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package Safe; use 5.003_11; use Scalar::Util qw(reftype refaddr); $Safe::VERSION = "2.43"; # *** Don't declare any lexicals above this point *** # # This function should return a closure which contains an eval that can't # see any lexicals in scope (apart from __ExPr__ which is unavoidable) sub lexless_anon_sub { # $_[0] is package; # $_[1] is strict flag; my $__ExPr__ = $_[2]; # must be a lexical to create the closure that # can be used to pass the value into the safe # world # Create anon sub ref in root of compartment. # Uses a closure (on $__ExPr__) to pass in the code to be executed. # (eval on one line to keep line numbers as expected by caller) eval sprintf 'package %s; %s sub { @_=(); eval q[local *SIG; my $__ExPr__;] . $__ExPr__; }', $_[0], $_[1] ? 'use strict;' : ''; } use strict; use Carp; BEGIN { eval q{ use Carp::Heavy; } } use B (); BEGIN { no strict 'refs'; if (defined &B::sub_generation) { *sub_generation = \&B::sub_generation; } else { # fake sub generation changing for perls < 5.8.9 my $sg; *sub_generation = sub { ++$sg }; } } use Opcode 1.01, qw( opset opset_to_ops opmask_add empty_opset full_opset invert_opset verify_opset opdesc opcodes opmask define_optag opset_to_hex ); *ops_to_opset = \&opset; # Temporary alias for old Penguins # Regular expressions and other unicode-aware code may need to call # utf8->SWASHNEW (via perl's utf8.c). That will fail unless we share the # SWASHNEW method. # Sadly we can't just add utf8::SWASHNEW to $default_share because perl's # utf8.c code does a fetchmethod on SWASHNEW to check if utf8.pm is loaded, # and sharing makes it look like the method exists. # The simplest and most robust fix is to ensure the utf8 module is loaded when # Safe is loaded. Then we can add utf8::SWASHNEW to $default_share. require utf8; # we must ensure that utf8_heavy.pl, where SWASHNEW is defined, is loaded # but without depending on too much knowledge of that implementation detail. # This code (//i on a unicode string) should ensure utf8 is fully loaded # and also loads the ToFold SWASH, unless things change so that these # particular code points don't cause it to load. # (Swashes are cached internally by perl in PL_utf8_* variables # independent of being inside/outside of Safe. So once loaded they can be) do { my $a = pack('U',0x100); $a =~ m/\x{1234}/; $a =~ tr/\x{1234}//; }; # now we can safely include utf8::SWASHNEW in $default_share defined below. my $default_root = 0; # share *_ and functions defined in universal.c # Don't share stuff like *UNIVERSAL:: otherwise code from the # compartment can 0wn functions in UNIVERSAL my $default_share = [qw[ *_ &PerlIO::get_layers &UNIVERSAL::isa &UNIVERSAL::can &UNIVERSAL::VERSION &utf8::is_utf8 &utf8::valid &utf8::encode &utf8::decode &utf8::upgrade &utf8::downgrade &utf8::native_to_unicode &utf8::unicode_to_native &utf8::SWASHNEW $version::VERSION $version::CLASS $version::STRICT $version::LAX @version::ISA ], ($] < 5.010 && qw[ &utf8::SWASHGET ]), ($] >= 5.008001 && qw[ &Regexp::DESTROY ]), ($] >= 5.010 && qw[ &re::is_regexp &re::regname &re::regnames &re::regnames_count &UNIVERSAL::DOES &version::() &version::new &version::("" &version::stringify &version::(0+ &version::numify &version::normal &version::(cmp &version::(<=> &version::vcmp &version::(bool &version::boolean &version::(nomethod &version::noop &version::is_alpha &version::qv &version::vxs::declare &version::vxs::qv &version::vxs::_VERSION &version::vxs::stringify &version::vxs::new &version::vxs::parse &version::vxs::VCMP ]), ($] >= 5.011 && qw[ &re::regexp_pattern ]), ($] >= 5.010 && $] < 5.014 && qw[ &Tie::Hash::NamedCapture::FETCH &Tie::Hash::NamedCapture::STORE &Tie::Hash::NamedCapture::DELETE &Tie::Hash::NamedCapture::CLEAR &Tie::Hash::NamedCapture::EXISTS &Tie::Hash::NamedCapture::FIRSTKEY &Tie::Hash::NamedCapture::NEXTKEY &Tie::Hash::NamedCapture::SCALAR &Tie::Hash::NamedCapture::flags ])]; if (defined $Devel::Cover::VERSION) { push @$default_share, '&Devel::Cover::use_file'; } sub new { my($class, $root, $mask) = @_; my $obj = {}; bless $obj, $class; if (defined($root)) { croak "Can't use \"$root\" as root name" if $root =~ /^main\b/ or $root !~ /^\w[:\w]*$/; $obj->{Root} = $root; $obj->{Erase} = 0; } else { $obj->{Root} = "Safe::Root".$default_root++; $obj->{Erase} = 1; } # use permit/deny methods instead till interface issues resolved # XXX perhaps new Safe 'Root', mask => $mask, foo => bar, ...; croak "Mask parameter to new no longer supported" if defined $mask; $obj->permit_only(':default'); # We must share $_ and @_ with the compartment or else ops such # as split, length and so on won't default to $_ properly, nor # will passing argument to subroutines work (via @_). In fact, # for reasons I don't completely understand, we need to share # the whole glob *_ rather than $_ and @_ separately, otherwise # @_ in non default packages within the compartment don't work. $obj->share_from('main', $default_share); Opcode::_safe_pkg_prep($obj->{Root}) if($Opcode::VERSION > 1.04); return $obj; } sub DESTROY { my $obj = shift; $obj->erase('DESTROY') if $obj->{Erase}; } sub erase { my ($obj, $action) = @_; my $pkg = $obj->root(); my ($stem, $leaf); no strict 'refs'; $pkg = "main::$pkg\::"; # expand to full symbol table name ($stem, $leaf) = $pkg =~ m/(.*::)(\w+::)$/; # The 'my $foo' is needed! Without it you get an # 'Attempt to free unreferenced scalar' warning! my $stem_symtab = *{$stem}{HASH}; #warn "erase($pkg) stem=$stem, leaf=$leaf"; #warn " stem_symtab hash ".scalar(%$stem_symtab)."\n"; # ", join(', ', %$stem_symtab),"\n"; # delete $stem_symtab->{$leaf}; my $leaf_glob = $stem_symtab->{$leaf}; my $leaf_symtab = *{$leaf_glob}{HASH}; # warn " leaf_symtab ", join(', ', %$leaf_symtab),"\n"; %$leaf_symtab = (); #delete $leaf_symtab->{'__ANON__'}; #delete $leaf_symtab->{'foo'}; #delete $leaf_symtab->{'main::'}; # my $foo = undef ${"$stem\::"}{"$leaf\::"}; if ($action and $action eq 'DESTROY') { delete $stem_symtab->{$leaf}; } else { $obj->share_from('main', $default_share); } 1; } sub reinit { my $obj= shift; $obj->erase; $obj->share_redo; } sub root { my $obj = shift; croak("Safe root method now read-only") if @_; return $obj->{Root}; } sub mask { my $obj = shift; return $obj->{Mask} unless @_; $obj->deny_only(@_); } # v1 compatibility methods sub trap { shift->deny(@_) } sub untrap { shift->permit(@_) } sub deny { my $obj = shift; $obj->{Mask} |= opset(@_); } sub deny_only { my $obj = shift; $obj->{Mask} = opset(@_); } sub permit { my $obj = shift; # XXX needs testing $obj->{Mask} &= invert_opset opset(@_); } sub permit_only { my $obj = shift; $obj->{Mask} = invert_opset opset(@_); } sub dump_mask { my $obj = shift; print opset_to_hex($obj->{Mask}),"\n"; } sub share { my($obj, @vars) = @_; $obj->share_from(scalar(caller), \@vars); } sub share_from { my $obj = shift; my $pkg = shift; my $vars = shift; my $no_record = shift || 0; my $root = $obj->root(); croak("vars not an array ref") unless ref $vars eq 'ARRAY'; no strict 'refs'; # Check that 'from' package actually exists croak("Package \"$pkg\" does not exist") unless keys %{"$pkg\::"}; my $arg; foreach $arg (@$vars) { # catch some $safe->share($var) errors: my ($var, $type); $type = $1 if ($var = $arg) =~ s/^(\W)//; # warn "share_from $pkg $type $var"; for (1..2) { # assign twice to avoid any 'used once' warnings *{$root."::$var"} = (!$type) ? \&{$pkg."::$var"} : ($type eq '&') ? \&{$pkg."::$var"} : ($type eq '$') ? \${$pkg."::$var"} : ($type eq '@') ? \@{$pkg."::$var"} : ($type eq '%') ? \%{$pkg."::$var"} : ($type eq '*') ? *{$pkg."::$var"} : croak(qq(Can't share "$type$var" of unknown type)); } } $obj->share_record($pkg, $vars) unless $no_record or !