352 lines
16 KiB
Plaintext
352 lines
16 KiB
Plaintext
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=head1 NAME
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perlsec - Perl security
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=head1 DESCRIPTION
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Perl is designed to make it easy to program securely even when running
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with extra privileges, like setuid or setgid programs. Unlike most
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command line shells, which are based on multiple substitution passes on
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each line of the script, Perl uses a more conventional evaluation scheme
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with fewer hidden snags. Additionally, because the language has more
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builtin functionality, it can rely less upon external (and possibly
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untrustworthy) programs to accomplish its purposes.
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Perl automatically enables a set of special security checks, called I<taint
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mode>, when it detects its program running with differing real and effective
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user or group IDs. The setuid bit in Unix permissions is mode 04000, the
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setgid bit mode 02000; either or both may be set. You can also enable taint
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mode explicitly by using the B<-T> command line flag. This flag is
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I<strongly> suggested for server programs and any program run on behalf of
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someone else, such as a CGI script. Once taint mode is on, it's on for
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the remainder of your script.
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While in this mode, Perl takes special precautions called I<taint
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checks> to prevent both obvious and subtle traps. Some of these checks
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are reasonably simple, such as verifying that path directories aren't
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writable by others; careful programmers have always used checks like
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these. Other checks, however, are best supported by the language itself,
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and it is these checks especially that contribute to making a set-id Perl
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program more secure than the corresponding C program.
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You may not use data derived from outside your program to affect
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something else outside your program--at least, not by accident. All
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command line arguments, environment variables, locale information (see
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L<perllocale>), results of certain system calls (readdir, readlink,
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the gecos field of getpw* calls), and all file input are marked as
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"tainted". Tainted data may not be used directly or indirectly in any
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command that invokes a sub-shell, nor in any command that modifies
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files, directories, or processes. (B<Important exception>: If you pass
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a list of arguments to either C<system> or C<exec>, the elements of
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that list are B<NOT> checked for taintedness.) Any variable set
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to a value derived from tainted data will itself be tainted,
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even if it is logically impossible for the tainted data
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to alter the variable. Because taintedness is associated with each
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scalar value, some elements of an array can be tainted and others not.
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For example:
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$arg = shift; # $arg is tainted
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$hid = $arg, 'bar'; # $hid is also tainted
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$line = <>; # Tainted
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$line = <STDIN>; # Also tainted
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open FOO, "/home/me/bar" or die $!;
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$line = <FOO>; # Still tainted
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$path = $ENV{'PATH'}; # Tainted, but see below
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$data = 'abc'; # Not tainted
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system "echo $arg"; # Insecure
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system "/bin/echo", $arg; # Secure (doesn't use sh)
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system "echo $hid"; # Insecure
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system "echo $data"; # Insecure until PATH set
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$path = $ENV{'PATH'}; # $path now tainted
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$ENV{'PATH'} = '/bin:/usr/bin';
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delete @ENV{'IFS', 'CDPATH', 'ENV', 'BASH_ENV'};
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$path = $ENV{'PATH'}; # $path now NOT tainted
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system "echo $data"; # Is secure now!
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open(FOO, "< $arg"); # OK - read-only file
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open(FOO, "> $arg"); # Not OK - trying to write
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open(FOO,"echo $arg|"); # Not OK, but...
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open(FOO,"-|")
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or exec 'echo', $arg; # OK
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$shout = `echo $arg`; # Insecure, $shout now tainted
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unlink $data, $arg; # Insecure
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umask $arg; # Insecure
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exec "echo $arg"; # Insecure
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exec "echo", $arg; # Secure (doesn't use the shell)
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exec "sh", '-c', $arg; # Considered secure, alas!
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@files = <*.c>; # Always insecure (uses csh)
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@files = glob('*.c'); # Always insecure (uses csh)
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If you try to do something insecure, you will get a fatal error saying
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something like "Insecure dependency" or "Insecure $ENV{PATH}". Note that you
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can still write an insecure B<system> or B<exec>, but only by explicitly
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doing something like the "considered secure" example above.
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=head2 Laundering and Detecting Tainted Data
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To test whether a variable contains tainted data, and whose use would thus
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trigger an "Insecure dependency" message, check your nearby CPAN mirror
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for the F<Taint.pm> module, which should become available around November
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1997. Or you may be able to use the following I<is_tainted()> function.
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sub is_tainted {
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return ! eval {
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join('',@_), kill 0;
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1;
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};
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}
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This function makes use of the fact that the presence of tainted data
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anywhere within an expression renders the entire expression tainted. It
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would be inefficient for every operator to test every argument for
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taintedness. Instead, the slightly more efficient and conservative
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approach is used that if any tainted value has been accessed within the
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same expression, the whole expression is considered tainted.
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But testing for taintedness gets you only so far. Sometimes you have just
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to clear your data's taintedness. The only way to bypass the tainting
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mechanism is by referencing subpatterns from a regular expression match.
