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# Mail::SpamAssassin::NetSet - object to manipulate CIDR net IP addrs # <@LICENSE> # Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to you under the Apache License, Version 2.0 # (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at: # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # </@LICENSE> package Mail::SpamAssassin::NetSet; use strict; use warnings; # use bytes; use re 'taint'; use Time::HiRes qw(time); use NetAddr::IP 4.000; use Mail::SpamAssassin::Util; use Mail::SpamAssassin::Logger; our $have_patricia; BEGIN { eval { require Net::Patricia; Net::Patricia->VERSION(1.16); # need AF_INET6 support Net::Patricia->import; $have_patricia = 1; }; } ########################################################################### sub new { my ($class,$netset_name) = @_; $class = ref($class) || $class; $netset_name = '' if !defined $netset_name; # object name for debugging my $self = { name => $netset_name, num_nets => 0, cache_hits => 0, cache_attempts => 0, }; $self->{pt} = Net::Patricia->new(&AF_INET6) if $have_patricia; bless $self, $class; $self; } ########################################################################### sub DESTROY { my($self) = shift; if (exists $self->{cache}) { local($@, $!, $_); # protect outer layers from a potential surprise my($hits, $attempts) = ($self->{cache_hits}, $self->{cache_attempts}); dbg("netset: cache %s hits/attempts: %d/%d, %.1f %%", $self->{name}, $hits, $attempts, 100*$hits/$attempts) if $attempts > 0; } } ########################################################################### sub add_cidr { my ($self, @nets) = @_; $self->{nets} ||= [ ]; my $numadded = 0; delete $self->{cache}; # invalidate cache (in case of late additions) # Pre-parse x.x.x.x-x.x.x.x range notation into CIDR blocks # requires Net::CIDR::Lite my @nets2; foreach my $cidr_orig (@nets) { next if index($cidr_orig, '-') == -1; # Triage my $cidr = $cidr_orig; my $exclude = ($cidr =~ s/^!\s*//) ? 1 : 0; local($1); $cidr =~ s/\b0+(\d+)/$1/; # Strip leading zeroes eval { require Net::CIDR::Lite; }; # Only try to load now when it's necessary if ($@) { warn "netset: IP range notation '$cidr_orig' requires Net::CIDR::Lite module, ignoring\n"; $cidr_orig = undef; next; } my $cidrs = Net::CIDR::Lite->new; eval { $cidrs->add_range($cidr); }; if ($@) { my $err = $@; $err =~ s/ at .*//s; warn "netset: illegal IP range '$cidr_orig': $err\n"; $cidr_orig = undef; next; } my @arr = $cidrs->list; if (!@arr) { my $err = $@; $err =~ s/ at .*//s; warn "netset: failed to parse IP range '$cidr_orig': $err\n"; $cidr_orig = undef; next; } # Save exclude flag if ($exclude) { $_ = "!$_" foreach (@arr); } # Rewrite this @nets value directly, add any rest to @nets2 $cidr_orig = shift @arr; push @nets2, @arr if @arr; } foreach my $cidr_orig (@nets, @nets2) { next unless defined $cidr_orig; my $cidr = $cidr_orig; # leave original unchanged, useful for logging # recognizes syntax: # [IPaddr%scope]/len or IPaddr%scope/len or IPv4addr/mask # optionally prefixed by a '!' to indicate negation (exclusion); # the %scope (i.e. interface), /len or /mask are optional local($1,$2,$3,$4); $cidr =~ s/^\s+//; my $exclude = ($cidr =~ s/^!\s*//) ? 1 : 0; my $masklen; # netmask or a prefix length $masklen = $1 if $cidr =~ s{ / (.