$vars; } sub share_record { my $obj = shift; my $pkg = shift; my $vars = shift; my $shares = \%{$obj->{Shares} ||= {}}; # Record shares using keys of $obj->{Shares}. See reinit. @{$shares}{@$vars} = ($pkg) x @$vars if @$vars; } sub share_redo { my $obj = shift; my $shares = \%{$obj->{Shares} ||= {}}; my($var, $pkg); while(($var, $pkg) = each %$shares) { # warn "share_redo $pkg\:: $var"; $obj->share_from($pkg, [ $var ], 1); } } sub share_forget { delete shift->{Shares}; } sub varglob { my ($obj, $var) = @_; no strict 'refs'; return *{$obj->root()."::$var"}; } sub _clean_stash { my ($root, $saved_refs) = @_; $saved_refs ||= []; no strict 'refs'; foreach my $hook (qw(DESTROY AUTOLOAD), grep /^\(/, keys %$root) { push @$saved_refs, \*{$root.$hook}; delete ${$root}{$hook}; } for (grep /::$/, keys %$root) { next if \%{$root.$_} eq \%$root; _clean_stash($root.$_, $saved_refs); } } sub reval { my ($obj, $expr, $strict) = @_; die "Bad Safe object" unless $obj->isa('Safe'); my $root = $obj->{Root}; my $evalsub = lexless_anon_sub($root, $strict, $expr); # propagate context my $sg = sub_generation(); my @subret; if (defined wantarray) { @subret = (wantarray) ? Opcode::_safe_call_sv($root, $obj->{Mask}, $evalsub) : scalar Opcode::_safe_call_sv($root, $obj->{Mask}, $evalsub); } else { Opcode::_safe_call_sv($root, $obj->{Mask}, $evalsub); } _clean_stash($root.'::') if $sg != sub_generation(); $obj->wrap_code_refs_within(@subret); return (wantarray) ? @subret : $subret[0]; } my %OID; sub wrap_code_refs_within { my $obj = shift; %OID = (); $obj->_find_code_refs('wrap_code_ref', @_); } sub _find_code_refs { my $obj = shift; my $visitor = shift; for my $item (@_) { my $reftype = $item && reftype $item or next; # skip references already seen next if ++$OID{refaddr $item} > 1; if ($reftype eq 'ARRAY') { $obj->_find_code_refs($visitor, @$item); } elsif ($reftype eq 'HASH') { $obj->_find_code_refs($visitor, values %$item); } # XXX GLOBs? elsif ($reftype eq 'CODE') { $item = $obj->$visitor($item); } } } sub wrap_code_ref { my ($obj, $sub) = @_; die "Bad safe object" unless $obj->isa('Safe'); # wrap code ref $sub with _safe_call_sv so that, when called, the # execution will happen with the compartment fully 'in effect'. croak "Not a CODE reference" if reftype $sub ne 'CODE'; my $ret = sub { my @args = @_; # lexical to close over my $sub_with_args = sub { $sub->(@args) }; my @subret; my $error; do { local $@; # needed due to perl_call_sv(sv, G_EVAL|G_KEEPERR) my $sg = sub_generation(); @subret = (wantarray) ? Opcode::_safe_call_sv($obj->{Root}, $obj->{Mask}, $sub_with_args) : scalar Opcode::_safe_call_sv($obj->{Root}, $obj->{Mask}, $sub_with_args); $error = $@; _clean_stash($obj->{Root}.'::') if $sg != sub_generation(); }; if ($error) { # rethrow exception $error =~ s/\t\(in cleanup\) //; # prefix added by G_KEEPERR die $error; } return (wantarray) ? @subret : $subret[0]; }; return $ret; } sub rdo { my ($obj, $file) = @_; die "Bad Safe object" unless $obj->isa('Safe'); my $root = $obj->{Root}; my $sg = sub_generation(); my $evalsub = eval sprintf('package %s; sub { @_ = (); do $file }', $root); my @subret = (wantarray) ? Opcode::_safe_call_sv($root, $obj->{Mask}, $evalsub) : scalar Opcode::_safe_call_sv($root, $obj->{Mask}, $evalsub); _clean_stash($root.'::') if $sg != sub_generation(); $obj->wrap_code_refs_within(@subret); return (wantarray) ? @subret : $subret[0]; } 1; __END__ =head1 NAME Safe - Compile and execute code in restricted compartments =head1 SYNOPSIS use Safe; $compartment = new Safe; $compartment->permit(qw(time sort :browse)); $result = $compartment->reval($unsafe_code); =head1 DESCRIPTION The Safe extension module allows the creation of compartments in which perl code can be evaluated. Each compartment has =over 8 =item a new namespace The "root" of the namespace (i.e. "main::") is changed to a different package and code evaluated in the compartment cannot refer to variables