# Copyright 2016 The OpenSSL Project Authors. All Rights Reserved. # # Licensed under the OpenSSL license (the "License"). You may not use # this file except in compliance with the License. You can obtain a copy # in the file LICENSE in the source distribution or at # https://www.openssl.org/source/license.html package OpenSSL::Test; use strict; use warnings; use Test::More 0.96; use Exporter; use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS); $VERSION = "0.8"; @ISA = qw(Exporter); @EXPORT = (@Test::More::EXPORT, qw(setup run indir cmd app fuzz test perlapp perltest)); @EXPORT_OK = (@Test::More::EXPORT_OK, qw(bldtop_dir bldtop_file srctop_dir srctop_file pipe with cmdstr quotify)); =head1 NAME OpenSSL::Test - a private extension of Test::More =head1 SYNOPSIS use OpenSSL::Test; setup("my_test_name"); ok(run(app(["openssl", "version"])), "check for openssl presence"); indir "subdir" => sub { ok(run(test(["sometest", "arg1"], stdout => "foo.txt")), "run sometest with output to foo.txt"); }; =head1 DESCRIPTION This module is a private extension of L for testing OpenSSL. In addition to the Test::More functions, it also provides functions that easily find the diverse programs within a OpenSSL build tree, as well as some other useful functions. This module I on the environment variables C<$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 = (); # The environment variables that gave us the contents in %directories. These # get modified whenever we change directories, so that subprocesses can use # the values of those environment variables as well my @direnv = (); # 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 $debug = 0; =head2 Main functions The following functions are exported by default when using C. =cut =over 4 =item B C is used for initial setup, and it is mandatory that it's used. If it's not used in a OpenSSL test recipe, the rest of the recipe will most likely refuse to run. C checks for environment variables (see L below), checks that C<$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 This functions build up a platform dependent command based on the input. It takes a reference to a list that is the executable or script and its arguments, and some additional options (described further on). Where necessary, the command will be wrapped in a suitable environment to make sure the correct shared libraries are used (currently only on Unix). It returns a CODEREF to be used by C, C or C. The options that 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 of these are specific applications of C, with just a couple of small difference: 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>). Also, for both C and C, the command may be prefixed with the content of the environment variable C<$EXE_SHELL>, which is useful in case OpenSSL has been cross compiled. =item B =item B These are also specific applications of C, where the interpreter is predefined to be C, and they expect the script to be interpreted to reside in the same location as C and C. C and C will also take the following option: =over 4 =item B ARRAYref> The array reference is a set of arguments for the interpreter rather than the script. Take care so that none of them can be seen as a script! Flags and their eventual arguments only! =back An example: ok(run(perlapp(["foo.pl", "arg1"], interpreter_args => [ "-I", srctop_dir("test") ]))); =back =begin comment One might wonder over the complexity of C, C, C, ... with all the lazy evaluations and all that. The reason for this is that we want to make sure the directory in which those programs are found are correct at the time these commands are used. Consider the following code snippet: my $cmd = app(["openssl", ...]); indir "foo", sub { ok(run($cmd), "Testing