c10d1bc81c
Reviewed-by: Rich Salz <rsalz@openssl.org>
818 lines
20 KiB
Perl
818 lines
20 KiB
Perl
package OpenSSL::Test;
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use strict;
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use warnings;
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use Test::More 0.96;
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use Exporter;
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use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS);
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$VERSION = "0.7";
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@ISA = qw(Exporter);
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@EXPORT = (@Test::More::EXPORT, qw(setup indir app perlapp test perltest run));
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@EXPORT_OK = (@Test::More::EXPORT_OK, qw(top_dir top_file pipe with cmdstr
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quotify));
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=head1 NAME
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OpenSSL::Test - a private extension of Test::More
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=head1 SYNOPSIS
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use OpenSSL::Test;
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setup("my_test_name");
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ok(run(app(["openssl", "version"])), "check for openssl presence");
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indir "subdir" => sub {
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ok(run(test(["sometest", "arg1"], stdout => "foo.txt")),
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"run sometest with output to foo.txt");
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};
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=head1 DESCRIPTION
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This module is a private extension of L<Test::More> for testing OpenSSL.
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In addition to the Test::More functions, it also provides functions that
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easily find the diverse programs within a OpenSSL build tree, as well as
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some other useful functions.
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This module I<depends> on the environment variable C<$TOP>. Without it,
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it refuses to work. See L</ENVIRONMENT> below.
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=cut
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use File::Copy;
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use File::Spec::Functions qw/file_name_is_absolute curdir canonpath splitdir
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catdir catfile splitpath catpath devnull abs2rel
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rel2abs/;
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use File::Path 2.00 qw/remove_tree mkpath/;
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# The name of the test. This is set by setup() and is used in the other
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# functions to verify that setup() has been used.
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my $test_name = undef;
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# Directories we want to keep track of TOP, APPS, TEST and RESULTS are the
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# ones we're interested in, corresponding to the environment variables TOP
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# (mandatory), BIN_D, TEST_D and RESULT_D.
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my %directories = ();
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# A bool saying if we shall stop all testing if the current recipe has failing
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# tests or not. This is set by setup() if the environment variable STOPTEST
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# is defined with a non-empty value.
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my $end_with_bailout = 0;
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# A set of hooks that is affected by with() and may be used in diverse places.
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# All hooks are expected to be CODE references.
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my %hooks = (
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# exit_checker is used by run() directly after completion of a command.
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# it receives the exit code from that command and is expected to return
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# 1 (for success) or 0 (for failure). This is the value that will be
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# returned by run().
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# NOTE: When run() gets the option 'capture => 1', this hook is ignored.
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exit_checker => sub { return shift == 0 ? 1 : 0 },
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);
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# Debug flag, to be set manually when needed
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my $debug = 0;
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# Declare some utility functions that are defined at the end
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sub top_file;
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sub top_dir;
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sub quotify;
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# Declare some private functions that are defined at the end
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sub __env;
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sub __cwd;
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sub __apps_file;
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sub __results_file;
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sub __test_log;
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sub __fixup_cmd;
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sub __build_cmd;
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=head2 Main functions
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The following functions are exported by default when using C<OpenSSL::Test>.
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=cut
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=over 4
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=item B<setup "NAME">
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C<setup> is used for initial setup, and it is mandatory that it's used.
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If it's not used in a OpenSSL test recipe, the rest of the recipe will
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most likely refuse to run.
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C<setup> checks for environment variables (see L</ENVIRONMENT> below),
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check that C<$TOP/Configure> exists, C<chdir> into the results directory
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(defined by the C<$RESULT_D> environment variable if defined, otherwise
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C<$TEST_D> if defined, otherwise C<$TOP/test>).
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=back
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=cut
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sub setup {
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$test_name = shift;
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BAIL_OUT("setup() must receive a name") unless $test_name;
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BAIL_OUT("setup() needs \$TOP to be defined") unless $ENV{TOP};
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__env();
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BAIL_OUT("setup() expects the file Configure in the \$TOP directory")
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unless -f top_file("Configure");
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__cwd($directories{RESULTS});
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# Loop in case we're on a platform with more than one file generation
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1 while unlink(__test_log());
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}
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=over 4
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=item B<indir "SUBDIR" =E<gt> sub BLOCK, OPTS>
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C<indir> is used to run a part of the recipe in a different directory than
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the one C<setup> moved into, usually a subdirectory, given by SUBDIR.