outside this namespace, even with run-time glob lookups and other tricks. Code which is compiled outside the compartment can choose to place variables into (or I<share> variables with) the compartment's namespace and only that data will be visible to code evaluated in the compartment. By default, the only variables shared with compartments are the "underscore" variables $_ and @_ (and, technically, the less frequently used %_, the _ filehandle and so on). This is because otherwise perl operators which default to $_ will not work and neither will the assignment of arguments to @_ on subroutine entry. =item an operator mask Each compartment has an associated "operator mask". Recall that perl code is compiled into an internal format before execution. Evaluating perl code (e.g. via "eval" or "do 'file'") causes the code to be compiled into an internal format and then, provided there was no error in the compilation, executed. Code evaluated in a compartment compiles subject to the compartment's operator mask. Attempting to evaluate code in a compartment which contains a masked operator will cause the compilation to fail with an error. The code will not be executed. The default operator mask for a newly created compartment is the ':default' optag. It is important that you read the L<Opcode> module documentation for more information, especially for detailed definitions of opnames, optags and opsets. Since it is only at the compilation stage that the operator mask applies, controlled access to potentially unsafe operations can be achieved by having a handle to a wrapper subroutine (written outside the compartment) placed into the compartment. For example, $cpt = new Safe; sub wrapper { # vet arguments and perform potentially unsafe operations } $cpt->share('&wrapper'); =back =head1 WARNING The Safe module does not implement an effective sandbox for evaluating untrusted code with the perl interpreter. Bugs in the perl interpreter that could be abused to bypass Safe restrictions are not treated as vulnerabilities. See L<perlsecpolicy> for additional information. The authors make B<no warranty>, implied or otherwise, about the suitability of this software for safety or security purposes. The authors shall not in any case be liable for special, incidental, consequential, indirect or other similar damages arising from the use of this software. Your mileage will vary. If in any doubt B<do not use it>. =head1 METHODS To create a new compartment, use $cpt = new Safe; Optional argument is (NAMESPACE), where NAMESPACE is the root namespace to use for the compartment (defaults to "Safe::Root0", incremented for each new compartment). Note that version 1.00 of the Safe module supported a second optional parameter, MASK. That functionality has been withdrawn pending deeper consideration. Use the permit and deny methods described below. The following methods can then be used on the compartment object returned by the above constructor. The object argument is implicit in each case. =head2 permit (OP, ...) Permit the listed operators to be used when compiling code in the compartment (in I<addition> to any operators already permitted). You can list opcodes by names, or use a tag name; see L<Opcode/"Predefined Opcode Tags">. =head2 permit_only (OP, ...) Permit I<only> the listed operators to be used when compiling code in the compartment (I<no> other operators are permitted). =head2 deny (OP, ...) Deny the listed operators from being used when compiling code in the compartment (other operators may still be permitted). =head2 deny_only (OP, ...) Deny I<only> the listed operators from being used when compiling code in the compartment (I<all> other operators will be permitted, so you probably don't want to use this method). =head2 trap (OP, ...), untrap (OP, ...) The trap and untrap methods are synonyms for deny and permit respectfully. =head2 share (NAME, ...) This shares the variable(s) in the argument list with the compartment. This is almost identical to exporting variables using the L<Exporter> module. Each NAME must be the B<name> of a non-lexical variable, typically with the leading type identifier included. A bareword is treated as a function name. Examples of legal names are '$foo' for a scalar, '@foo' for an array, '%foo' for a hash, '&foo' or 'foo' for a subroutine and '*foo' for a glob (i.e. all symbol table entries associated with "foo", including scalar, array, hash, sub and filehandle). Each NAME is assumed to be in the calling package. See share_from for an alternative method (which C<share> uses). =head2 share_from (PACKAGE, ARRAYREF) This method is similar to share() but allows you to explicitly name the package that symbols should be shared from. The symbol names (including type characters) are supplied as an array reference. $safe->share_from('main', [ '$foo', '%bar', 'func' ]); Names can include package names, which are relative to the specified PACKAGE. So these two calls have the same effect: $safe->share_from('Scalar::Util', [ 'reftype' ]); $safe->share_from('main', [ 'Scalar::Util::reftype' ]); =head2 varglob (VARNAME) This returns a glob reference for the symbol table entry of VARNAME in the package of the compartment. VARNAME must be the B<name> of a variable without any leading type marker. For example: ${$cpt->varglob('foo')} = "Hello world"; has the same effect as: $cpt = new Safe 'Root'; $Root::foo = "Hello world"; but avoids the need to know $cpt's package name. =head2 reval (STRING, STRICT) This evaluates STRING as perl code inside the compartment. The code can only see the compartment's namespace (as returned by the B<root> method). The compartment's root package appears to be the C<main::> package to the code inside the compartment. Any attempt by the code in STRING to use an operator which is not permitted by the compartment will cause an error (at run-time of the main program but at compile-time for the code in STRING). The error is of the form "'%s' trapped by operation mask...". If an operation is trapped in this way, then the code in STRING will not be executed. If such a trapped operation occurs or any other compile-time or return error, then $@ is set to the error message, just as with an eval(). If there is no error, then the method returns the value of the last expression evaluated, or a return statement may be used, just as with subroutines and B<eval()>. The context (list or scalar) is determined by the caller as usual. If the return value of reval() is (or contains) any code reference, those code references are wrapped to be themselves executed always in the compartment. See L</wrap_code_refs_within>. The formerly undocumented STRICT argument sets strictness: if true 'use strict;' is used, otherwise it uses 'no strict;'. B<Note>: if STRICT is omitted 'no strict;' is the default. Some points to note: If the entereval op is permitted then the code can use eval "..." to 'hide' code which might use denied ops. This is not a major problem since when the code tries to execute the eval it will fail because the opmask is still in effect. However this technique would allow clever, and possibly harmful, code to 'probe' the boundaries of what is possible. Any string eval which is executed by code executing in a compartment, or by code called from code executing in a compartment, will be eval'd in the namespace of the compartment. This is potentially a serious problem. Consider a function foo() in package pkg compiled outside a compartment but shared with it. Assume the compartment has a root package called 'Root'. If foo() contains an eval statement like eval '$foo = 1' then, normally, $pkg::foo will be set to 1. If foo() is called from the compartment (by whatever means) then instead of setting $pkg::foo, the eval will actually