package OpenSSL::Test; use strict; use warnings; use Test::More 0.96; use Exporter; use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS); $VERSION = "0.8"; @ISA = qw(Exporter); @EXPORT = (@Test::More::EXPORT, qw(setup indir app perlapp test perltest run)); @EXPORT_OK = (@Test::More::EXPORT_OK, qw(bldtop_dir bldtop_file srctop_dir srctop_file pipe with cmdstr quotify)); =head1 NAME OpenSSL::Test - a private extension of Test::More =head1 SYNOPSIS use OpenSSL::Test; setup("my_test_name"); ok(run(app(["openssl", "version"])), "check for openssl presence"); indir "subdir" => sub { ok(run(test(["sometest", "arg1"], stdout => "foo.txt")), "run sometest with output to foo.txt"); }; =head1 DESCRIPTION This module is a private extension of L for testing OpenSSL. In addition to the Test::More functions, it also provides functions that easily find the diverse programs within a OpenSSL build tree, as well as some other useful functions. This module I on the environment variables C<$TOP> or C<$SRCTOP> and C<$BLDTOP>. Without one of the combinations it refuses to work. See L below. =cut use File::Copy; use File::Spec::Functions qw/file_name_is_absolute curdir canonpath splitdir catdir catfile splitpath catpath devnull abs2rel rel2abs/; use File::Path 2.00 qw/rmtree mkpath/; # The name of the test. This is set by setup() and is used in the other # functions to verify that setup() has been used. my $test_name = undef; # Directories we want to keep track of TOP, APPS, TEST and RESULTS are the # ones we're interested in, corresponding to the environment variables TOP # (mandatory), BIN_D, TEST_D, UTIL_D and RESULT_D. my %directories = (); # A bool saying if we shall stop all testing if the current recipe has failing # tests or not. This is set by setup() if the environment variable STOPTEST # is defined with a non-empty value. my $end_with_bailout = 0; # A set of hooks that is affected by with() and may be used in diverse places. # All hooks are expected to be CODE references. my %hooks = ( # exit_checker is used by run() directly after completion of a command. # it receives the exit code from that command and is expected to return # 1 (for success) or 0 (for failure). This is the value that will be # returned by run(). # NOTE: When run() gets the option 'capture => 1', this hook is ignored. exit_checker => sub { return shift == 0 ? 1 : 0 }, ); # Debug flag, to be set manually when needed my $debug = 0; # Declare some utility functions that are defined at the end sub bldtop_file; sub bldtop_dir; sub srctop_file; sub srctop_dir; sub quotify; # Declare some private functions that are defined at the end sub __env; sub __cwd; sub __apps_file; sub __results_file; sub __fixup_cmd; sub __build_cmd; =head2 Main functions The following functions are exported by default when using C. =cut =over 4 =item B C is used for initial setup, and it is mandatory that it's used. If it's not used in a OpenSSL test recipe, the rest of the recipe will most likely refuse to run. C checks for environment variables (see L below), checks that C<$TOP/Configure> or C<$SRCTOP/Configure> exists, C into the results directory (defined by the C<$RESULT_D> environment variable if defined, otherwise C<$BLDTOP/test> or C<$TOP/test>, whichever is defined). =back =cut sub setup { my $old_test_name = $test_name; $test_name = shift; BAIL_OUT("setup() must receive a name") unless $test_name; warn "setup() detected test name change. Innocuous, so we continue...