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The part of the recipe that's run there is given by the codeblock BLOCK.
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C<indir> takes some additional options OPTS that affect the subdirectory:
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=over 4
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=item B<create =E<gt> 0|1>
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When set to 1 (or any value that perl preceives as true), the subdirectory
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will be created if it doesn't already exist. This happens before BLOCK
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is executed.
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=item B<cleanup =E<gt> 0|1>
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When set to 1 (or any value that perl preceives as true), the subdirectory
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will be cleaned out and removed. This happens both before and after BLOCK
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is executed.
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=back
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An example:
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indir "foo" => sub {
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ok(run(app(["openssl", "version"]), stdout => "foo.txt"));
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if (ok(open(RESULT, "foo.txt"), "reading foo.txt")) {
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my $line = <RESULT>;
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close RESULT;
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is($line, qr/^OpenSSL 1\./,
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"check that we're using OpenSSL 1.x.x");
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}
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}, create => 1, cleanup => 1;
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=back
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=cut
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sub indir {
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my $subdir = shift;
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my $codeblock = shift;
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my %opts = @_;
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my $reverse = __cwd($subdir,%opts);
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BAIL_OUT("FAILURE: indir, \"$subdir\" wasn't possible to move into")
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unless $reverse;
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$codeblock->();
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__cwd($reverse);
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if ($opts{cleanup}) {
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remove_tree($subdir, { safe => 0 });
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}
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}
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=over 4
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=item B<app ARRAYREF, OPTS>
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=item B<test ARRAYREF, OPTS>
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Both of these functions take a reference to a list that is a command and
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its arguments, and some additional options (described further on).
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C<app> expects to find the given command (the first item in the given list
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reference) as an executable in C<$BIN_D> (if defined, otherwise C<$TOP/apps>).
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C<test> expects to find the given command (the first item in the given list
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reference) as an executable in C<$TEST_D> (if defined, otherwise C<$TOP/test>).
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Both return a CODEREF to be used by C<run>, C<pipe> or C<cmdstr>.
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The options that both C<app> and C<test> can take are in the form of hash
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values:
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=over 4
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=item B<stdin =E<gt> PATH>
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=item B<stdout =E<gt> PATH>
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=item B<stderr =E<gt> PATH>
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In all three cases, the corresponding standard input, output or error is
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redirected from (for stdin) or to (for the others) a file given by the
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string PATH, I<or>, if the value is C<undef>, C</dev/null> or similar.
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=back
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=item B<perlapp ARRAYREF, OPTS>
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=item B<perltest ARRAYREF, OPTS>
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Both these functions function the same way as B<app> and B<test>, except
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that they expect the command to be a perl script.
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=back
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=cut
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sub app {
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my $cmd = shift;
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my %opts = @_;
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return sub { my $num = shift;
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return __build_cmd($num, \&__apps_file, $cmd, %opts); }
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}
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sub test {
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my $cmd = shift;
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my %opts = @_;
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return sub { my $num = shift;
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return __build_cmd($num, \&__test_file, $cmd, %opts); }
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}
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sub perlapp {
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my $cmd = shift;
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my %opts = @_;
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return sub { my $num = shift;
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return __build_cmd($num, \&__perlapps_file, $cmd, %opts); }
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}
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sub perltest {
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my $cmd = shift;
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my %opts = @_;
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return sub { my $num = shift;
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return __build_cmd($num, \&__perltest_file, $cmd, %opts); }
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}
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=over 4
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=item B<run CODEREF, OPTS>
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This CODEREF is expected to be the value return by C<app> or C<test>,
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anything else will most likely cause an error unless you know what you're
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doing.
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C<run> executes the command returned by CODEREF and return either the
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resulting output (if the option C<capture> is set true) or a boolean indicating
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if the command succeeded or not.
