package LWPx::ParanoidAgent; require LWP::UserAgent; use vars qw(@ISA $VERSION); @ISA = qw(LWP::UserAgent); $VERSION = '1.04'; require HTTP::Request; require HTTP::Response; use HTTP::Status (); use strict; use Net::DNS; sub new { my $class = shift; my %opts = @_; my $blocked_hosts = delete $opts{blocked_hosts} || []; my $whitelisted_hosts = delete $opts{whitelisted_hosts} || []; my $resolver = delete $opts{resolver}; my $paranoid_proxy = delete $opts{paranoid_proxy}; $opts{timeout} ||= 15; my $self = LWP::UserAgent->new( %opts ); $self->{'blocked_hosts'} = $blocked_hosts; $self->{'whitelisted_hosts'} = $whitelisted_hosts; $self->{'resolver'} = $resolver; $self->{'paranoid_proxy'} = $paranoid_proxy; $self = bless $self, $class; return $self; } # returns seconds remaining given a request sub _time_remain { my $self = shift; my $req = shift; my $now = time(); my $start_time = $req->{_time_begin} || $now; return $start_time + $self->{timeout} - $now; } sub _resolve { my ($self, $host, $request, $timeout, $depth) = @_; my $res = $self->resolver; $depth ||= 0; die "CNAME recursion depth limit exceeded.\n" if $depth > 10; die "DNS lookup resulted in bad host." if $self->_bad_host($host); # return the IP address if it looks like one and wasn't marked bad return ($host) if $host =~ /^\d+\.\d+\.\d+\.\d+$/; my $sock = $res->bgsend($host) or die "No sock from bgsend"; # wait for the socket to become readable, unless this is from our test # mock resolver. unless ($sock && $sock eq "MOCK") { my $rin = ''; vec($rin, fileno($sock), 1) = 1; my $nf = select($rin, undef, undef, $self->_time_remain($request)); die "DNS lookup timeout" unless $nf; } my $packet = $res->bgread($sock) or die "DNS bgread failure"; $sock = undef; my @addr; my $cname; foreach my $rr ($packet->answer) { if ($rr->type eq "A") { die "Suspicious DNS results from A record\n" if $self->_bad_host($rr->address); # untaints the address: push @addr, join(".", ($rr->address =~ /^(\d+)\.(\d+)\.(\d+)\.(\d+)$/)); } elsif ($rr->type eq "CNAME") { # will be checked for validity in the recursion path $cname = $rr->cname; } } return @addr if @addr; return () unless $cname; return $self->_resolve($cname, $request, $timeout, $depth + 1); } sub _host_list_match { my $self = shift; my $list_name = shift; my $host = shift; foreach my $rule (@{ $self->{$list_name} || [] }) { if (ref $rule eq "CODE") { return 1 if $rule->($host); } elsif (ref $rule) { # assume regexp return 1 if $host =~ /$rule/; } else { return 1 if $host eq $rule; } } } sub _bad_host { my $self = shift; my $host = lc(shift); return 0 if $self->_host_list_match("whitelisted_hosts", $host); return 1 if $self->_host_list_match("blocked_hosts", $host); return 1 if $host =~ /^localhost$/i || # localhost is bad. even though it'd be stopped in # a later call to _bad_host with the IP address $host =~ /\s/i; # any whitespace is questionable # Let's assume it's an IP address now, and get it into 32 bits. # Uf at any time something doesn't look like a number, then it's # probably a hostname and we've already either whitelisted or # blacklisted those, so we'll just say it's okay and it'll come # back here later when the resolver finds an IP address. my @parts = split(/\./, $host); return 0 if @parts > 4; # un-octal/un-hex the parts, or return if there's a non-numeric part my $overflow_flag = 0; foreach (@parts) { return 0 unless /^\d+$/ || /^0x[a-f\d]+$/; local $SIG{__WARN__} = sub { $overflow_flag = 1; }; $_ = oct($_) if /^0/; } # a purely numeric address shouldn't overflow. return 1 if $overflow_flag; my $addr; # network order packed IP address return 0 if ((not @parts) || (@parts > 4)); if (@parts == 1) { # a - 32 bits return 1 if $parts[0] > 0xffffffff; $addr = pack("N", $parts[0]); } elsif (@parts == 2) { # a.b - 8.24 bits return 1 if $parts[0] > 0xff || $parts[1] > 0xffffff; $addr = pack("N", $parts[0] << 24 | $parts[1]); } elsif (@parts == 3) { # a.b.c - 8.8.16 bits return 1 if $parts[0] > 0xff || $parts[1] > 0xff || $parts[2] > 0xffff; $addr = pack("N", $parts[0] << 24 | $parts[1] << 16 | $parts[2]); } else { # a.b.c.d - 8.8.8.8 bits return 1 if $parts[0] > 0xff || $parts[1] > 0xff || $parts[2] > 0xff || $parts[3] > 0xff; $addr = pack("N", $parts[0] << 24 | $parts[1] << 16 | $parts[2] << 8 | $parts[3]); } my $haddr = unpack("N", $addr); # host order IP address return 1 if ($haddr & 0xFF000000) == 0x00000000 || # 0.0.0.0/8 ($haddr & 0xFF000000) == 0x0A000000 || # 10.0.0.0/8 ($haddr & 0xFF000000) == 0x7F000000 || # 127.0.0.0/8 ($haddr & 0xFFF00000) == 0xAC100000 || # 172.16.0.0/12 ($haddr & 0xFFFF0000) == 0xA9FE0000 || # 169.254.0.0/16 ($haddr & 0xFFFF0000) == 0xC0A80000 || # 192.168.0.0/16 ($haddr & 0xFFFFFF00) == 0xC0000200 || # 192.0.2.0/24 "TEST-NET" docs/example code ($haddr & 0xFFFFFF00) == 0xC0586300 || # 192.88.99.0/24 6to4 relay anycast addresses $haddr == 0xFFFFFFFF || # 255.255.255.255 ($haddr & 0xF0000000) == 0xE0000000; # multicast addresses # as final IP address check, pass in the canonical a.b.c.d decimal form # to the blacklisted host check to see if matches as bad there. my $can_ip = join(".", map { ord } split //, $addr); return 1 if $self->_host_list_match("blocked_hosts", $can_ip); # looks like an okay IP address return 0; } sub request { my ($self, $req, $arg, $size, $previous) = @_; # walk back to the first request, and set our _time_begin to its _time_begin, or if # we're the first, then use current time. used by LWPx::Protocol::http_paranoid my $first_res = $previous; # previous is the previous response that invoked this request $first_res = $first_res->previous while $first_res && $first_res->previous; $req->{_time_begin} = $first_res ? $first_res->request->{_time_begin} : time(); my $host; eval { $host = $req->uri->host }; if ($@ || !$host || $self->_bad_host($host)) { my $err_res = HTTP::Response->new(403, "Unauthorized access to blocked host"); $err_res->request($req); $err_res->header("Client-Date" => HTTP::Date::time2str(time)); $err_res->header("Client-Warning" => "Internal response"); $err_res->header("Content-Type" => "text/plain"); $err_res->content("403 Unauthorized access to blocked host\n"); return $err_res; } if (my $pp = $self->{paranoid_proxy}) { $req->uri("$pp?url=" . eurl($req->uri) . "&timeout=" . ($self->{timeout} + 0) . "&max_size=" . ($self->{max_size} + 0)); } return $self->SUPER::request($req, $arg, $size, $previous); } # taken from LWP::UserAgent and modified slightly. (proxy support removed, # and map http and https schemes to separate protocol handlers) sub send_request { my ($self, $request, $arg, $size) = @_; $self->_request_sanity_check($request); my ($method, $url) = ($request->method, $request->uri); local($SIG{__DIE__}); # protect against user defined die handlers # Check that we have a METHOD and a URL first return _new_response($request, &HTTP::Status::RC_BAD_REQUEST, "Method missing") unless $method; return _new_response($request, &HTTP::Status::RC_BAD_REQUEST, "URL missing") unless $url; return _new_response($request, &HTTP::Status::RC_BAD_REQUEST, "URL must be absolute") unless $url->scheme; return _new_response($request, &HTTP::Status::RC_BAD_REQUEST, "ParanoidAgent doesn't support going through proxies. ". "In that case, do your paranoia at your proxy instead.") if $self->_need_proxy($url); my $scheme = $url->scheme; return _new_response($request, &HTTP::Status::RC_BAD_REQUEST, "Only http and https are supported by ParanoidAgent") unless $scheme eq "http" || $scheme eq "https"; my $protocol; { # Honor object-specific restrictions by forcing protocol objects # into class LWP::Protocol::nogo. my $x; if($x = $self->protocols_allowed) { if(grep lc($_) eq $scheme, @$x) { } else { require LWP::Protocol::nogo; $protocol = LWP::Protocol::nogo->new; } } elsif ($x = $self->protocols_forbidden) { if(grep lc($_) eq $scheme, @$x) { require LWP::Protocol::nogo; $protocol = LWP::Protocol::nogo->new; } else { } } # else fall thru and create the protocol object normally } unless ($protocol) { LWP::Protocol::implementor("${scheme}_paranoid", "LWPx::Protocol::${scheme}_paranoid"); eval "require LWPx::Protocol::${scheme}_paranoid;"; if ($@) { $@ =~ s/ at .