foo") }; If there wasn't this lazy evaluation, the directory where C is found would be incorrect at the time C is called, because it was calculated before we moved into the directory "foo". =end comment =cut sub cmd { my $cmd = shift; my %opts = @_; return sub { my $num = shift; # Make a copy to not destroy the caller's array my @cmdargs = ( @$cmd ); my @prog = __wrap_cmd(shift @cmdargs, $opts{exe_shell} // ()); return __decorate_cmd($num, [ @prog, quotify(@cmdargs) ], %opts); } } sub app { my $cmd = shift; my %opts = @_; return sub { my @cmdargs = ( @{$cmd} ); my @prog = __fixup_prg(__apps_file(shift @cmdargs, __exeext())); return cmd([ @prog, @cmdargs ], exe_shell => $ENV{EXE_SHELL}, %opts) -> (shift); } } sub fuzz { my $cmd = shift; my %opts = @_; return sub { my @cmdargs = ( @{$cmd} ); my @prog = __fixup_prg(__fuzz_file(shift @cmdargs, __exeext())); return cmd([ @prog, @cmdargs ], exe_shell => $ENV{EXE_SHELL}, %opts) -> (shift); } } sub test { my $cmd = shift; my %opts = @_; return sub { my @cmdargs = ( @{$cmd} ); my @prog = __fixup_prg(__test_file(shift @cmdargs, __exeext())); return cmd([ @prog, @cmdargs ], exe_shell => $ENV{EXE_SHELL}, %opts) -> (shift); } } sub perlapp { my $cmd = shift; my %opts = @_; return sub { my @interpreter_args = defined $opts{interpreter_args} ? @{$opts{interpreter_args}} : (); my @interpreter = __fixup_prg($^X); my @cmdargs = ( @{$cmd} ); my @prog = __apps_file(shift @cmdargs, undef); return cmd([ @interpreter, @interpreter_args, @prog, @cmdargs ], %opts) -> (shift); } } sub perltest { my $cmd = shift; my %opts = @_; return sub { my @interpreter_args = defined $opts{interpreter_args} ? @{$opts{interpreter_args}} : (); my @interpreter = __fixup_prg($^X); my @cmdargs = ( @{$cmd} ); my @prog = __test_file(shift @cmdargs, undef); return cmd([ @interpreter, @interpreter_args, @prog, @cmdargs ], %opts) -> (shift); } } =over 4 =item B CODEREF is expected to be the value return by C or any of its derivatives, 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; # In non-verbose, we want to shut up the command interpreter, in case # it has something to complain about. On VMS, it might complain both # on stdout and stderr my $save_STDOUT; my $save_STDERR; if ($ENV{HARNESS_ACTIVE} && !$ENV{HARNESS_VERBOSE}) { open $save_STDOUT, '>&', \*STDOUT or die "Can't dup STDOUT: $!"; open $save_STDERR, '>&', \*STDERR or die "Can't dup STDERR: $!"; open STDOUT, ">", devnull(); open STDERR, ">", devnull(); } # The dance we do with $? is the same dance the Unix shells appear to # do. For example, a program that gets aborted (and therefore signals # SIGABRT = 6) will appear to exit with the code 134. We mimic this # to make it easier to compare with a manual run of the command. if ($opts{capture}) { @r = `$prefix$cmd`; $e = ($? & 0x7f) ? ($? & 0x7f)|0x80 : ($? >> 8); } else { system("$prefix$cmd"); $e = ($? & 0x7f) ? ($? & 0x7f)|0x80 : ($? >> 8); $r = $hooks{exit_checker}->($e); } if ($ENV{HARNESS_ACTIVE} && !$ENV{HARNESS_VERBOSE}) { close STDOUT; close STDERR; open STDOUT, '>&', $save_STDOUT or die "Can't restore STDOUT: $!"; open STDERR, '>&', $save_STDERR or die "Can't restore STDERR: $!"; } print STDERR "$prefix$display_cmd => $e\n" if !