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The options that C<run> can take are in the form of hash values:
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=over 4
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=item B<capture =E<gt> 0|1>
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If true, the command will be executed with a perl backtick, and C<run> will
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return the resulting output as an array of lines. If false or not given,
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the command will be executed with C<system()>, and C<run> will return 1 if
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the command was successful or 0 if it wasn't.
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=back
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For further discussion on what is considered a successful command or not, see
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the function C<with> further down.
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=back
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=cut
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sub run {
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my ($cmd, $display_cmd, %errlogs) = shift->(0);
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my %opts = @_;
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return () if !$cmd;
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my $prefix = "";
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if ( $^O eq "VMS" ) { # VMS
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$prefix = "pipe ";
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}
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my @r = ();
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my $r = 0;
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my $e = 0;
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if ($opts{capture}) {
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@r = `$prefix$cmd`;
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$e = $? >> 8;
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} else {
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system("$prefix$cmd");
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$e = $? >> 8;
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$r = $hooks{exit_checker}->($e);
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}
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# At this point, $? stops being interesting, and unfortunately,
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# there are Test::More versions that get picky if we leave it
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# non-zero.
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$? = 0;
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open ERR, ">>", __test_log();
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{ local $| = 1; print ERR "$display_cmd => $e\n"; }
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foreach (keys %errlogs) {
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copy($_,\*ERR);
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copy($_,$errlogs{$_}) if defined($errlogs{$_});
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unlink($_);
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}
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close ERR;
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if ($opts{capture}) {
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return @r;
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} else {
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return $r;
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}
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}
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END {
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my $tb = Test::More->builder;
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my $failure = scalar(grep { $_ == 0; } $tb->summary);
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if ($failure && $end_with_bailout) {
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BAIL_OUT("Stoptest!");
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}
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}
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=head2 Utility functions
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The following functions are exported on request when using C<OpenSSL::Test>.
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# To only get the top_file function.
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use OpenSSL::Test qw/top_file/;
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# To only get the top_file function in addition to the default ones.
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use OpenSSL::Test qw/:DEFAULT top_file/;
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=cut
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# Utility functions, exported on request
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=over 4
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=item B<top_dir LIST>
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LIST is a list of directories that make up a path from the top of the OpenSSL
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source directory (as indicated by the environment variable C<$TOP>).
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C<top_dir> returns the resulting directory as a string, adapted to the local
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operating system.
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=back
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=cut
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sub top_dir {
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return __top_dir(@_); # This caters for operating systems that have
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# a very distinct syntax for directories.
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}
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=over 4
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=item B<top_file LIST, FILENAME>
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LIST is a list of directories that make up a path from the top of the OpenSSL
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source directory (as indicated by the environment variable C<$TOP>) and
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FILENAME is the name of a file located in that directory path.
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C<top_file> returns the resulting file path as a string, adapted to the local
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operating system.
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=back
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=cut
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sub top_file {
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return __top_file(@_);
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}
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=over 4
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=item B<pipe LIST>
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LIST is a list of CODEREFs returned by C<app> or C<test>, from which C<pipe>
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creates a new command composed of all the given commands put together in a
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pipe. C<pipe> returns a new CODEREF in the same manner as C<app> or C<test>,
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to be passed to C<run> for execution.
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=back
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=cut
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sub pipe {
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my @cmds = @_;
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return
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sub {
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my @cs = ();
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my @dcs = ();
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my @els = ();
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my $counter = 0;
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foreach (@cmds) {
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my ($c, $dc, @el) = $_->(++$counter);
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return () if !$c;
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push @cs, $c;
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push @dcs, $dc;
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push @els, @el;
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}
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return (
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join(" | ", @cs),
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join(" | ", @dcs),
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@els
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);
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};
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}
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=over 4
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=item B<with HASHREF, CODEREF>
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C<with> will temporarly install hooks given by the HASHREF and then execute
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the given CODEREF. Hooks are usually expected to have a coderef as value.
