#!./perl # # Copyright (c) 1995-2000, Raphael Manfredi # # You may redistribute only under the same terms as Perl 5, as specified # in the README file that comes with the distribution. # use Config; sub BEGIN { unshift @INC, 't'; unshift @INC, 't/compat' if $] < 5.006002; if ($ENV{PERL_CORE} and $Config{'extensions'} !~ /\bStorable\b/) { print "1..0 # Skip: Storable was not built\n"; exit 0; } } use Storable qw(freeze thaw dclone); $Storable::flags = Storable::FLAGS_COMPAT; use Test::More tests => 39; package OBJ_REAL; use Storable qw(freeze thaw); @x = ('a', 1); sub make { bless [], shift } sub STORABLE_freeze { my $self = shift; my $cloning = shift; die "STORABLE_freeze" unless Storable::is_storing; return (freeze(\@x), $self); } sub STORABLE_thaw { my $self = shift; my $cloning = shift; my ($x, $obj) = @_; die "STORABLE_thaw #1" unless $obj eq $self; my $len = length $x; my $a = thaw $x; die "STORABLE_thaw #2" unless ref $a eq 'ARRAY'; die "STORABLE_thaw #3" unless @$a == 2 && $a->[0] eq 'a' && $a->[1] == 1; @$self = @$a; die "STORABLE_thaw #4" unless Storable::is_retrieving; } package OBJ_SYNC; @x = ('a', 1); sub make { bless {}, shift } sub STORABLE_freeze { my $self = shift; my ($cloning) = @_; return if $cloning; return ("", \@x, $self); } sub STORABLE_thaw { my $self = shift; my ($cloning, $undef, $a, $obj) = @_; die "STORABLE_thaw #1" unless $obj eq $self; die "STORABLE_thaw #2" unless ref $a eq 'ARRAY' || @$a != 2; $self->{ok} = $self; } package OBJ_SYNC2; use Storable qw(dclone); sub make { my $self = bless {}, shift; my ($ext) = @_; $self->{sync} = OBJ_SYNC->make; $self->{ext} = $ext; return $self; } sub STORABLE_freeze { my $self = shift; my %copy = %$self; my $r = \%copy; my $t = dclone($r->{sync}); return ("", [$t, $self->{ext}], $r, $self, $r->{ext}); } sub STORABLE_thaw { my $self = shift; my ($cloning, $undef, $a, $r, $obj, $ext) = @_; die "STORABLE_thaw #1" unless $obj eq $self; die "STORABLE_thaw #2" unless ref $a eq 'ARRAY'; die "STORABLE_thaw #3" unless ref $r eq 'HASH'; die "STORABLE_thaw #4" unless $a->[1] == $r->{ext}; $self->{ok} = $self; ($self->{sync}, $self->{ext}) = @$a; } package OBJ_REAL2; use Storable qw(freeze thaw); $MAX = 20; $recursed = 0; $hook_called = 0; sub make { bless [], shift } sub STORABLE_freeze { my $self = shift; $hook_called++; return (freeze($self), $self) if ++$recursed < $MAX; return ("no", $self); } sub STORABLE_thaw { my $self = shift; my $cloning = shift; my ($x, $obj) = @_; die "STORABLE_thaw #1" unless $obj eq $self; $self->[0] = thaw($x) if $x ne "no"; $recursed--; } package main; my $real = OBJ_REAL->make; my $x = freeze $real; isnt($x, undef); my $y = thaw $x; is(ref $y, 'OBJ_REAL'); is($y->[0], 'a'); is($y->[1], 1); my $sync = OBJ_SYNC->make; $x = freeze $sync; isnt($x, undef); $y = thaw $x; is(ref $y, 'OBJ_SYNC'); is($y->{ok}, $y); my $ext = [1, 2]; $sync = OBJ_SYNC2->make($ext); $x = freeze [$sync, $ext]; isnt($x, undef); my $z = thaw $x; $y = $z->[0]; is(ref $y, 'OBJ_SYNC2'); is($y->{ok}, $y); is(ref $y->{sync}, 'OBJ_SYNC'); is($y->{ext}, $z->[1]); $real = OBJ_REAL2->make; $x = freeze $real; isnt($x, undef); is($OBJ_REAL2::recursed, $OBJ_REAL2::MAX); is($OBJ_REAL2::hook_called, $OBJ_REAL2::MAX); $y = thaw $x; is(ref $y, 'OBJ_REAL2'); is($OBJ_REAL2::recursed, 0); $x = dclone $real; isnt($x, undef); is(ref $x, 'OBJ_REAL2'); is($OBJ_REAL2::recursed, 0); is($OBJ_REAL2::hook_called, 2 * $OBJ_REAL2::MAX); is(Storable::is_storing, ''); is(Storable::is_retrieving, ''); # # The following was a test-case that Salvador Ortiz Garcia # sent me, along with a proposed fix. # package Foo; sub new { my $class = shift; my $dat = shift; return bless {dat => $dat}, $class; } package