* line \d+.*//s; # remove file/line number my $response = _new_response($request, &HTTP::Status::RC_NOT_IMPLEMENTED, $@); return $response; } $protocol = eval { LWP::Protocol::create($scheme eq "http" ? "http_paranoid" : "https_paranoid", $self) }; if ($@) { $@ =~ s/ at .* line \d+.*//s; # remove file/line number my $response = _new_response($request, &HTTP::Status::RC_NOT_IMPLEMENTED, $@); if ($scheme eq "https") { $response->message($response->message . " (Crypt::SSLeay not installed)"); $response->content_type("text/plain"); $response->content(<. EOT } return $response; } } # Extract fields that will be used below my ($timeout, $cookie_jar, $use_eval, $parse_head, $max_size) = @{$self}{qw(timeout cookie_jar use_eval parse_head max_size)}; my $response; my $proxy = undef; if ($use_eval) { # we eval, and turn dies into responses below eval { $response = $protocol->request($request, $proxy, $arg, $size, $timeout); }; if ($@) { $@ =~ s/ at .* line \d+.*//s; # remove file/line number $response = _new_response($request, &HTTP::Status::RC_INTERNAL_SERVER_ERROR, $@); } } else { $response = $protocol->request($request, $proxy, $arg, $size, $timeout); # XXX: Should we die unless $response->is_success ??? } $response->request($request); # record request for reference $cookie_jar->extract_cookies($response) if $cookie_jar; $response->header("Client-Date" => HTTP::Date::time2str(time)); return $response; } # blocked hostnames, compiled patterns, or subrefs sub blocked_hosts { my $self = shift; if (@_) { my @hosts = @_; $self->{'blocked_hosts'} = \@hosts; return; } return @{ $self->{'blocked_hosts'} || [] }; } # whitelisted hostnames, compiled patterns, or subrefs sub whitelisted_hosts { my $self = shift; if (@_) { my @hosts = @_; $self->{'whitelisted_hosts'} = \@hosts; return; } return @{ $self->{'whitelisted_hosts'} || [] }; } # get/set Net::DNS resolver object sub resolver { my $self = shift; if (@_) { $self->{'resolver'} = shift; require UNIVERSAL ; die "Not a Net::DNS::Resolver object" unless UNIVERSAL::isa($self->{'resolver'}, "Net::DNS::Resolver"); } return $self->{'resolver'} ||= Net::DNS::Resolver->new; } # Taken directly from LWP::UserAgent because it was private there, and we can't depend on it # staying there in future versions: needed by our modified version of send_request sub _need_proxy { my($self, $url) = @_; $url = $HTTP::URI_CLASS->new($url) unless ref $url; my $scheme = $url->scheme || return; if (my $proxy = $self->{'proxy'}{$scheme}) { if ($self->{'no_proxy'} && @{ $self->{'no_proxy'} }) { if (my $host = eval { $url->host }) { for my $domain (@{ $self->{'no_proxy'} }) { if ($host =~ /\Q$domain\E$/) { return; } } } } return $HTTP::URI_CLASS->new($proxy); } undef; } # Taken directly from LWP::UserAgent because it was private there, and we can't depend on it # staying there in future versions: needed by our modified version of send_request sub _request_sanity_check { my($self, $request) = @_; # some sanity checking if (defined $request) { if (ref $request) { Carp::croak("You need a request object, not a " . ref($request) . " object") if ref($request) eq 'ARRAY' or ref($request) eq 'HASH' or !$request->can('method') or !$request->can('uri'); } else { Carp::croak("You need a request object, not '$request'"); } } else { Carp::croak("No request object passed in"); } } # Taken directly from LWP::UserAgent because it was private there, and we can't depend on it # staying there in future versions: needed by our modified version of send_request sub _new_response { my($request, $code, $message) = @_; my $response = HTTP::Response->new($code, $message); $response->request($request); $response->header("Client-Date" => HTTP::Date::time2str(time)); $response->header("Client-Warning" => "Internal response"); $response->header("Content-Type" => "text/plain"); $response->content("$code $message\n"); return $response; } sub eurl { my $a = $_[0]; $a =~ s/([^a-zA-Z0-9_\,\-.