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The currently available hoosk are:
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=over 4
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=item B<exit_checker =E<gt> CODEREF>
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This hook is executed after C<run> has performed its given command. The
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CODEREF receives the exit code as only argument and is expected to return
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1 (if the exit code indicated success) or 0 (if the exit code indicated
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failure).
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=back
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=back
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=cut
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sub with {
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my $opts = shift;
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my %opts = %{$opts};
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my $codeblock = shift;
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my %saved_hooks = ();
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foreach (keys %opts) {
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$saved_hooks{$_} = $hooks{$_} if exists($hooks{$_});
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$hooks{$_} = $opts{$_};
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}
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$codeblock->();
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foreach (keys %saved_hooks) {
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$hooks{$_} = $saved_hooks{$_};
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}
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}
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=over 4
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=item B<cmdstr CODEREF>
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C<cmdstr> takes a CODEREF from C<app> or C<test> and simply returns the
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command as a string.
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=back
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=cut
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sub cmdstr {
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my ($cmd, $display_cmd, %errlogs) = shift->(0);
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return $display_cmd;
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}
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=over 4
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=item B<quotify LIST>
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LIST is a list of strings that are going to be used as arguments for a
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command, and makes sure to inject quotes and escapes as necessary depending
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on the content of each string.
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This can also be used to put quotes around the executable of a command.
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I<This must never ever be done on VMS.>
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=back
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=cut
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sub quotify {
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# Unix setup (default if nothing else is mentioned)
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my $arg_formatter =
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sub { $_ = shift; /\s|[\{\}\\\$\[\]\*\?\|\&:;<>]/ ? "'$_'" : $_ };
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if ( $^O eq "VMS") { # VMS setup
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$arg_formatter = sub {
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$_ = shift;
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if (/\s|["[:upper:]]/) {
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s/"/""/g;
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'"'.$_.'"';
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} else {
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$_;
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}
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};
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} elsif ( $^O eq "MSWin32") { # MSWin setup
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$arg_formatter = sub {
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$_ = shift;
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if (/\s|["\|\&\*\;<>]/) {
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s/(["\\])/\\$1/g;
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'"'.$_.'"';
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} else {
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$_;
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}
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};
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}
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return map { $arg_formatter->($_) } @_;
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}
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######################################################################
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# private functions. These are never exported.
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=head1 ENVIRONMENT
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OpenSSL::Test depends on some environment variables.
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=over 4
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=item B<TOP>
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This environment variable is mandatory. C<setup> will check that it's
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defined and that it's a directory that contains the file C<Configure>.
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If this isn't so, C<setup> will C<BAIL_OUT>.
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=item B<BIN_D>
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If defined, its value should be the directory where the openssl application
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is located. Defaults to C<$TOP/apps> (adapted to the operating system).
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=item B<TEST_D>
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If defined, its value should be the directory where the test applications
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are located. Defaults to C<$TOP/test> (adapted to the operating system).
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=item B<RESULT_D>
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If defined, its value should be the directory where the log files are
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located. Defaults to C<$TEST_D>.
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=item B<STOPTEST>
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If defined, it puts testing in a different mode, where a recipe with
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failures will result in a C<BAIL_OUT> at the end of its run.