Bar; sub new { my $class = shift; return bless { a => 'dummy', b => [ Foo->new(1), Foo->new(2), # Second instance of a Foo ] }, $class; } sub STORABLE_freeze { my($self,$clonning) = @_; return "$self->{a}", $self->{b}; } sub STORABLE_thaw { my($self,$clonning,$dummy,$o) = @_; $self->{a} = $dummy; $self->{b} = $o; } package main; my $bar = new Bar; my $bar2 = thaw freeze $bar; is(ref($bar2), 'Bar'); is(ref($bar->{b}[0]), 'Foo'); is(ref($bar->{b}[1]), 'Foo'); is(ref($bar2->{b}[0]), 'Foo'); is(ref($bar2->{b}[1]), 'Foo'); # # The following attempts to make sure blessed objects are blessed ASAP # at retrieve time. # package CLASS_1; sub make { my $self = bless {}, shift; return $self; } package CLASS_2; sub make { my $self = bless {}, shift; my ($o) = @_; $self->{c1} = CLASS_1->make(); $self->{o} = $o; $self->{c3} = bless CLASS_1->make(), "CLASS_3"; $o->set_c2($self); return $self; } sub STORABLE_freeze { my($self, $clonning) = @_; return "", $self->{c1}, $self->{c3}, $self->{o}; } sub STORABLE_thaw { my($self, $clonning, $frozen, $c1, $c3, $o) = @_; main::is(ref $self, "CLASS_2"); main::is(ref $c1, "CLASS_1"); main::is(ref $c3, "CLASS_3"); main::is(ref $o, "CLASS_OTHER"); $self->{c1} = $c1; $self->{c3} = $c3; } package CLASS_OTHER; sub make { my $self = bless {}, shift; return $self; } sub set_c2 { $_[0]->{c2} = $_[1] } # # Is the reference count of the extra references returned from a # STORABLE_freeze hook correct? [ID 20020601.005 (#9436)] # package Foo2; sub new { my $self = bless {}, $_[0]; $self->{freezed} = "$self"; return $self; } sub DESTROY { my $self = shift; $::refcount_ok = 1 unless "$self" eq $self->{freezed}; } package Foo3; sub new { bless {}, $_[0]; } sub STORABLE_freeze { my $obj = shift; return ("", $obj, Foo2->new); } sub STORABLE_thaw { } # Not really used package main; my $o = CLASS_OTHER->make(); my $c2 = CLASS_2->make($o); my $so = thaw freeze $o; our $refcount_ok = 0; thaw freeze(Foo3->new); is($refcount_ok, 1, "check refcount"); # Check stack overflows [cpan #97526] # JSON::XS limits this to 512. # Small 64bit systems fail with 1200 (c++ debugging), with gcc 3000. # Optimized 64bit allows up to 33.000 recursion depth. # with asan the limit is 255 though. local $Storable::recursion_limit = 30; local $Storable::recursion_limit_hash = 20; sub MAX_DEPTH () { Storable::stack_depth() } sub MAX_DEPTH_HASH () { Storable::stack_depth_hash() } { my $t; print "# max depth ", MAX_DEPTH, "\n"; $t = [$t] for 1 .. MAX_DEPTH; dclone $t; pass "can nest ".MAX_DEPTH." array refs"; } { my $t; $t = {1=>$t} for 1 .. MAX_DEPTH_HASH-10; dclone $t; pass "can nest ".(MAX_DEPTH_HASH)." hash refs"; } { my (@t); push @t, [{}] for 1..5000; #diag 'trying simple array[5000] stack overflow, no recursion'; dclone \@t; is $@, '', 'No simple array[5000] stack overflow #257'; } eval { my $t; $t = [$t] for 1 .. MAX_DEPTH*2; eval { note('trying catching recursive aref stack overflow') }; dclone $t; }; like $@, qr/Max\. recursion depth with nested structures exceeded/, 'Caught aref stack overflow '.MAX_DEPTH*2; if ($ENV{APPVEYOR} and length(pack "p", "") >= 8) { # TODO: need to repro this fail on a small machine. ok(1, "skip dclone of big hash"); } else { eval { my $t; # 35.000 will cause appveyor 64bit windows to fail earlier $t = {1=>$t} for 1 .. MAX_DEPTH * 2; eval { note('trying catching recursive href stack overflow') }; dclone $t; }; like $@, qr/Max\. recursion depth with nested structures exceeded/, 'Caught href stack overflow '.MAX_DEPTH_HASH*2; } { # perl #133326 my @tt; #$Storable::DEBUGME=1; for (1..16000) { my $t = [[[]]]; push @tt, $t; } ok(eval { dclone \@tt; 1 }, "low depth structure shouldn't be treated as nested"); }