fails for some reason my($module) = @_; is $module->foo, 1; }; The module name detected during the XS parsing phase will be passed in to the subtest. This is helpful when you are using a generated module name. If you need to test XS C++ interfaces, see L<Test::Alien::CPP>. =head2 ffi_ok ffi_ok; ffi_ok \%opt; ffi_ok \%opt, $message; Test that L<FFI::Platypus> works. C<\%opt> is a hash reference with these keys (all optional): =over 4 =item symbols List references of symbols that must be found for the test to succeed. =item ignore_not_found Ignores symbols that aren't found. This affects functions accessed via L<FFI::Platypus#attach> and L<FFI::Platypus#function> methods, and does not influence the C<symbols> key above. =item lang Set the language. Used primarily for language specific native types. =item api Set the API. C<api = 1> requires FFI::Platypus 0.99 or later. This option was added with Test::Alien version 1.90, so your use line should include this version as a safeguard to make sure it works: use Test::Alien 1.90; ... ffi_ok ...; =back As with L</xs_ok> above, you can use the C<with_subtest> keyword to specify a subtest to be run if C<ffi_ok> succeeds (it will skip otherwise). The L<FFI::Platypus> instance is passed into the subtest as the first argument. For example: ffi_ok with_subtest { my($ffi) = @_; is $ffi->function(foo => [] => 'void')->call, 42; }; =head2 helper_ok helper_ok $name; helper_ok $name, $message; Tests that the given helper has been defined. =head2 interpolate_template_is interpolate_template_is $template, $string; interpolate_template_is $template, $string, $message; interpolate_template_is $template, $regex; interpolate_template_is $template, $regex, $message; Tests that the given template when evaluated with the appropriate helpers will match either the given string or regular expression. =head1 SEE ALSO =over 4 =item L<Alien> =item L<Alien::Base> =item L<Alien::Build> =item L<alienfile> =item L<Test2> =item L<Test::Alien::Run> =item L<Test::Alien::CanCompile> =item L<Test::Alien::CanPlatypus> =item L<Test::Alien::Synthetic> =item L<Test::Alien::CPP> =back =head1 AUTHOR Author: Graham Ollis E<lt>plicease@cpan.orgE<gt> Contributors: Diab Jerius (DJERIUS) Roy Storey (KIWIROY) Ilya Pavlov David Mertens (run4flat) Mark Nunberg (mordy, mnunberg) Christian Walde (Mithaldu) Brian Wightman (MidLifeXis) Zaki Mughal (zmughal) mohawk (mohawk2, ETJ) Vikas N Kumar (vikasnkumar) Flavio Poletti (polettix) Salvador Fandiño (salva) Gianni Ceccarelli (dakkar) Pavel Shaydo (zwon, trinitum) Kang-min Liu (劉康民, gugod) Nicholas Shipp (nshp) Juan Julián Merelo Guervós (JJ) Joel Berger (JBERGER) Petr Pisar (ppisar) Lance Wicks (LANCEW) Ahmad Fatoum (a3f, ATHREEF) José Joaquín Atria (JJATRIA) Duke Leto (LETO) Shoichi Kaji (SKAJI) Shawn Laffan (SLAFFAN) Paul Evans (leonerd, PEVANS) Håkon Hægland (hakonhagland, HAKONH) =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2011-2020 by Graham Ollis. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut