#!./perl BEGIN { require Config; import Config; if ($^O ne 'VMS' and $Config{'extensions'} !~ /\bPOSIX\b/) { print "1..0\n"; exit 0; } } use Test::More tests => 109; use POSIX qw(fcntl_h signal_h limits_h _exit getcwd open read strftime write errno localeconv dup dup2 lseek access); use strict 'subs'; sub next_test { my $builder = Test::More->builder; $builder->current_test($builder->current_test() + 1); } $| = 1; $Is_W32 = $^O eq 'MSWin32'; $Is_Dos = $^O eq 'dos'; $Is_MPE = $^O eq 'mpeix'; $Is_MacOS = $^O eq 'MacOS'; $Is_VMS = $^O eq 'VMS'; $Is_OS2 = $^O eq 'os2'; $Is_UWin = $^O eq 'uwin'; $Is_OS390 = $^O eq 'os390'; my $vms_unix_rpt = 0; my $vms_efs = 0; my $unix_mode = 1; if ($Is_VMS) { $unix_mode = 0; if (eval 'require VMS::Feature') { $vms_unix_rpt = VMS::Feature::current("filename_unix_report"); $vms_efs = VMS::Feature::current("efs_charset"); } else { my $unix_rpt = $ENV{'DECC$FILENAME_UNIX_REPORT'} || ''; my $efs_charset = $ENV{'DECC$EFS_CHARSET'} || ''; $vms_unix_rpt = $unix_rpt =~ /^[ET1]/i; $vms_efs = $efs_charset =~ /^[ET1]/i; } # Traditional VMS mode only if VMS is not in UNIX compatible mode. $unix_mode = ($vms_efs && $vms_unix_rpt); } my $testfd = open("Makefile.PL", O_RDONLY, 0); like($testfd, qr/\A\d+\z/, 'O_RDONLY with open'); read($testfd, $buffer, 4) if $testfd > 2; is( $buffer, "# Ex", ' with read' ); TODO: { local $TODO = "read to array element not working"; read($testfd, $buffer[1], 5) if $testfd > 2; is( $buffer[1], "perl\n", ' read to array element' ); } my $test = next_test(); write(1,"ok $test\nnot ok $test\n", 5); SKIP: { skip("no pipe() support on DOS", 2) if $Is_Dos; @fds = POSIX::pipe(); cmp_ok($fds[0], '>', $testfd, 'POSIX::pipe'); CORE::open($reader = \*READER, "<&=".$fds[0]); CORE::open($writer = \*WRITER, ">&=".$fds[1]); my $test = next_test(); print $writer "ok $test\n"; close $writer; print <$reader>; close $reader; } SKIP: { skip("no sigaction support on win32/dos", 6) if $Is_W32 || $Is_Dos; my $sigset = new POSIX::SigSet 1, 3; $sigset->delset(1); ok(! $sigset->ismember(1), 'POSIX::SigSet->delset' ); ok( $sigset->ismember(3), 'POSIX::SigSet->ismember' ); SKIP: { skip("no kill() support on Mac OS", 4) if $Is_MacOS; my $sigint_called = 0; my $mask = new POSIX::SigSet &SIGINT; my $action = new POSIX::SigAction 'main::SigHUP', $mask, 0; sigaction(&SIGHUP, $action); $SIG{'INT'} = 'SigINT'; # At least OpenBSD/i386 3.3 is okay, as is NetBSD 1.5. # But not NetBSD 1.6 & 1.6.1: the test makes perl crash. # So the kill() must not be done with this config in order to # finish the test. # For others (darwin & freebsd), let the test fail without crashing. my $todo = $^O eq 'netbsd' && $Config{osvers}=~/^1\.6/; my $why_todo = "# TODO $^O $Config{osvers} seems to lose blocked signals"; if (!