$ENV{HARNESS_ACTIVE} || $ENV{HARNESS_VERBOSE}; # 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. C takes some additiona options OPTS that affect the string returned: =over 4 =item B 0|1> When set to 0, the returned string will be with all decorations, such as a possible redirect of stderr to the null device. This is suitable if the string is to be used directly in a recipe. When set to 1, the returned string will be without extra decorations. This is suitable for display if that is desired (doesn't confuse people with all internal stuff), or if it's used to pass a command down to a subprocess. Default: 0 =back =back =cut sub cmdstr { my ($cmd, $display_cmd) = shift->(0); my %opts = @_; if ($opts{display}) { return $display_cmd; } else { return $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{BLDAPPS} = $ENV{BIN_D} || __bldtop_dir("apps"); $directories{SRCAPPS} = __srctop_dir("apps"); $directories{BLDFUZZ} = __bldtop_dir("fuzz"); $directories{SRCFUZZ} = __srctop_dir("fuzz"); $directories{BLDTEST} = $ENV{TEST_D} || __bldtop_dir("test"); $directories{SRCTEST} = __srctop_dir("test"); $directories{RESULTS} = $ENV{RESULT_D} || $directories{BLDTEST}; push @direnv, "TOP" if $ENV{TOP}; push @direnv, "SRCTOP" if $ENV{SRCTOP}; push @direnv, "BLDTOP" if $ENV{BLDTOP}; push @direnv, "BIN_D" if $ENV{BIN_D}; push @direnv, "TEST_D" if $ENV{TEST_D}; push @direnv, "RESULT_D" if $ENV{RESULT_D}; $end_with_bailout = $ENV{STOPTEST} ? 1 : 0; }; # __srctop_file and __srctop_dir are helpers to build file and directory # names on top of the source directory. They depend on $SRCTOP, and # therefore on the proper use of setup() and when needed, indir(). # __bldtop_file and __bldtop_dir do the same thing but relative to $BLDTOP. # __srctop_file and __bldtop_file take the same kind of argument as # File::Spec::Functions::catfile. # Similarly, __srctop_dir and __bldtop_dir take the same kind of argument # as File::Spec::Functions::catdir 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},@_); } # __exeext is a function that returns the platform dependent file extension # for executable binaries, or the value of the environment variable $EXE_EXT # if that one is defined. sub __exeext { my $ext = ""; if ($^O eq "VMS" ) { # VMS $ext = ".exe"; } elsif ($^O eq "MSWin32") { # Windows $ext = ".exe"; } return $ENV{"EXE_EXT"} || $ext; } # __test_file, __apps_file and __fuzz_file return the full path to a file # relative to the test/, apps/ or fuzz/ directory in the build tree or the # source tree, depending on where the file is found. Note that when looking # in the build tree, the file name with an added extension is looked for, if # an extension is given. The intent is to look for executable binaries (in # the build tree) or possibly scripts (in the source tree). # These functions all take the same arguments as File::Spec::Functions::catfile, # *plus* a mandatory extension argument. This extension argument can be undef, # and is ignored in such a case. sub __test_file { BAIL_OUT("Must run setup() first") if (! $test_name); my $e = pop || ""; my $f = pop; $f = catfile($directories{BLDTEST},@_,$f . $e); $f = catfile($directories{SRCTEST},@_,$f) unless -f $f; return $f; } sub __apps_file { BAIL_OUT("Must run setup() first") if (! $test_name); my $e = pop || ""; my $f = pop; $f = catfile($directories{BLDAPPS},@_,$f . $e); $f = catfile($directories{SRCAPPS},@_,$f) unless -f $f; return $f; } sub __fuzz_file { BAIL_OUT("Must run setup() first") if (! $test_name); my $e = pop || ""; my $f = pop; $f = catfile($directories{BLDFUZZ},@_,$f . $e); $f = catfile($directories{SRCFUZZ},@_,$f) unless -f $f; return $f; } sub __results_file { BAIL_OUT("Must run setup() first") if (! $test_name); my $f = pop; return catfile($directories{RESULTS},@_,$f); } # __cwd DIR # __cwd DIR, OPTS # # __cwd changes directory to DIR (string) and changes all the relative # entries in %directories accordingly. OPTS is an optional series of # hash style arguments to alter __cwd's behavior: # # create = 0|1 The directory we move to is created if 1, not if 0. # cleanup = 0|1 The directory we move from is removed if 1, not if 0. 