*) \z }{}xs; # discard optional brackets $cidr = $1 if $cidr =~ /^ \[ ( [^\]]* ) \] \z/xs; my $scope; # IPv6 Scoped Address (RFC 4007, RFC 6874, RFC 3986 "unreserved" charset) if ($cidr =~ s/ % ( [A-Z0-9._~-]* ) \z //xsi) { # scope <zone_id> ? $scope = $1; # interface specification # discard interface specification, currently just ignored info("netset: ignoring interface scope '%%%s' in IP address %s", $scope, $cidr_orig); } my $is_ip4 = 0; if ($cidr =~ /^ \d+ (\. | \z) /x) { # looks like an IPv4 address if ($cidr =~ /^ (\d+) \. (\d+) \. (\d+) \. (\d+) \z/x) { # also strips leading zeroes, not liked by inet_pton $cidr = sprintf('%d.%d.%d.%d', $1,$2,$3,$4); $masklen = 32 if !defined $masklen; } elsif ($cidr =~ /^ (\d+) \. (\d+) \. (\d+) \.? \z/x) { $cidr = sprintf('%d.%d.%d.0', $1,$2,$3); $masklen = 24 if !defined $masklen; } elsif ($cidr =~ /^ (\d+) \. (\d+) \.? \z/x) { $cidr = sprintf('%d.%d.0.0', $1,$2); $masklen = 16 if !defined $masklen; } elsif ($cidr =~ /^ (\d+) \.? \z/x) { $cidr = sprintf('%d.0.0.0', $1); $masklen = 8 if !defined $masklen; } else { warn "netset: illegal IPv4 address given: '$cidr_orig'\n"; next; } $is_ip4 = 1; } if ($self->{pt}) { if (defined $masklen) { $masklen =~ /^\d{1,3}\z/ or die "Network mask not supported, use a CIDR syntax: '$cidr_orig'"; } my $key = $cidr; my $prefix_len = $masklen; if ($is_ip4) { $key = '::ffff:' . $key; # turn it into an IPv4-mapped IPv6 addresses $prefix_len += 96 if defined $prefix_len; } $prefix_len = 128 if !defined $prefix_len; $key .= '/' . $prefix_len; # dbg("netset: add_cidr (patricia trie) %s => %s", # $cidr_orig, $exclude ? '!'.$key : $key); defined eval { $self->{pt}->add_string($key, $exclude ? '!'.$key : $key) } or warn "netset: illegal IP address given (patricia trie): ". "'$key': $@\n"; } $cidr .= '/' . $masklen if defined $masklen; my $ip = NetAddr::IP->new($cidr); if (!defined $ip) { warn "netset: illegal IP address given: '$cidr_orig'\n"; next; } # dbg("netset: add_cidr %s => %s => %s", $cidr_orig, $cidr, $ip); # if this is an IPv4 address, create an IPv6 representation, too my ($ip4, $ip6); if ($is_ip4) { $ip4 = $ip; $ip6 = $self->_convert_ipv4_cidr_to_ipv6($cidr); } else { $ip6 = $ip; } # bug 5931: this is O(n^2). bad if there are lots of nets. There are good # reasons to keep it for linting purposes, though, so don't start skipping # it until we have over 200 nets in our list if (scalar @{$self->{nets}} < 200) { next if ($self->is_net_declared($ip4, $ip6, $exclude, 0)); } # note: it appears a NetAddr::IP object takes up about 279 bytes push @{$self->{nets}}, { exclude => $exclude, ip4 => $ip4, ip6 => $ip6, as_string => $cidr_orig, }; $numadded++; } $self->{num_nets} += $numadded; $numadded; } sub get_num_nets { my ($self) = @_; return $self->{num_nets}; } sub _convert_ipv4_cidr_to_ipv6 { my ($self, $cidr) = @_; # only do this for IPv4 addresses return unless $cidr =~ /^\d+[.\/]/; if ($cidr !~ /\//) { # no mask return NetAddr::IP->new6("::ffff:".$cidr); } # else we have a CIDR mask specified. use new6() to do this # my $ip6 = NetAddr::IP->new6($cidr)->cidr; # 127.0.0.1 -> 0:0:0:0:0:0:7F00:0001/128 # 127/8 -> 0:0:0:0:0:0:7F00:0/104 # now, move that from 0:0:0:0:0:0: space to 0:0:0:0:0:ffff: space if (!defined $ip6 || $ip6 !