$todo) { kill 'HUP', $$; } else { print "not ok 9 - sigaction SIGHUP ",$why_todo,"\n"; print "not ok 10 - sig mask delayed SIGINT ",$why_todo,"\n"; } sleep 1; $todo = 1 if ($^O eq 'freebsd') || ($^O eq 'darwin' && $Config{osvers} < '6.6'); printf "%s 11 - masked SIGINT received %s\n", $sigint_called ? "ok" : "not ok", $todo ? $why_todo : ''; print "ok 12 - signal masks successful\n"; sub SigHUP { print "ok 9 - sigaction SIGHUP\n"; kill 'INT', $$; sleep 2; print "ok 10 - sig mask delayed SIGINT\n"; } sub SigINT { $sigint_called++; } # The order of the above tests is very important, so # we use literal prints and hard coded numbers. next_test() for 1..4; } } SKIP: { skip("_POSIX_OPEN_MAX is inaccurate on MPE", 1) if $Is_MPE; skip("_POSIX_OPEN_MAX undefined ($fds[1])", 1) unless &_POSIX_OPEN_MAX; cmp_ok(&_POSIX_OPEN_MAX, '>=', 16, "The minimum allowed values according to susv2" ); } my $pat; if ( $unix_mode ) { $pat = qr#[\\/]POSIX$#i; } else { $pat = qr/\.POSIX]/i; } like( getcwd(), qr/$pat/, 'getcwd' ); # Check string conversion functions. SKIP: { skip("strtod() not present", 2) unless $Config{d_strtod}; $lc = &POSIX::setlocale(&POSIX::LC_NUMERIC, 'C') if $Config{d_setlocale}; # we're just checking that strtod works, not how accurate it is ($n, $x) = &POSIX::strtod('3.14159_OR_SO'); cmp_ok(abs("3.14159" - $n), '<', 1e-6, 'strtod works'); is($x, 6, 'strtod works'); &POSIX::setlocale(&POSIX::LC_NUMERIC, $lc) if $Config{d_setlocale}; } SKIP: { skip("strtol() not present", 2) unless $Config{d_strtol}; ($n, $x) = &POSIX::strtol('21_PENGUINS'); is($n, 21, 'strtol() number'); is($x, 9, ' unparsed chars'); } SKIP: { skip("strtoul() not present", 2) unless $Config{d_strtoul}; ($n, $x) = &POSIX::strtoul('88_TEARS'); is($n, 88, 'strtoul() number'); is($x, 6, ' unparsed chars'); } # Pick up whether we're really able to dynamically load everything. cmp_ok(&POSIX::acos(1.0), '==', 0.0, 'dynamic loading'); # This can coredump if struct tm has a timezone field and we # didn't detect it. If this fails, try adding # -DSTRUCT_TM_HASZONE to your cflags when compiling ext/POSIX/POSIX.c. # See ext/POSIX/hints/sunos_4.pl and ext/POSIX/hints/linux.pl $test = next_test(); print POSIX::strftime("ok $test # %H:%M, on %m/%d/%y\n", localtime()); # If that worked, validate the mini_mktime() routine's normalisation of # input fields to strftime(). sub try_strftime { my $expect = shift; my $got = POSIX::strftime("%a %b %d %H:%M:%S %Y %j", @_); is($got, $expect, "validating mini_mktime() and strftime(): $expect"); } $lc = &POSIX::setlocale(&POSIX::LC_TIME, 'C') if $Config{d_setlocale}; try_strftime("Wed Feb 28 00:00:00 1996 059", 0,0,0, 28,1,96); SKIP: { skip("VC++ 8 and Vista's CRTs regard 60 seconds as an invalid parameter", 1) if ($Is_W32 and (($Config{cc} eq 'cl' and $Config{ccversion} =~ /^(\d+)/ and $1 >= 14) or (Win32::GetOSVersion())[1] >= 6)); try_strftime("Thu Feb 29 00:00:60 1996 060", 60,0,-24, 30,1,96); } try_strftime("Fri Mar 01 00:00:00 1996 061", 0,0,-24, 31,1,96); try_strftime("Sun Feb 28 00:00:00 1999 059", 0,0,0, 28,1,99); try_strftime("Mon Mar 01 00:00:00 1999 060", 0,0,24, 28,1,99); try_strftime("Mon Feb 28 00:00:00 2000 059", 0,0,0, 28,1,100); try_strftime("Tue Feb 29 00:00:00 2000 060", 0,0,0, 0,2,100); try_strftime("Wed Mar 01 00:00:00 2000 061", 0,0,0, 