\n" if $old_test_name && $old_test_name ne $test_name; return if $old_test_name; BAIL_OUT("setup() needs \$TOP or \$SRCTOP and \$BLDTOP to be defined") unless $ENV{TOP} || ($ENV{SRCTOP} && $ENV{BLDTOP}); BAIL_OUT("setup() found both \$TOP and \$SRCTOP or \$BLDTOP...") if $ENV{TOP} && ($ENV{SRCTOP} || $ENV{BLDTOP}); __env(); BAIL_OUT("setup() expects the file Configure in the source top directory") unless -f srctop_file("Configure"); __cwd($directories{RESULTS}); } =over 4 =item B sub BLOCK, OPTS> C is used to run a part of the recipe in a different directory than the one C moved into, usually a subdirectory, given by SUBDIR. The part of the recipe that's run there is given by the codeblock BLOCK. C takes some additional options OPTS that affect the subdirectory: =over 4 =item B 0|1> When set to 1 (or any value that perl preceives as true), the subdirectory will be created if it doesn't already exist. This happens before BLOCK is executed. =item B 0|1> When set to 1 (or any value that perl preceives as true), the subdirectory will be cleaned out and removed. This happens both before and after BLOCK is executed. =back An example: indir "foo" => sub { ok(run(app(["openssl", "version"]), stdout => "foo.txt")); if (ok(open(RESULT, "foo.txt"), "reading foo.txt")) { my $line = ; close RESULT; is($line, qr/^OpenSSL 1\./, "check that we're using OpenSSL 1.x.x"); } }, create => 1, cleanup => 1; =back =cut sub indir { my $subdir = shift; my $codeblock = shift; my %opts = @_; my $reverse = __cwd($subdir,%opts); BAIL_OUT("FAILURE: indir, \"$subdir\" wasn't possible to move into") unless $reverse; $codeblock->(); __cwd($reverse); if ($opts{cleanup}) { rmtree($subdir, { safe => 0 }); } } =over 4 =item B =item B Both of these functions take a reference to a list that is a command and its arguments, and some additional options (described further on). C expects to find the given command (the first item in the given list reference) as an executable in C<$BIN_D> (if defined, otherwise C<$TOP/apps> or C<$BLDTOP/apps>). C expects to find the given command (the first item in the given list reference) as an executable in C<$TEST_D> (if defined, otherwise C<$TOP/test> or C<$BLDTOP/test>). Both return a CODEREF to be used by C, C or C. The options that both C and C can take are in the form of hash values: =over 4 =item B PATH> =item B PATH> =item B PATH> In all three cases, the corresponding standard input, output or error is redirected from (for stdin) or to (for the others) a file given by the string PATH, I, if the value is C, C or similar. =back =item B =item B Both these functions function the same way as B and B, except that they expect the command to be a perl script. =back =cut sub app { my $cmd = shift; my %opts = @_; return sub { my $num = shift; return __build_cmd($num, \&__apps_file, $cmd, %opts); } } sub test { my $cmd = shift; my %opts = @_; return sub { my $num = shift; return __build_cmd($num, \&__test_file, $cmd, %opts); } } sub perlapp { my $cmd = shift; my %opts = @_; return sub { my $num = shift; return __build_cmd($num, \&__perlapps_file, $cmd, %opts); } } sub perltest { my $cmd = shift; my %opts = @_; return sub { my $num = shift; return __build_cmd($num, \&__perltest_file, $cmd, %opts); } } =over 4 =item B This CODEREF is expected to be the value return by C or C, anything else will most likely cause an error unless you know what you're doing. C executes the command returned by CODEREF and return either the resulting output (if the option C is set true) or a boolean indicating if the command succeeded or not. The options that C can take are in the form of hash values: =over 4 =item B 0|1> If true, the command will be executed with a perl backtick, and C will return the resulting output as an array of lines. If false or not given, the command will be executed with C, and C will return 1 if the command was successful or 0 if it wasn't. =back For further discussion on what is considered a successful command or not, see the function C further down. =back =cut sub run { my ($cmd, $display_cmd) = shift->(0); my %opts = @_; return () if !