#!./perl -w # # Copyright 2002, Larry Wall. # # You may redistribute only under the same terms as Perl 5, as specified # in the README file that comes with the distribution. # # I'm trying to keep this test easily backwards compatible to 5.004, so no # qr//; # This test tries to craft malicious data to test out as many different # error traps in Storable as possible # It also acts as a test for read_header sub BEGIN { # This lets us distribute Test::More in t/ unshift @INC, 't'; unshift @INC, 't/compat' if $] < 5.006002; require Config; import Config; if ($ENV{PERL_CORE} and $Config{'extensions'} !~ /\bStorable\b/) { print "1..0 # Skip: Storable was not built\n"; exit 0; } } use strict; use vars qw($file_magic_str $other_magic $network_magic $byteorder $major $minor $minor_write $fancy); $byteorder = $Config{byteorder}; $file_magic_str = 'pst0'; $other_magic = 7 + length $byteorder; $network_magic = 2; $major = 2; $minor = 10; $minor_write = $] >= 5.019 ? 10 : $] > 5.008 ? 9 : $] > 5.005_50 ? 8 : 4; use Test::More; # If it's 5.7.3 or later the hash will be stored with flags, which is # 2 extra bytes. There are 2 * 2 * 2 tests per byte in the body and header # common to normal and network order serialised objects (hence the 8) # There are only 2 * 2 tests per byte in the parts of the header not present # for network order, and 2 tests per byte on the 'pst0' "magic number" only # present in files, but not in things store()ed to memory $fancy = ($] > 5.007 ? 2 : 0); plan tests => 372 + length ($byteorder) * 4 + $fancy * 8; use Storable qw (store retrieve freeze thaw nstore nfreeze); require 'testlib.pl'; use vars '$file'; # The chr 256 is a hack to force the hash to always have the utf8 keys flag # set on 5.7.3 and later. Otherwise the test fails if run with -Mutf8 because # only there does the hash has the flag on, and hence only there is it stored # as a flagged hash, which is 2 bytes longer my %hash = (perl => 'rules', chr 256, ''); delete $hash{chr 256}; sub test_hash { my $clone = shift; is (ref $clone, "HASH", "Get hash back"); is (scalar keys %$clone, 1, "with 1 key"); is ((keys %$clone)[0], "perl", "which is correct"); is ($clone->{perl}, "rules"); } sub test_header { my ($header, $isfile, $isnetorder) = @_; is (!!$header->{file}, !!$isfile, "is file"); is ($header->{major}, $major, "major number"); is ($header->{minor}, $minor_write, "minor number"); is (!!$header->{netorder}, !!$isnetorder, "is network order"); if ($isnetorder) { # Network order header has no sizes } else { is ($header->{byteorder}, $byteorder, "byte order"); is ($header->{intsize}, $Config{intsize}, "int size"); is ($header->{longsize}, $Config{longsize}, "long size"); SKIP: { skip ("No \$Config{prtsize} on this perl version ($])", 1) unless defined $Config{ptrsize}; is ($header->{ptrsize}, $Config{ptrsize}, "long size"); } is ($header->{nvsize}, $Config{nvsize} || $Config{doublesize} || 8, "nv size"); # 5.00405 doesn't even have doublesize in config. } } sub test_truncated { my ($data, $sub, $magic_len, $what) = @_; for my $i (0 .. length ($data) - 1) { my $short = substr $data, 0, $i; # local $Storable::DEBUGME = 1; my $clone = &$sub($short); is (defined ($clone), '', "truncated $what to $i should fail"); if ($i < $magic_len) { like ($@, "/^Magic number checking on storable $what failed/", "Should croak with magic number warning"); } else { is ($@, "", "Should not set \$\@"); } } } sub test_corrupt { my ($data, $sub, $what, $name) = @_; my $clone = &$sub($data); local $Test::Builder::Level = $Test::Builder::Level + 1; is (defined ($clone), '', "$name $what should fail"); like ($@, $what, $name); } sub test_things { my ($contents, $sub, $what, $isnetwork) = @_; my $isfile = $what eq 'file'; my $file_magic = $isfile ? length $file_magic_str : 0; my $header = Storable::read_magic ($contents); test_header ($header, $isfile, $isnetwork); # Test that if we re-write it, everything still works: my $clone = &$sub ($contents); is ($@, "", "There should be no error"); test_hash ($clone); # Now lets check the short version: test_truncated ($contents, $sub, $file_magic + ($isnetwork ? $network_magic : $other_magic), $what); my $copy; if ($isfile) { $copy = $contents; substr ($copy, 0, 4) = 'iron'; test_corrupt ($copy, $sub, "/^File is not a perl storable/", "magic number"); } $copy = $contents; # Needs to be more than 1, as we're already coding a spread of 1 minor version # number on writes (2.5, 2.4). May increase to 2 if we figure we can do 2.3 # on 5.005_03 (No utf8). # 4 allows for a small safety margin # Which we've now exhausted given that Storable 2.25 is writing 2.8 # (Joke: # Question: What is the value of pi? # Mathematician answers "It's pi, isn't it" # Physicist answers "3.1, within experimental error" # Engineer answers "Well, allowing for a small safety margin, 18" # ) my $minor6 = $header->{minor} + 6; substr ($copy, $file_magic + 1, 1) = chr $minor6; { # Now by default newer minor version numbers are not a pain. $clone = &$sub($copy); is ($@, "", "by default no error on higher minor"); test_hash ($clone); local $Storable::accept_future_minor = 0; test_corrupt ($copy, $sub, "/^Storable binary image v$header->{major}\.