|
|
|
|
=back
|
|
|
|
=cut
|
|
|
|
sub __env {
|
|
$directories{TOP} = $ENV{TOP},
|
|
$directories{APPS} = $ENV{BIN_D} || catdir($directories{TOP},"apps");
|
|
$directories{TEST} = $ENV{TEST_D} || catdir($directories{TOP},"test");
|
|
$directories{RESULTS} = $ENV{RESULT_D} || $directories{TEST};
|
|
|
|
$end_with_bailout = $ENV{STOPTEST} ? 1 : 0;
|
|
};
|
|
|
|
sub __top_file {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
my $f = pop;
|
|
return catfile($directories{TOP},@_,$f);
|
|
}
|
|
|
|
sub __top_dir {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
return catdir($directories{TOP},@_);
|
|
}
|
|
|
|
sub __test_file {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
my $f = pop;
|
|
return catfile($directories{TEST},@_,$f);
|
|
}
|
|
|
|
sub __perltest_file {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
my $f = pop;
|
|
return ($^X, catfile($directories{TEST},@_,$f));
|
|
}
|
|
|
|
sub __apps_file {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
my $f = pop;
|
|
return catfile($directories{APPS},@_,$f);
|
|
}
|
|
|
|
sub __perlapps_file {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
my $f = pop;
|
|
return ($^X, catfile($directories{APPS},@_,$f));
|
|
}
|
|
|
|
sub __results_file {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
my $f = pop;
|
|
return catfile($directories{RESULTS},@_,$f);
|
|
}
|
|
|
|
sub __test_log {
|
|
return __results_file("$test_name.log");
|
|
}
|
|
|
|
sub __cwd {
|
|
my $dir = catdir(shift);
|
|
my %opts = @_;
|
|
my $abscurdir = rel2abs(curdir());
|
|
my $absdir = rel2abs($dir);
|
|
my $reverse = abs2rel($abscurdir, $absdir);
|
|
|
|
# PARANOIA: if we're not moving anywhere, we do nothing more
|
|
if ($abscurdir eq $absdir) {
|
|
return $reverse;
|
|
}
|
|
|
|
# Do not support a move to a different volume for now. Maybe later.
|
|
BAIL_OUT("FAILURE: \"$dir\" moves to a different volume, not supported")
|
|
if $reverse eq $abscurdir;
|
|
|
|
# If someone happened to give a directory that leads back to the current,
|
|
# it's extremely silly to do anything more, so just simulate that we did
|
|
# move.
|
|
# In this case, we won't even clean it out, for safety's sake.
|
|
return "." if $reverse eq "";
|
|
|
|
$dir = canonpath($dir);
|
|
if ($opts{create}) {
|
|
mkpath($dir);
|
|
}
|
|
|
|
# Should we just bail out here as well? I'm unsure.
|
|
return undef unless chdir($dir);
|
|
|
|
if ($opts{cleanup}) {
|
|
remove_tree(".", { safe => 0, keep_root => 1 });
|
|
}
|
|
|
|
# For each of these directory variables, figure out where they are relative
|
|
# to the directory we want to move to if they aren't absolute (if they are,
|
|
# they don't change!)
|
|
my @dirtags = ("TOP", "TEST", "APPS", "RESULTS");
|
|
foreach (@dirtags) {
|
|
if (!file_name_is_absolute($directories{$_})) {
|
|
my $newpath = abs2rel(rel2abs($directories{$_}), rel2abs($dir));
|
|
$directories{$_} = $newpath;
|
|
}
|
|
}
|
|
|
|
if ($debug) {
|
|
print STDERR "DEBUG: __cwd(), directories and files:\n";
|
|
print STDERR " \$directories{TEST} = \"$directories{TEST}\"\n";
|
|
print STDERR " \$directories{RESULTS} = \"$directories{RESULTS}\"\n";
|
|
print STDERR " \$directories{APPS} = \"$directories{APPS}\"\n";
|
|
print STDERR " \$directories{TOP} = \"$directories{TOP}\"\n";
|
|
print STDERR " \$test_log = \"",__test_log(),"\"\n";
|
|
print STDERR "\n";
|
|
print STDERR " current directory is \"",curdir(),"\"\n";
|
|
print STDERR " the way back is \"$reverse\"\n";
|
|
}
|
|
|
|
return $reverse;
|
|
}
|
|
|
|
sub __fixup_cmd {
|
|
my $prog = shift;
|
|
my $exe_shell = shift;
|
|
|
|
my $prefix = __top_file("util", "shlib_wrap.sh")." ";
|
|
my $ext = $ENV{"EXE_EXT"} || "";
|
|
|
|
if (defined($exe_shell)) {
|
|
$prefix = "$exe_shell ";
|
|
} elsif ($^O eq "VMS" ) { # VMS
|
|
$prefix = ($prog =~ /^(?:[\$a-z0-9_]+:)?[<\[]/i ? "mcr " : "mcr []");
|
|
$ext = ".exe";
|
|
} elsif ($^O eq "MSWin32") { # Windows
|
|
$prefix = "";
|
|
$ext = ".exe";