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Perl presumes that if you reference a substring using $1, $2, etc., that
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you knew what you were doing when you wrote the pattern. That means using
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a bit of thought--don't just blindly untaint anything, or you defeat the
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entire mechanism. It's better to verify that the variable has only good
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characters (for certain values of "good") rather than checking whether it
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has any bad characters. That's because it's far too easy to miss bad
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characters that you never thought of.
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Here's a test to make sure that the data contains nothing but "word"
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characters (alphabetics, numerics, and underscores), a hyphen, an at sign,
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or a dot.
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if ($data =~ /^([-\@\w.]+)$/) {
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$data = $1; # $data now untainted
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} else {
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die "Bad data in $data"; # log this somewhere
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}
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This is fairly secure because C</\w+/> doesn't normally match shell
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metacharacters, nor are dot, dash, or at going to mean something special
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to the shell. Use of C</.+/> would have been insecure in theory because
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it lets everything through, but Perl doesn't check for that. The lesson
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is that when untainting, you must be exceedingly careful with your patterns.
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Laundering data using regular expression is the I<ONLY> mechanism for
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untainting dirty data, unless you use the strategy detailed below to fork
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a child of lesser privilege.
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The example does not untaint $data if C<use locale> is in effect,
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because the characters matched by C<\w> are determined by the locale.
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Perl considers that locale definitions are untrustworthy because they
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contain data from outside the program. If you are writing a
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locale-aware program, and want to launder data with a regular expression
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containing C<\w>, put C<no locale> ahead of the expression in the same
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block. See L<perllocale/SECURITY> for further discussion and examples.
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=head2 Switches On the "#!" Line
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When you make a script executable, in order to make it usable as a
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command, the system will pass switches to perl from the script's #!
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line. Perl checks that any command line switches given to a setuid
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(or setgid) script actually match the ones set on the #! line. Some
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Unix and Unix-like environments impose a one-switch limit on the #!
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line, so you may need to use something like C<-wU> instead of C<-w -U>
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under such systems. (This issue should arise only in Unix or
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Unix-like environments that support #! and setuid or setgid scripts.)
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=head2 Cleaning Up Your Path
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For "Insecure C<$ENV{PATH}>" messages, you need to set C<$ENV{'PATH'}> to a
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known value, and each directory in the path must be non-writable by others
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than its owner and group. You may be surprised to get this message even
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if the pathname to your executable is fully qualified. This is I<not>
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generated because you didn't supply a full path to the program; instead,
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it's generated because you never set your PATH environment variable, or
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you didn't set it to something that was safe. Because Perl can't
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guarantee that the executable in question isn't itself going to turn
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around and execute some other program that is dependent on your PATH, it
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makes sure you set the PATH.
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The PATH isn't the only environment variable which can cause problems.
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Because some shells may use the variables IFS, CDPATH, ENV, and
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BASH_ENV, Perl checks that those are either empty or untainted when
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starting subprocesses. You may wish to add something like this to your
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setid and taint-checking scripts.
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delete @ENV{qw(IFS CDPATH ENV BASH_ENV)}; # Make %ENV safer
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It's also possible to get into trouble with other operations that don't
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care whether they use tainted values. Make judicious use of the file
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tests in dealing with any user-supplied filenames. When possible, do
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opens and such B<after> properly dropping any special user (or group!)
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privileges. Perl doesn't prevent you from opening tainted filenames for reading,
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so be careful what you print out. The tainting mechanism is intended to
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prevent stupid mistakes, not to remove the need for thought.
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Perl does not call the shell to expand wild cards when you pass B<system>
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and B<exec> explicit parameter lists instead of strings with possible shell
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wildcards in them. Unfortunately, the B<open>, B<glob>, and
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backtick functions provide no such alternate calling convention, so more
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subterfuge will be required.
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Perl provides a reasonably safe way to open a file or pipe from a setuid
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or setgid program: just create a child process with reduced privilege who
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does the dirty work for you. First, fork a child using the special
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B<open> syntax that connects the parent and child by a pipe. Now the
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child resets its ID set and any other per-process attributes, like
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environment variables, umasks, current working directories, back to the
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originals or known safe values. Then the child process, which no longer
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has any special permissions, does the B<open> or other system call.
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Finally, the child passes the data it managed to access back to the
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parent. Because the file or pipe was opened in the child while running
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under less privilege than the parent, it's not apt to be tricked into
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doing something it shouldn't.
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Here's a way to do backticks reasonably safely. Notice how the B<exec> is
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not called with a string that the shell could expand. This is by far the
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best way to call something that might be subjected to shell escapes: just
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never call the shell at all.
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use English;
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die "Can't fork: $!" unless defined $pid = open(KID, "-|");
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if ($pid) { # parent
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while (<KID>) {
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# do something
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}
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close KID;
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} else {
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my @temp = ($EUID, $EGID);
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$EUID = $UID;
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$EGID = $GID; # initgroups() also called!