$minor6 more recent than I am \\(v$header->{major}\.$minor\\)/", "higher minor"); } $copy = $contents; my $major1 = $header->{major} + 1; substr ($copy, $file_magic, 1) = chr 2*$major1; test_corrupt ($copy, $sub, "/^Storable binary image v$major1\.$header->{minor} more recent than I am \\(v$header->{major}\.$minor\\)/", "higher major"); # Continue messing with the previous copy my $minor1 = $header->{minor} - 1; substr ($copy, $file_magic + 1, 1) = chr $minor1; test_corrupt ($copy, $sub, "/^Storable binary image v$major1\.$minor1 more recent than I am \\(v$header->{major}\.$minor\\)/", "higher major, lower minor"); my $where; if (!$isnetwork) { # All these are omitted from the network order header. # I'm not sure if it's correct to omit the byte size stuff. $copy = $contents; substr ($copy, $file_magic + 3, length $header->{byteorder}) = reverse $header->{byteorder}; test_corrupt ($copy, $sub, "/^Byte order is not compatible/", "byte order"); $where = $file_magic + 3 + length $header->{byteorder}; foreach (['intsize', "Integer"], ['longsize', "Long integer"], ['ptrsize', "Pointer"], ['nvsize', "Double"]) { my ($key, $name) = @$_; $copy = $contents; substr ($copy, $where++, 1) = chr 0; test_corrupt ($copy, $sub, "/^$name size is not compatible/", "$name size"); } } else { $where = $file_magic + $network_magic; } # Just the header and a tag 255. As 31 is currently the highest tag, this # is "unexpected" $copy = substr ($contents, 0, $where) . chr 255; test_corrupt ($copy, $sub, "/^Corrupted storable $what \\(binary v$header->{major}.$header->{minor}\\)/", "bogus tag"); # Now drop the minor version number substr ($copy, $file_magic + 1, 1) = chr $minor1; test_corrupt ($copy, $sub, "/^Corrupted storable $what \\(binary v$header->{major}.$minor1\\)/", "bogus tag, minor less 1"); # Now increase the minor version number substr ($copy, $file_magic + 1, 1) = chr $minor6; # local $Storable::DEBUGME = 1; # This is the delayed croak test_corrupt ($copy, $sub, "/^Storable binary image v$header->{major}.$minor6 contains data of type 255. This Storable is v$header->{major}.$minor and can only handle data types up to 31/", "bogus tag, minor plus 4"); # And check again that this croak is not delayed: { # local $Storable::DEBUGME = 1; local $Storable::accept_future_minor = 0; test_corrupt ($copy, $sub, "/^Storable binary image v$header->{major}\.$minor6 more recent than I am \\(v$header->{major}\.$minor\\)/", "higher minor"); } } ok (defined store(\%hash, $file)); my $expected = 20 + length ($file_magic_str) + $other_magic + $fancy; my $length = -s $file; die "Don't seem to have written file '$file' as I can't get its length: $!" unless defined $file; die "Expected file to be $expected bytes (sizeof long is $Config{longsize}) but it is $length" unless $length == $expected; # Read the contents into memory: my $contents = slurp ($file); # Test the original direct from disk my $clone = retrieve $file; test_hash ($clone); # Then test it. test_things($contents, \&store_and_retrieve, 'file'); # And now try almost everything again with a Storable string my $stored = freeze \%hash; test_things($stored, \&freeze_and_thaw, 'string'); # Network order. unlink $file or die "Can't unlink '$file': $!"; ok (defined nstore(\%hash, $file)); $expected = 20 + length ($file_magic_str) + $network_magic + $fancy; $length = -s $file; die "Don't seem to have written file '$file' as I can't get its length: $!" unless defined $file; die "Expected file to be $expected bytes (sizeof long is $Config{longsize}) but it is $length" unless $length == $expected; # Read the contents into memory: $contents = slurp ($file); # Test the original direct from disk $clone = retrieve $file; test_hash ($clone); # Then test it. test_things($contents, \&store_and_retrieve, 'file', 1); # And now try almost everything again with a Storable string $stored = nfreeze \%hash; test_things($stored, \&freeze_and_thaw, 'string', 1); # Test that the bug fixed by #20587 doesn't affect us under some older # Perl. AMS 20030901 { chop(my $a = chr(0xDF).chr(256)); my %a = (chr(0xDF) => 1); $a{$a}++; freeze \%a; # If we were built with -DDEBUGGING, the assert() should have killed # us, which will probably alert the user that something went wrong. ok(1); } # Unusual in that the empty string is stored with an SX_LSCALAR marker my $hash = store_and_retrieve("pst0\5\6\3\0\0\0\1\1\0\0\0\0\0\0\0\5empty"); ok(!$@, "no exception"); is(ref($hash), "HASH", "got a hash"); is($hash->{empty}, "", "got empty element");