#!./perl BEGIN { chdir 't' if -d 't'; require './test.pl'; set_up_inc('../lib'); } my $vms_exit_mode = 0; if ($^O eq 'VMS') { if (eval 'require VMS::Feature') { $vms_exit_mode = !(VMS::Feature::current("posix_exit")); } else { my $env_unix_rpt = $ENV{'DECC$FILENAME_UNIX_REPORT'} || ''; my $env_posix_ex = $ENV{'PERL_VMS_POSIX_EXIT'} || ''; my $unix_rpt = $env_unix_rpt =~ /^[ET1]/i; my $posix_ex = $env_posix_ex =~ /^[ET1]/i; if (($unix_rpt || $posix_ex) ) { $vms_exit_mode = 0; } else { $vms_exit_mode = 1; } } } # suppress VMS whinging about bad execs. use vmsish qw(hushed); $| = 1; # flush stdout $ENV{LC_ALL} = 'C'; # Force English error messages. $ENV{LANGUAGE} = 'C'; # Ditto in GNU. my $Is_VMS = $^O eq 'VMS'; my $Is_Win32 = $^O eq 'MSWin32'; plan(tests => 41); my $Perl = which_perl(); my $exit; SKIP: { skip("bug/feature of pdksh", 2) if $^O eq 'os2'; my $tnum = curr_test(); $exit = system qq{$Perl -le "print q{ok $tnum - interp system(EXPR)"}}; next_test(); is( $exit, 0, ' exited 0' ); } my $tnum = curr_test(); $exit = system qq{$Perl -le "print q{ok $tnum - split & direct system(EXPR)"}}; next_test(); is( $exit, 0, ' exited 0' ); # On VMS and Win32 you need the quotes around the program or it won't work. # On Unix its the opposite. my $quote = $Is_VMS || $Is_Win32 ? '"' : ''; $tnum = curr_test(); $exit = system $Perl, '-le', "${quote}print q{ok $tnum - system(PROG, LIST)}${quote}"; next_test(); is( $exit, 0, ' exited 0' ); # Some basic piped commands. Some OS's have trouble with "helpfully" # putting newlines on the end of piped output. So we split this into # newline insensitive and newline sensitive tests. my $echo_out = `$Perl -e "print 'ok'" | $Perl -le "print "`; $echo_out =~ s/\n\n/\n/g; is( $echo_out, "ok\n", 'piped echo emulation'); { # here we check if extra newlines are going to be slapped on # piped output. local $TODO = 'VMS sticks newlines on everything' if $Is_VMS; is( scalar `$Perl -e "print 'ok'"`, "ok", 'no extra newlines on ``' ); is( scalar `$Perl -e "print 'ok'" | $Perl -e "print "`, "ok", 'no extra newlines on pipes'); is( scalar `$Perl -le "print 'ok'" | $Perl -le "print "`, "ok\n\n", 'doubled up newlines'); is( scalar `$Perl -e "print 'ok'" | $Perl -le "print "`, "ok\n", 'extra newlines on inside pipes'); is( scalar `$Perl -le "print 'ok'" | $Perl -e "print "`, "ok\n", 'extra newlines on outgoing pipes'); { local($/) = \2; $out = runperl(prog => 'print q{1234}'); is($out, "1234", 'ignore $/ when capturing output in scalar context'); } } is( system(qq{$Perl -e "exit 0"}), 0, 'Explicit exit of 0' ); my $exit_one = $vms_exit_mode ? 4 << 8 : 1 << 8; is( system(qq{$Perl "-I../lib" -e "use vmsish qw(hushed); exit 1"}), $exit_one, 'Explicit exit of 1' ); $rc = system { "lskdfj" } "lskdfj"; unless( ok($rc == 255 << 8 or $rc == -1 or $rc == 256 or $rc == 512) ) { print "# \$rc == $rc\n"; } unless ( ok( $! == 2 or $! =~ /\bno\b.