#!./perl # tests for both real and emulated fork() BEGIN { chdir 't' if -d 't'; require './test.pl'; set_up_inc('../lib'); require Config; skip_all('no fork') unless ($Config::Config{d_fork} or $Config::Config{d_pseudofork}); skip_all('no fork') if $^O eq 'MSWin32' && is_miniperl(); } $|=1; run_multiple_progs('', \*DATA); my $shell = $ENV{SHELL} || ''; SKIP: { skip "This test can only be run under bash or zsh" unless $shell =~ m{/(?:ba|z)sh$}; skip "LSAN noise failing to create a thread due to limits" if $Config::Config{ccflags} =~ /sanitize=address/; my $probe = qx{ $shell -c 'ulimit -u 1 2>/dev/null && echo good' }; chomp $probe; skip "Can't set ulimit -u on this system: $probe" unless $probe eq 'good'; my $out = qx{ $shell -c 'ulimit -u 1; exec $^X -e " print((() = fork) == 1 ? q[ok] : q[not ok]) "' }; # perl #117141 skip "fork() didn't fail, maybe you're running as root", 1 if $out eq "okok"; is($out, "ok", "bash/zsh-only test for 'fork' returning undef on failure"); } done_testing(); __END__ $| = 1; if ($cid = fork) { sleep 1; if ($result = (kill 9, $cid)) { print "ok 2\n"; } else { print "not ok 2 $result\n"; } sleep 1 if $^O eq 'MSWin32'; # avoid WinNT race bug } else { print "ok 1\n"; sleep 10; } EXPECT OPTION random ok 1 ok 2 ######## $| = 1; if ($cid = fork) { sleep 1; print "not " unless kill 'INT', $cid; print "ok 2\n"; } else { # XXX On Windows the default signal handler kills the # XXX whole process, not just the thread (pseudo-process) $SIG{INT} = sub { exit }; print "ok 1\n"; sleep 5; die; } EXPECT OPTION random ok 1 ok 2 ######## $| = 1; sub forkit { print "iteration $i start\n"; my $x = fork; if (defined $x) { if ($x) { print "iteration $i parent\n"; } else { print "iteration $i child\n"; } } else { print "pid $$ failed to fork\n"; } } while ($i++ < 3) { do { forkit(); }; } EXPECT OPTION random iteration 1 start iteration 1 parent iteration 1 child iteration 2 start iteration 2 parent iteration 2 child iteration 2 start iteration 2 parent iteration 2 child iteration 3 start iteration 3 parent iteration 3 child iteration 3 start iteration 3 parent iteration 3 child iteration 3 start iteration 3 parent iteration 3 child iteration 3 start iteration 3 parent iteration 3 child ######## $| = 1; fork() ? (print("parent\n"),sleep(1)) : (print("child\n"),exit) ; EXPECT OPTION random parent child ######## $| = 1; fork() ? (print("parent\n"),exit) : (print("child\n"),sleep(1)) ; EXPECT OPTION random parent child ######## $| = 1; @a = (1..3); for (@a) { if (fork) { print "parent $_\n"; $_ = "[$_]"; } else { print "child $_\n"; $_ = "-$_-"; } } print "@a\n"; EXPECT OPTION random parent 1 child 1 parent 2 child 2 parent 2 child 2 parent 3 child 3 parent 3 child 3 parent 3 child 3 parent 3 child 3 [1] [2] [3] -1- [2] [3] [1] -2- [3] [1] [2] -3- -1- -2- [3] -1- [2] -3- [1] -2- -3- -1- -2- -3- ######## $| = 1; foreach my $c (1,2,3) { if (fork) { print "parent $c\n"; } else { print "child $c\n"; exit; } } while (wait() != -1) { print "waited\n" } EXPECT OPTION random child 1 child 2 child 3 parent 1 parent 2 parent 3 waited waited waited ######## use Config; $| = 1; $\ = "\n"; fork() ? print($Config{osname} eq $^O) : print($Config{osname} eq $^O) ; EXPECT OPTION random 1 1 ######## $| = 1; $\ = "\n"; fork() ? do { require Config; print($Config::Config{osname} eq $^O); } : do { require Config; print($Config::Config{osname} eq $^O); } EXPECT OPTION random 1 1 ######## $| = 1; use Cwd; my $cwd = cwd(); # Make sure we load Win32.pm while "../lib" still works. $\ = "\n"; my $dir; if (fork) { $dir = "f$$.tst"; mkdir $dir, 0755; chdir $dir; print cwd() =~ /\Q$dir/i ? "ok 1 parent" : "not ok 1 parent"; chdir ".."; rmdir $dir; } else { sleep 2; $dir = "f$$.tst"; mkdir $dir, 0755; chdir $dir; print cwd() =~ /\Q$dir/i ? "ok 1 child" : "not ok 1 child"; chdir ".."; rmdir $dir; } EXPECT OPTION random ok 1 parent ok 1 child ######## $| = 1; $\ = "\n"; my $getenv; if ($^O eq 'MSWin32') { $getenv = qq[$^X -e "print \$ENV{TST}"]; } else { $getenv = qq[$^X -e 'print \$ENV{TST}']; } $ENV{TST} = 'foo'; if (fork) { sleep 1; print "parent before: " . `$getenv`; $ENV{TST} = 'bar'; print "parent after: " . `$getenv`; } else { print "child before: " . `$getenv`; $ENV{TST} = 'baz'; print "child after: " . `$getenv`; } EXPECT OPTION random child before: foo