set $Root::pkg::foo. This can easily be demonstrated by using a module, such as the Socket module, which uses eval "..." as part of an AUTOLOAD function. You can 'use' the module outside the compartment and share an (autoloaded) function with the compartment. If an autoload is triggered by code in the compartment, or by any code anywhere that is called by any means from the compartment, then the eval in the Socket module's AUTOLOAD function happens in the namespace of the compartment. Any variables created or used by the eval'd code are now under the control of the code in the compartment. A similar effect applies to I<all> runtime symbol lookups in code called from a compartment but not compiled within it. =head2 rdo (FILENAME) This evaluates the contents of file FILENAME inside the compartment. It uses the same rules as perl's built-in C<do> to locate the file, poossibly using C<@INC>. See above documentation on the B<reval> method for further details. =head2 root (NAMESPACE) This method returns the name of the package that is the root of the compartment's namespace. Note that this behaviour differs from version 1.00 of the Safe module where the root module could be used to change the namespace. That functionality has been withdrawn pending deeper consideration. =head2 mask (MASK) This is a get-or-set method for the compartment's operator mask. With no MASK argument present, it returns the current operator mask of the compartment. With the MASK argument present, it sets the operator mask for the compartment (equivalent to calling the deny_only method). =head2 wrap_code_ref (CODEREF) Returns a reference to an anonymous subroutine that, when executed, will call CODEREF with the Safe compartment 'in effect'. In other words, with the package namespace adjusted and the opmask enabled. Note that the opmask doesn't affect the already compiled code, it only affects any I<further> compilation that the already compiled code may try to perform. This is particularly useful when applied to code references returned from reval(). (It also provides a kind of workaround for RT#60374: "Safe.pm sort {} bug with -Dusethreads". See L<https://rt.perl.org/rt3//Public/Bug/Display.html?id=60374> for I<much> more detail.) =head2 wrap_code_refs_within (...) Wraps any CODE references found within the arguments by replacing each with the result of calling L</wrap_code_ref> on the CODE reference. Any ARRAY or HASH references in the arguments are inspected recursively. Returns nothing. =head1 RISKS This section is just an outline of some of the things code in a compartment might do (intentionally or unintentionally) which can have an effect outside the compartment. =over 8 =item Memory Consuming all (or nearly all) available memory. =item CPU Causing infinite loops etc. =item Snooping Copying private information out of your system. Even something as simple as your user name is of value to others. Much useful information could be gleaned from your environment variables for example. =item Signals Causing signals (especially SIGFPE and SIGALARM) to affect your process. Setting up a signal handler will need to be carefully considered and controlled. What mask is in effect when a signal handler gets called? If a user can get an imported function to get an exception and call the user's signal handler, does that user's restricted mask get re-instated before the handler is called? Does an imported handler get called with its original mask or the user's one? =item State Changes Ops such as chdir obviously effect the process as a whole and not just the code in the compartment. Ops such as rand and srand have a similar but more subtle effect. =back =head1 AUTHOR Originally designed and implemented by Malcolm Beattie. Reworked to use the Opcode module and other changes added by Tim Bunce. Currently maintained by the Perl 5 Porters, <perl5-porters@perl.org>. =cut