\/\\\: ])/uc sprintf("%%%02x",ord($1))/eg; $a =~ tr/ /+/; return $a; } 1; __END__ =head1 NAME LWPx::ParanoidAgent - subclass of LWP::UserAgent that protects you from harm =head1 SYNOPSIS require LWPx::ParanoidAgent; my $ua = LWPx::ParanoidAgent->new; # this is 10 seconds overall, from start to finish. not just between # socket reads. and it includes all redirects. so attackers telling # you to download from a malicious tarpit webserver can only stall # you for $n seconds $ua->timeout(10); # setup extra block lists, in addition to the always-enforced blocking # of private IP addresses, loopbacks, and multicast addresses $ua->blocked_hosts( "foo.com", qr/\.internal\.company\.com$/i, sub { my $host = shift; return 1 if is_bad($host); }, ); $ua->whitelisted_hosts( "brad.lj", qr/^192\.168\.64\.3?/, sub { ... }, ); # get/set the DNS resolver object that's used my $resolver = $ua->resolver; $ua->resolver(Net::DNS::Resolver->new(...)); # and then just like a normal LWP::UserAgent, because it is one. my $response = $ua->get('http://search.cpan.org/'); ... if ($response->is_success) { print $response->content; # or whatever } else { die $response->status_line; } =head1 DESCRIPTION The C is a class subclassing C, but paranoid against attackers. It's to be used when you're fetching a remote resource on behalf of a possibly malicious user. This class can do whatever C can (callbacks, uploads from files, etc), except proxy support is explicitly removed, because in that case you should do your paranoia at your proxy. Also, the schemes are limited to http and https, which are mapped to C and C, respectively, which are forked versions of the same ones without the "_paranoid". Subclassing them didn't look possible, as they were essentially just one huge function. This class protects you from connecting to internal IP ranges (unless you whitelist them), hostnames/IPs that you blacklist, remote webserver tarpitting your process (the timeout parameter is changed to be a global timeout over the entire process), and all combinations of redirects and DNS tricks to otherwise tarpit and/or connect to internal resources. =head1 CONSTRUCTOR =over 4 =item C my $ua = LWPx::ParanoidAgent->new([ %opts ]); In addition to any constructor options from L, you may also set C (to an arrayref), C (also an arrayref), and C, a Net::DNS::Resolver object. =back =head1 METHODS =over 4 =item $csr->B($net_dns_resolver) =item $csr->B Get/set the L object used to lookup hostnames. =item $csr->B(@host_list) =item $csr->B Get/set the the list of blocked hosts. The items in @host_list may be compiled regular expressions (with qr//), code blocks, or scalar literals. In any case, the thing that is match, passed in, or compared (respectively), is all of the given hostname, given IP address, and IP address in canonical a.b.c.d decimal notation. So if you want to block "1.2.3.4" and the user entered it in a mix of network/host form in a mix of decimal/octal/hex, you need only block "1.2.3.4" and not worry about the details. =item $csr->B(@host_list) =item $csr->B Like blocked hosts, but matching the hosts/IPs that bypass blocking checks. The only difference is the IP address isn't canonicalized before being whitelisted-matched, mostly because it doesn't make sense for somebody to enter in a good address in a subversive way. =back =head1 SEE ALSO See L to see how to use this class. =head1 WARRANTY This module is supplied "as-is" and comes with no warranty, expressed or implied. It tries to protect you from harm, but maybe it will. Maybe it will destroy your data and your servers. You'd better audit it and send me bug reports. =head1 BUGS Maybe. See the warranty above. =head1 COPYRIGHT Copyright 2005 Brad Fitzpatrick Lot of code from the the base class, copyright 1995-2004 Gisle Aas. This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.