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# Make sure privs are really gone
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($EUID, $EGID) = @temp;
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die "Can't drop privileges"
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unless $UID == $EUID && $GID eq $EGID;
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$ENV{PATH} = "/bin:/usr/bin";
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exec 'myprog', 'arg1', 'arg2'
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or die "can't exec myprog: $!";
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}
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A similar strategy would work for wildcard expansion via C<glob>, although
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you can use C<readdir> instead.
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Taint checking is most useful when although you trust yourself not to have
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written a program to give away the farm, you don't necessarily trust those
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who end up using it not to try to trick it into doing something bad. This
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is the kind of security checking that's useful for set-id programs and
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programs launched on someone else's behalf, like CGI programs.
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This is quite different, however, from not even trusting the writer of the
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code not to try to do something evil. That's the kind of trust needed
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when someone hands you a program you've never seen before and says, "Here,
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run this." For that kind of safety, check out the Safe module,
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included standard in the Perl distribution. This module allows the
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programmer to set up special compartments in which all system operations
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are trapped and namespace access is carefully controlled.
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=head2 Security Bugs
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Beyond the obvious problems that stem from giving special privileges to
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systems as flexible as scripts, on many versions of Unix, set-id scripts
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are inherently insecure right from the start. The problem is a race
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condition in the kernel. Between the time the kernel opens the file to
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see which interpreter to run and when the (now-set-id) interpreter turns
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around and reopens the file to interpret it, the file in question may have
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changed, especially if you have symbolic links on your system.
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Fortunately, sometimes this kernel "feature" can be disabled.
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Unfortunately, there are two ways to disable it. The system can simply
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outlaw scripts with any set-id bit set, which doesn't help much.
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Alternately, it can simply ignore the set-id bits on scripts. If the
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latter is true, Perl can emulate the setuid and setgid mechanism when it
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notices the otherwise useless setuid/gid bits on Perl scripts. It does
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this via a special executable called B<suidperl> that is automatically
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invoked for you if it's needed.
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However, if the kernel set-id script feature isn't disabled, Perl will
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complain loudly that your set-id script is insecure. You'll need to
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either disable the kernel set-id script feature, or put a C wrapper around
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the script. A C wrapper is just a compiled program that does nothing
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except call your Perl program. Compiled programs are not subject to the
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kernel bug that plagues set-id scripts. Here's a simple wrapper, written
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in C:
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#define REAL_PATH "/path/to/script"
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main(ac, av)
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char **av;
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{
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execv(REAL_PATH, av);
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}
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Compile this wrapper into a binary executable and then make I<it> rather
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than your script setuid or setgid.
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See the program B<wrapsuid> in the F<eg> directory of your Perl
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distribution for a convenient way to do this automatically for all your
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setuid Perl programs. It moves setuid scripts into files with the same
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name plus a leading dot, and then compiles a wrapper like the one above
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for each of them.
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In recent years, vendors have begun to supply systems free of this
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inherent security bug. On such systems, when the kernel passes the name
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of the set-id script to open to the interpreter, rather than using a
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pathname subject to meddling, it instead passes I</dev/fd/3>. This is a
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special file already opened on the script, so that there can be no race
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condition for evil scripts to exploit. On these systems, Perl should be
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compiled with C<-DSETUID_SCRIPTS_ARE_SECURE_NOW>. The B<Configure>
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program that builds Perl tries to figure this out for itself, so you
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should never have to specify this yourself. Most modern releases of
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SysVr4 and BSD 4.4 use this approach to avoid the kernel race condition.
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Prior to release 5.003 of Perl, a bug in the code of B<suidperl> could
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introduce a security hole in systems compiled with strict POSIX
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compliance.
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=head2 Protecting Your Programs
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There are a number of ways to hide the source to your Perl programs,
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with varying levels of "security".
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First of all, however, you I<can't> take away read permission, because
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the source code has to be readable in order to be compiled and
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interpreted. (That doesn't mean that a CGI script's source is
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readable by people on the web, though.) So you have to leave the
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permissions at the socially friendly 0755 level. This lets
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people on your local system only see your source.
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Some people mistakenly regard this as a security problem. If your program does
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insecure things, and relies on people not knowing how to exploit those
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insecurities, it is not secure. It is often possible for someone to
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determine the insecure things and exploit them without viewing the
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source. Security through obscurity, the name for hiding your bugs
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instead of fixing them, is little security indeed.
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You can try using encryption via source filters (Filter::* from CPAN).
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But crackers might be able to decrypt it. You can try using the
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byte code compiler and interpreter described below, but crackers might
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be able to de-compile it. You can try using the native-code compiler
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described below, but crackers might be able to disassemble it. These
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pose varying degrees of difficulty to people wanting to get at your
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code, but none can definitively conceal it (this is true of every
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language, not just Perl).
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If you're concerned about people profiting from your code, then the
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bottom line is that nothing but a restrictive licence will give you
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legal security. License your software and pepper it with threatening
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statements like "This is unpublished proprietary software of XYZ Corp.
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Your access to it does not give you permission to use it blah blah
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blah." You should see a lawyer to be sure your licence's wording will
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stand up in court.
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=head1 SEE ALSO
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L<perlrun> for its description of cleaning up environment variables.
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