child after: baz parent before: foo parent after: bar ######## $| = 1; $\ = "\n"; if ($pid = fork) { waitpid($pid,0); print "parent got $?" } else { exit(42); } EXPECT OPTION random parent got 10752 ######## $| = 1; $\ = "\n"; my $echo = 'echo'; if ($^O =~ /android/) { $echo = q{sh -c 'echo $@' -- }; } if ($pid = fork) { waitpid($pid,0); print "parent got $?" } else { exec("$echo foo"); } EXPECT OPTION random foo parent got 0 ######## if (fork) { die "parent died"; } else { die "child died"; } EXPECT OPTION random parent died at - line 2. child died at - line 5. ######## if ($pid = fork) { eval { die "parent died" }; print $@; } else { eval { die "child died" }; print $@; } EXPECT OPTION random parent died at - line 2. child died at - line 6. ######## if (eval q{$pid = fork}) { eval q{ die "parent died" }; print $@; } else { eval q{ die "child died" }; print $@; } EXPECT OPTION random parent died at (eval 2) line 1. child died at (eval 2) line 1. ######## BEGIN { $| = 1; fork and exit; print "inner\n"; } # XXX In emulated fork(), the child will not execute anything after # the BEGIN block, due to difficulties in recreating the parse stacks # and restarting yyparse() midstream in the child. This can potentially # be overcome by treating what's after the BEGIN{} as a brand new parse. #print "outer\n" EXPECT OPTION random inner ######## sub pipe_to_fork ($$) { my $parent = shift; my $child = shift; pipe($child, $parent) or die; my $pid = fork(); die "fork() failed: $!" unless defined $pid; close($pid ? $child : $parent); $pid; } if (pipe_to_fork('PARENT','CHILD')) { # parent print PARENT "pipe_to_fork\n"; close PARENT; } else { # child while () { print; } close CHILD; exit; } sub pipe_from_fork ($$) { my $parent = shift; my $child = shift; pipe($parent, $child) or die; my $pid = fork(); die "fork() failed: $!" unless defined $pid; close($pid ? $child : $parent); $pid; } if (pipe_from_fork('PARENT','CHILD')) { # parent while () { print; } close PARENT; } else { # child print CHILD "pipe_from_fork\n"; close CHILD; exit; } EXPECT OPTION random pipe_from_fork pipe_to_fork ######## $|=1; if ($pid = fork()) { print "forked first kid\n"; print "waitpid() returned ok\n" if waitpid($pid,0) == $pid; } else { print "first child\n"; exit(0); } if ($pid = fork()) { print "forked second kid\n"; print "wait() returned ok\n" if wait() == $pid; } else { print "second child\n"; exit(0); } EXPECT OPTION random forked first kid first child waitpid() returned ok forked second kid second child wait() returned ok ######## pipe(RDR,WTR) or die $!; my $pid = fork; die "fork: $!" if !defined $pid; if ($pid == 0) { close RDR; print WTR "STRING_FROM_CHILD\n"; close WTR; } else { close WTR; chomp(my $string_from_child = ); close RDR; print $string_from_child eq "STRING_FROM_CHILD", "\n"; } EXPECT OPTION random 1 ######## # [perl #39145] Perl_dounwind() crashing with Win32's fork() emulation sub { @_ = 3; fork ? die "1\n" : die "1\n" }->(2); EXPECT OPTION random 1 1 ######## # [perl #72604] @DB::args stops working across Win32 fork $|=1; sub f { if ($pid = fork()) { print "waitpid() returned ok\n" if waitpid($pid,0) == $pid; } else { package DB; my @c = caller(0); print "child: called as [$c[3](", join(',',@DB::args), ")]\n"; exit(0); } } f("foo", "bar"); EXPECT OPTION random child: called as [main::f(foo,bar)] waitpid() returned ok ######## # Windows 2000: https://rt.cpan.org/Ticket/Display.html?id=66016#txn-908976 system $^X, "-e", "if (\$pid=fork){sleep 1;kill(9, \$pid)} else {sleep 5}"; print $?>>8, "\n"; EXPECT 0 ######## # Windows 7: https://rt.cpan.org/Ticket/Display.html?id=66016#txn-908976 system $^X, "-e", "if (\$pid=fork){kill(9, \$pid)} else {sleep 5}"; print $?>>8, "\n"; EXPECT 0 ######## # Windows fork() emulation: can we still waitpid() after signalling SIGTERM? $|=1; if (my $pid = fork) { sleep 1; print "1\n"; kill 'TERM', $pid; waitpid($pid, 0); print "4\n"; } else { $SIG{TERM} = sub { print "2\n" }; sleep 10; print "3\n"; } EXPECT 1 2 3 4 ######## # this used to SEGV. RT # 121721 $|=1; &main; sub main { if (my $pid = fork) { waitpid($pid, 0); } else { print "foo\n"; } } EXPECT foo ######## # ${^GLOBAL_PHASE} at the end of a pseudo-fork if (my $pid = fork) { waitpid $pid, 0; } else { eval 'END { print "${^GLOBAL_PHASE}\n" }'; exit; } EXPECT END