*\bfile/i or $! == 13 or $! =~ /permission denied/i or $! == 20 or $! =~ /not a directory/i or # If PATH component is # a non-directory $! == 22 or $! =~ /invalid argument/i ) ) { diag sprintf "\$! eq %d, '%s'\n", $!, $!; } is( `$Perl -le "print 'ok'"`, "ok\n", 'basic ``' ); is( <<`END`, "ok\n", '<<`HEREDOC`' ); $Perl -le "print 'ok'" END is( <<~`END`, "ok\n", '<<~`HEREDOC`' ); $Perl -le "print 'ok'" END { sub rpecho { qq($Perl -le "print '$_[0]'") } is scalar(readpipe(rpecho("b"))), "b\n", "readpipe with one argument in scalar context"; is join(",", "a", readpipe(rpecho("b")), "c"), "a,b\n,c", "readpipe with one argument in list context"; local $_ = rpecho("f"); is scalar(readpipe), "f\n", "readpipe default argument in scalar context"; is join(",", "a", readpipe, "c"), "a,f\n,c", "readpipe default argument in list context"; sub rpechocxt { rpecho(wantarray ? "list" : defined(wantarray) ? "scalar" : "void"); } is scalar(readpipe(rpechocxt())), "scalar\n", "readpipe argument context in scalar context"; is join(",", "a", readpipe(rpechocxt()), "b"), "a,scalar\n,b", "readpipe argument context in list context"; foreach my $args ("(\$::p,\$::q)", "((\$::p,\$::q))") { foreach my $lvalue ("my \$r", "my \@r") { eval("$lvalue = readpipe$args if 0"); like $@, qr/\AToo many arguments for /; } } } package o { use subs "readpipe"; sub readpipe { pop } ::is `${\"hello"}`, 'hello', 'overridden `` interpolates [perl #115330]'; ::is <<`119827`, "ls\n", l${\"s"} 119827 '<<`` respects overrides and interpolates [perl #119827]'; } TODO: { my $tnum = curr_test(); if( $^O =~ /Win32/ ) { print "not ok $tnum - exec failure doesn't terminate process " . "# TODO Win32 exec failure waits for user input\n"; next_test(); last TODO; } ok( !exec("lskdjfalksdjfdjfkls"), "exec failure doesn't terminate process"); } { local $! = 0; ok !exec(), 'empty exec LIST fails'; ok $! == 2 || $! =~ qr/\bno\b.*\bfile\b/i, 'errno = ENOENT' or diag sprintf "\$! eq %d, '%s'\n", $!, $!; } { local $! = 0; my $err = $!; ok !(exec {""} ()), 'empty exec PROGRAM LIST fails'; ok $! == 2 || $! =~ qr/\bno\b.*\bfile\b/i, 'errno = ENOENT' or diag sprintf "\$! eq %d, '%s'\n", $!, $!; } package CountRead { sub TIESCALAR { bless({ n => 0 }, $_[0]) } sub FETCH { ++$_[0]->{n} } } my $cr; tie $cr, "CountRead"; my $exit_statement = "exit(\$ARGV[0] eq '1' ? 0 : 1)"; $exit_statement = qq/"$exit_statement"/ if $^O eq 'VMS'; is system($^X, "-e", $exit_statement, $cr), 0, "system args have magic processed exactly once"; is tied($cr)->{n}, 1, "system args have magic processed before fork"; $exit_statement = "exit(\$ARGV[0] eq \$ARGV[1] ? 0 : 1)"; $exit_statement = qq/"$exit_statement"/ if $^O eq 'VMS'; is system($^X, "-e", $exit_statement, "$$", $$), 0, "system args have magic processed before fork"; my $test = curr_test(); exec $Perl, '-le', qq{${quote}print 'ok $test - exec PROG, LIST'${quote}}; fail("This should never be reached if the exec() worked");