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); } # We are recalculating the directories we keep track of, but need to save # away the result for after having moved into the new directory. my %tmp_directories = (); my %tmp_ENV = (); # 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)); $tmp_directories{$_} = $newpath; } } # Treat each environment variable that was used to get us the values in # %directories the same was as the paths in %directories, so any sub # process can use their values properly as well foreach (@direnv) { if (!file_name_is_absolute($ENV{$_})) { my $newpath = abs2rel(rel2abs($ENV{$_}), rel2abs($dir)); $tmp_ENV{$_} = $newpath; } } # Should we just bail out here as well? I'm unsure. return undef unless chdir($dir); if ($opts{cleanup}) { rmtree(".", { safe => 0, keep_root => 1 }); } # We put back new values carefully. Doing the obvious # %directories = ( %tmp_irectories ) # will clear out any value that happens to be an absolute path foreach (keys %tmp_directories) { $directories{$_} = $tmp_directories{$_}; } foreach (keys %tmp_ENV) { $ENV{$_} = $tmp_ENV{$_}; } if ($debug) { print STDERR "DEBUG: __cwd(), directories and files:\n"; print STDERR " \$directories{BLDTEST} = \"$directories{BLDTEST}\"\n"; print STDERR " \$directories{SRCTEST} = \"$directories{SRCTEST}\"\n"; print STDERR " \$directories{RESULTS} = \"$directories{RESULTS}\"\n"; print STDERR " \$directories{BLDAPPS} = \"$directories{BLDAPPS}\"\n"; print STDERR " \$directories{SRCAPPS} = \"$directories{SRCAPPS}\"\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 $reverse; } # __wrap_cmd CMD # __wrap_cmd CMD, EXE_SHELL # # __wrap_cmd "wraps" CMD (string) with a beginning command that makes sure # the command gets executed with an appropriate environment. If EXE_SHELL # is given, it is used as the beginning command. # # __wrap_cmd returns a list that should be used to build up a larger list # of command tokens, or be joined together like this: # # join(" ", __wrap_cmd($cmd)) sub __wrap_cmd { my $cmd = shift; my $exe_shell = shift; my @prefix = ( __bldtop_file("util", "shlib_wrap.sh") ); if(defined($exe_shell)) { @prefix = ( $exe_shell ); } elsif ($^O eq "VMS" || $^O eq "MSWin32") { # VMS and Windows don't use any wrapper script for the moment @prefix = (); } return (@prefix, $cmd); } # __fixup_prg PROG # # __fixup_prg does whatever fixup is needed to execute an executable binary # given by PROG (string). # # __fixup_prg returns a string with the possibly prefixed program path spec. sub __fixup_prg { my $prog = shift; my $prefix = ""; if ($^O eq "VMS" ) { $prefix = ($prog =~ /^(?:[\$a-z0-9_]+:)?[<\[]/i ? "mcr " : "mcr []"); } # 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"; 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; } # __decorate_cmd NUM, CMDARRAYREF # # __decorate_cmd takes a command number NUM and a command token array # CMDARRAYREF, builds up a command string from them and decorates it # with necessary redirections. # __decorate_cmd returns a list of two strings, one with the command # string to actually be used, the other to be displayed for the user. # The reason these strings might differ is that we redirect stderr to # the null device unless we're verbose and unless the user has # explicitly specified a stderr redirection. sub __decorate_cmd { BAIL_OUT("Must run setup() first") if (! $test_name); my $num = shift; my $cmd = shift; my %opts = @_; my $cmdstr = join(" ", @$cmd); my $null = devnull(); 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 $display_cmd = "$cmdstr$stdin$stdout$stderr"; $stderr=" 2> ".$null unless $stderr || !$ENV{HARNESS_ACTIVE} || $ENV{HARNESS_VERBOSE}; $cmdstr .= "$stdin$stdout$stderr"; if ($debug) { print STDERR "DEBUG[__decorate_cmd]: \$cmdstr = \"$cmdstr\"\n"; print STDERR "DEBUG[__decorate_cmd]: \$display_cmd = \"$display_cmd\"\n"; } return ($cmdstr, $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;