$cmd; my $prefix = ""; if ( $^O eq "VMS" ) { # VMS $prefix = "pipe "; } my @r = (); my $r = 0; my $e = 0; if ($opts{capture}) { @r = `$prefix$cmd`; $e = $? >> 8; } else { system("$prefix$cmd"); $e = $? >> 8; $r = $hooks{exit_checker}->($e); } # At this point, $? stops being interesting, and unfortunately, # there are Test::More versions that get picky if we leave it # non-zero. $? = 0; if ($opts{capture}) { return @r; } else { return $r; } } END { my $tb = Test::More->builder; my $failure = scalar(grep { $_ == 0; } $tb->summary); if ($failure && $end_with_bailout) { BAIL_OUT("Stoptest!"); } } =head2 Utility functions The following functions are exported on request when using C. # To only get the bldtop_file and srctop_file functions. use OpenSSL::Test qw/bldtop_file srctop_file/; # To only get the bldtop_file function in addition to the default ones. use OpenSSL::Test qw/:DEFAULT bldtop_file/; =cut # Utility functions, exported on request =over 4 =item B LIST is a list of directories that make up a path from the top of the OpenSSL build directory (as indicated by the environment variable C<$TOP> or C<$BLDTOP>). C returns the resulting directory as a string, adapted to the local operating system. =back =cut sub bldtop_dir { return __bldtop_dir(@_); # This caters for operating systems that have # a very distinct syntax for directories. } =over 4 =item B LIST is a list of directories that make up a path from the top of the OpenSSL build directory (as indicated by the environment variable C<$TOP> or C<$BLDTOP>) and FILENAME is the name of a file located in that directory path. C returns the resulting file path as a string, adapted to the local operating system. =back =cut sub bldtop_file { return __bldtop_file(@_); } =over 4 =item B LIST is a list of directories that make up a path from the top of the OpenSSL source directory (as indicated by the environment variable C<$TOP> or C<$SRCTOP>). C returns the resulting directory as a string, adapted to the local operating system. =back =cut sub srctop_dir { return __srctop_dir(@_); # This caters for operating systems that have # a very distinct syntax for directories. } =over 4 =item B LIST is a list of directories that make up a path from the top of the OpenSSL source directory (as indicated by the environment variable C<$TOP> or C<$SRCTOP>) and FILENAME is the name of a file located in that directory path. C returns the resulting file path as a string, adapted to the local operating system. =back =cut sub srctop_file { return __srctop_file(@_); } =over 4 =item B LIST is a list of CODEREFs returned by C or C, from which C creates a new command composed of all the given commands put together in a pipe. C returns a new CODEREF in the same manner as C or C, to be passed to C for execution. =back =cut sub pipe { my @cmds = @_; return sub { my @cs = (); my @dcs = (); my @els = (); my $counter = 0; foreach (@cmds) { my ($c, $dc, @el) = $_->(++$counter); return () if !$c; push @cs, $c; push @dcs, $dc; push @els, @el; } return ( join(" | ", @cs), join(" | ", @dcs), @els ); }; } =over 4 =item B C will temporarly install hooks given by the HASHREF and then execute the given CODEREF. Hooks are usually expected to have a coderef as value. The currently available hoosk are: =over 4 =item B CODEREF> This hook is executed after C has performed its given command. The CODEREF receives the exit code as only argument and is expected to return 1 (if the exit code indicated success) or 0 (if the exit code indicated failure). =back =back =cut sub with { my $opts = shift; my %opts = %{$opts}; my $codeblock = shift; my %saved_hooks = (); foreach (keys %opts) { $saved_hooks{$_} = $hooks{$_} if exists($hooks{$_}); $hooks{$_} = $opts{$_}; } $codeblock->(); foreach (keys %saved_hooks) { $hooks{$_} = $saved_hooks{$_}; } } =over 