|
|
}
|
|
|
|
# We test both with and without extension. The reason
|
|
# is that we might be passed a complete file spec, with
|
|
# extension.
|
|
if ( ! -x $prog ) {
|
|
my $prog = "$prog$ext";
|
|
if ( ! -x $prog ) {
|
|
$prog = undef;
|
|
}
|
|
}
|
|
|
|
if (defined($prog)) {
|
|
# Make sure to quotify the program file on platforms that may
|
|
# have spaces or similar in their path name.
|
|
# To our knowledge, VMS is the exception where quotifying should
|
|
# never happem.
|
|
($prog) = quotify($prog) unless $^O eq "VMS";
|
|
return $prefix.$prog;
|
|
}
|
|
|
|
print STDERR "$prog not found\n";
|
|
return undef;
|
|
}
|
|
|
|
sub __build_cmd {
|
|
BAIL_OUT("Must run setup() first") if (! $test_name);
|
|
|
|
my $num = shift;
|
|
my $path_builder = shift;
|
|
# Make a copy to not destroy the caller's array
|
|
my @cmdarray = ( @{$_[0]} ); shift;
|
|
|
|
# We do a little dance, as $path_builder might return a list of
|
|
# more than one. If so, only the first is to be considered a
|
|
# program to fix up, the rest is part of the arguments. This
|
|
# happens for perl scripts, where $path_builder will return
|
|
# a list of two, $^X and the script name.
|
|
# Also, if $path_builder returned more than one, we don't apply
|
|
# the EXE_SHELL environment variable.
|
|
my @prog = ($path_builder->(shift @cmdarray));
|
|
my $first = shift @prog;
|
|
my $exe_shell = @prog ? undef : $ENV{EXE_SHELL};
|
|
my $cmd = __fixup_cmd($first, $exe_shell);
|
|
if (@prog) {
|
|
if ( ! -f $prog[0] ) {
|
|
print STDERR "$prog[0] not found\n";
|
|
$cmd = undef;
|
|
}
|
|
}
|
|
my @args = (@prog, @cmdarray);
|
|
|
|
my %opts = @_;
|
|
|
|
return () if !$cmd;
|
|
|
|
my $arg_str = "";
|
|
my $null = devnull();
|
|
|
|
|
|
$arg_str = " ".join(" ", quotify @args) if @args;
|
|
|
|
my $fileornull = sub { $_[0] ? $_[0] : $null; };
|
|
my $stdin = "";
|
|
my $stdout = "";
|
|
my $stderr = "";
|
|
my $saved_stderr = undef;
|
|
$stdin = " < ".$fileornull->($opts{stdin}) if exists($opts{stdin});
|
|
$stdout= " > ".$fileornull->($opts{stdout}) if exists($opts{stdout});
|
|
$stderr=" 2> ".$fileornull->($opts{stderr}) if exists($opts{stderr});
|
|
|
|
$saved_stderr = $opts{stderr} if defined($opts{stderr});
|
|
|
|
my $errlog =
|
|
__results_file($num ? "$test_name.$num.tmp_err" : "$test_name.tmp_err");
|
|
my $display_cmd = "$cmd$arg_str$stdin$stdout$stderr";
|
|
$cmd .= "$arg_str$stdin$stdout 2> $errlog";
|
|
|
|
if ($debug) {
|
|
print STDERR "DEBUG[__build_cmd]: \$cmd = \"$cmd\"\n";
|
|
print STDERR "DEBUG[__build_cmd]: \$display_cmd = \"$display_cmd\"\n";
|
|
}
|
|
|
|
return ($cmd, $display_cmd, $errlog => $saved_stderr);
|
|
}
|
|
|
|
=head1 SEE ALSO
|
|
|
|
L<Test::More>, L<Test::Harness>
|
|
|
|
=head1 AUTHORS
|
|
|
|
Richard Levitte E<lt>levitte@openssl.orgE<gt> with assitance and
|
|
inspiration from Andy Polyakov E<lt>appro@openssl.org<gt>.
|
|
|
|
=cut
|
|
|
|
1;
|