1,2,100); try_strftime("Fri Mar 31 00:00:00 2000 091", 0,0,0, 31,2,100); { # rt 72232 # Std C/POSIX allows day/month to be negative and requires that # wday/yday be adjusted as needed # previously mini_mktime() would allow yday to dominate if mday and # month were both non-positive # check that yday doesn't dominate try_strftime("Thu Dec 30 00:00:00 1999 364", 0,0,0, -1,0,100); try_strftime("Thu Dec 30 00:00:00 1999 364", 0,0,0, -1,0,100,-1,10); # it would also allow a positive wday to override the calculated value # check that wday is recalculated too try_strftime("Thu Dec 30 00:00:00 1999 364", 0,0,0, -1,0,100,0,10); } &POSIX::setlocale(&POSIX::LC_TIME, $lc) if $Config{d_setlocale}; { for my $test (0, 1) { $! = 0; # POSIX::errno is autoloaded. # Autoloading requires many system calls. # errno() looks at $! to generate its result. # Autoloading should not munge the value. my $foo = $!; my $errno = POSIX::errno(); # Force numeric context. is( $errno + 0, $foo + 0, 'autoloading and errno() mix' ); } } SKIP: { skip("no kill() support on Mac OS", 1) if $Is_MacOS; is (eval "kill 0", 0, "check we have CORE::kill") or print "\$\@ is " . _qq($@) . "\n"; } # Check that we can import the POSIX kill routine POSIX->import ('kill'); my $result = eval "kill 0"; is ($result, undef, "we should now have POSIX::kill"); # Check usage. like ($@, qr/^Usage: POSIX::kill\(pid, sig\)/, "check its usage message"); # Check unimplemented. $result = eval {POSIX::offsetof}; is ($result, undef, "offsetof should fail"); like ($@, qr/^Unimplemented: POSIX::offsetof\(\) is C-specific/, "check its unimplemented message"); # Check reimplemented. $result = eval {POSIX::fgets}; is ($result, undef, "fgets should fail"); like ($@, qr/^Use method IO::Handle::gets\(\) instead/, "check its redef message"); # Simplistic tests for the isXXX() functions (bug #16799) ok( POSIX::isalnum('1'), 'isalnum' ); ok(!POSIX::isalnum('*'), 'isalnum' ); ok( POSIX::isalpha('f'), 'isalpha' ); ok(!POSIX::isalpha('7'), 'isalpha' ); ok( POSIX::iscntrl("\cA"),'iscntrl' ); ok(!POSIX::iscntrl("A"), 'iscntrl' ); ok( POSIX::isdigit('1'), 'isdigit' ); ok(!POSIX::isdigit('z'), 'isdigit' ); ok( POSIX::isgraph('@'), 'isgraph' ); ok(!POSIX::isgraph(' '), 'isgraph' ); ok( POSIX::islower('l'), 'islower' ); ok(!POSIX::islower('L'), 'islower' ); ok( POSIX::isupper('U'), 'isupper' ); ok(!POSIX::isupper('u'), 'isupper' ); ok( POSIX::isprint('$'), 'isprint' ); ok(!POSIX::isprint("\n"), 'isprint' ); ok( POSIX::ispunct('%'), 'ispunct' ); ok(!POSIX::ispunct('u'), 'ispunct' ); ok( POSIX::isspace("\t"), 'isspace' ); ok(!POSIX::isspace('_'), 'isspace' ); ok( POSIX::isxdigit('f'), 'isxdigit' ); ok(!POSIX::isxdigit('g'), 'isxdigit' ); # metaphysical question : what should be returned for an empty string ? # anyway this shouldn't segfault (bug #24554) ok( POSIX::isalnum(''), 'isalnum empty string' ); ok( POSIX::isalnum(undef),'isalnum undef' ); # those functions should stringify their arguments ok(!POSIX::isalpha([]), 'isalpha []' ); ok( POSIX::isprint([]), 'isprint []' ); eval { use strict; POSIX->import("S_ISBLK"); my $x = S_ISBLK }; unlike( $@, qr/Can't use string .