4 =item B C takes a CODEREF from C or C and simply returns the command as a string. =back =cut sub cmdstr { my ($cmd, $display_cmd) = shift->(0); return $display_cmd; } =over 4 =item B LIST is a list of strings that are going to be used as arguments for a command, and makes sure to inject quotes and escapes as necessary depending on the content of each string. This can also be used to put quotes around the executable of a command. I =back =cut sub quotify { # Unix setup (default if nothing else is mentioned) my $arg_formatter = sub { $_ = shift; /\s|[\{\}\\\$\[\]\*\?\|\&:;<>]/ ? "'$_'" : $_ }; if ( $^O eq "VMS") { # VMS setup $arg_formatter = sub { $_ = shift; if (/\s|["[:upper:]]/) { s/"/""/g; '"'.$_.'"'; } else { $_; } }; } elsif ( $^O eq "MSWin32") { # MSWin setup $arg_formatter = sub { $_ = shift; if (/\s|["\|\&\*\;<>]/) { s/(["\\])/\\$1/g; '"'.$_.'"'; } else { $_; } }; } return map { $arg_formatter->($_) } @_; } ###################################################################### # private functions. These are never exported. =head1 ENVIRONMENT OpenSSL::Test depends on some environment variables. =over 4 =item B This environment variable is mandatory. C will check that it's defined and that it's a directory that contains the file C. If this isn't so, C will C. =item B If defined, its value should be the directory where the openssl application is located. Defaults to C<$TOP/apps> (adapted to the operating system). =item B If defined, its value should be the directory where the test applications are located. Defaults to C<$TOP/test> (adapted to the operating system). =item B If defined, it puts testing in a different mode, where a recipe with failures will result in a C at the end of its run. =back =cut sub __env { $directories{SRCTOP} = $ENV{SRCTOP} || $ENV{TOP}; $directories{BLDTOP} = $ENV{BLDTOP} || $ENV{TOP}; $directories{APPS} = $ENV{BIN_D} || __bldtop_dir("apps"); $directories{TEST} = $ENV{TEST_D} || __bldtop_dir("test"); $directories{RESULTS} = $ENV{RESULT_D} || $directories{TEST}; $end_with_bailout = $ENV{STOPTEST} ? 1 : 0; }; sub __srctop_file { BAIL_OUT("Must run setup() first") if (! $test_name); my $f = pop; return catfile($directories{SRCTOP},@_,$f); } sub __srctop_dir { BAIL_OUT("Must run setup() first") if (! $test_name); return catdir($directories{SRCTOP},@_); } sub __bldtop_file { BAIL_OUT("Must run setup() first") if (! $test_name); my $f = pop; return catfile($directories{BLDTOP},@_,$f); } sub __bldtop_dir { BAIL_OUT("Must run setup() first") if (! $test_name); return catdir($directories{BLDTOP},@_); } 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 __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}) { rmtree(".", { 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 = sort keys %directories; 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} = \"$directories{APPS}\"\n"; print STDERR " \$directories{SRCTOP} = \"$directories{SRCTOP}\"\n"; print STDERR " \$directories{BLDTOP} = \"$directories{BLDTOP}\"\n"; print STDERR "\n"; print STDERR " current directory is \"",curdir(),"\"\n"; print STDERR " the way back is \"$reverse\"\n"; } return $reverse; } sub __fixup_cmd { my $prog = shift; my $exe_shell = shift; my $prefix = __bldtop_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}); my $display_cmd = "$cmd$arg_str$stdin$stdout$stderr"; $stderr=" 2> ".$null unless $stderr || !$ENV{HARNESS_ACTIVE} || $ENV{HARNESS_VERBOSE}; $cmd .= "$arg_str$stdin$stdout$stderr"; if ($debug) { print STDERR "DEBUG[__build_cmd]: \$cmd = \"$cmd\"\n"; print STDERR "DEBUG[__build_cmd]: \$display_cmd = \"$display_cmd\"\n"; } return ($cmd, $display_cmd); } =head1 SEE ALSO L, L =head1 AUTHORS Richard Levitte Elevitte@openssl.orgE with assitance and inspiration from Andy Polyakov Eappro@openssl.org. =cut 1;