* as a symbol ref/, "Can import autoloaded constants" ); SKIP: { skip("localeconv() not present", 20) unless $Config{d_locconv}; my $conv = localeconv; is(ref $conv, 'HASH', 'localconv returns a hash reference'); foreach (qw(decimal_point thousands_sep grouping int_curr_symbol currency_symbol mon_decimal_point mon_thousands_sep mon_grouping positive_sign negative_sign)) { SKIP: { skip("localeconv has no result for $_", 1) unless exists $conv->{$_}; unlike(delete $conv->{$_}, qr/\A\z/, "localeconv returned a non-empty string for $_"); } } foreach (qw(int_frac_digits frac_digits p_cs_precedes p_sep_by_space n_cs_precedes n_sep_by_space p_sign_posn n_sign_posn)) { SKIP: { skip("localeconv has no result for $_", 1) unless exists $conv->{$_}; like(delete $conv->{$_}, qr/\A-?\d+\z/, "localeconv returned an integer for $_"); } } is_deeply([%$conv], [], 'no unexpected keys returned by localeconv'); } my $fd1 = open("Makefile.PL", O_RDONLY, 0); like($fd1, qr/\A\d+\z/, 'O_RDONLY with open'); cmp_ok($fd1, '>', $testfd); my $fd2 = dup($fd1); like($fd2, qr/\A\d+\z/, 'dup'); cmp_ok($fd2, '>', $fd1); is(POSIX::close($fd1), '0 but true', 'close'); is(POSIX::close($testfd), '0 but true', 'close'); $! = 0; undef $buffer; is(read($fd1, $buffer, 4), undef, 'read on closed file handle fails'); cmp_ok($!, '==', POSIX::EBADF); undef $buffer; read($fd2, $buffer, 4) if $fd2 > 2; is($buffer, "# Ex", 'read'); # The descriptor $testfd was using is now free, and is lower than that which # $fd1 was using. Hence if dup2() behaves as dup(), we'll know :-) { $testfd = dup2($fd2, $fd1); is($testfd, $fd1, 'dup2'); undef $buffer; read($testfd, $buffer, 4) if $testfd > 2; is($buffer, 'pect', 'read'); is(lseek($testfd, 0, 0), 0, 'lseek back'); # The two should share file position: undef $buffer; read($fd2, $buffer, 4) if $fd2 > 2; is($buffer, "# Ex", 'read'); } # The FreeBSD man page warns: # The access() system call is a potential security hole due to race # conditions and should never be used. is(access('Makefile.PL', POSIX::F_OK), '0 but true', 'access'); is(access('Makefile.PL', POSIX::R_OK), '0 but true', 'access'); $! = 0; is(access('no such file', POSIX::F_OK), undef, 'access on missing file'); cmp_ok($!, '==', POSIX::ENOENT); is(access('Makefile.PL/nonsense', POSIX::F_OK), undef, 'access on not-a-directory'); SKIP: { skip("$^O is insufficiently POSIX", 1) if $Is_W32 || $Is_VMS; cmp_ok($!, '==', POSIX::ENOTDIR); } # Check that output is not flushed by _exit. This test should be last # in the file, and is not counted in the total number of tests. if ($^O eq 'vos') { print "# TODO - hit VOS bug posix-885 - _exit flushes output buffers.\n"; } else { $| = 0; # The following line assumes buffered output, which may be not true: print '@#!*$@(!@#$' unless ($Is_MacOS || $Is_OS2 || $Is_UWin || $Is_OS390 || $Is_VMS || (defined $ENV{PERLIO} && $ENV{PERLIO} eq 'unix' && $Config::Config{useperlio})); _exit(0); }