~ /^0:0:0:0:0:0:(.*)$/) { warn "oops! unparseable IPv6 address for $cidr: $ip6"; return; } return NetAddr::IP->new6("::ffff:$1"); } sub _nets_contains_network { my ($self, $net4, $net6, $exclude, $quiet, $netname, $declared) = @_; return 0 unless (defined $self->{nets}); foreach my $net (@{$self->{nets}}) { # check to see if the new network is contained by the old network my $in4 = defined $net4 && defined $net->{ip4} && $net->{ip4}->contains($net4); my $in6 = defined $net6 && defined $net->{ip6} && $net->{ip6}->contains($net6); if ($in4 || $in6) { warn sprintf("netset: cannot %s %s as it has already been %s\n", $exclude ? "exclude" : "include", $netname, $net->{exclude} ? "excluded" : "included") unless $quiet; # a network that matches an excluded network isn't contained by "nets" # return 0 if we're not just looking to see if the network was declared return 0 if (!$declared && $net->{exclude}); return 1; } } return 0; } sub is_net_declared { my ($self, $net4, $net6, $exclude, $quiet) = @_; return $self->_nets_contains_network($net4, $net6, $exclude, $quiet, $net4 || $net6, 1); } sub contains_ip { my ($self, $ip) = @_; my $result = 0; if (!$self->{num_nets}) { return 0 } $self->{cache_attempts}++; if ($self->{cache} && exists $self->{cache}{$ip}) { dbg("netset: %s cached lookup on %s, %d networks, result: %s", $self->{name}, $ip, $self->{num_nets}, $self->{cache}{$ip}); $self->{cache_hits}++; return $self->{cache}{$ip}; } elsif ($self->{pt}) { # do a quick lookup on a Patricia Trie my $t0 = time; local($1,$2,$3,$4); local $_ = $ip; $_ = $1 if /^ \[ ( [^\]]* ) \] \z/xs; # discard optional brackets s/%[A-Z0-9:._-]+\z//si; # discard interface specification if (m{^ (\d+) \. (\d+) \. (\d+) \. (\d+) \z}x) { $_ = sprintf('::ffff:%d.%d.%d.%d', $1,$2,$3,$4); } else { s/^IPv6://si; # discard optional 'IPv6:' prefix } eval { $result = $self->{pt}->match_string($_); 1 } or undef $result; $result = defined $result && $result !~ /^!/ ? 1 : 0; dbg("netset: %s patricia lookup on %s, %d networks, result: %s, %.3f ms", $self->{name}, $ip, $self->{num_nets}, $result, 1000*(time - $t0)); } else { # do a sequential search on a list of NetAddr::IP objects my $t0 = time; my ($ip4, $ip6); if ($ip =~ /^\d+\./) { $ip4 = NetAddr::IP->new($ip); $ip6 = $self->_convert_ipv4_cidr_to_ipv6($ip); } else { $ip6 = NetAddr::IP->new($ip); } foreach my $net (@{$self->{nets}}) { if ((defined $ip4 && defined $net->{ip4} && $net->{ip4}->contains($ip4)) || (defined $ip6 && defined $net->{ip6} && $net->{ip6}->contains($ip6))){ $result = !$net->{exclude}; last; } } dbg("netset: %s lookup on %s, %d networks, result: %s, %.3f ms", $self->{name}, $ip, $self->{num_nets}, $result, 1000*(time - $t0)); } $self->{cache}{$ip} = $result; return $result; } sub contains_net { my ($self, $net) = @_; my $exclude = $net->{exclude}; my $net4 = $net->{ip4}; my $net6 = $net->{ip6}; return $self->_nets_contains_network($net4, $net6, $exclude, 1, "", 0); } sub ditch_cache { my ($self) = @_; if (exists $self->{cache}) { dbg("netset: ditch cache on %s", $self->{name}); delete $self->{cache}; } } sub clone { my ($self) = @_; my $dup = Mail::SpamAssassin::NetSet->new($self->{name}); if ($self->{nets}) { @{$dup->{nets}} = @{$self->{nets}}; } if ($self->{pt}) { my $dup_pt = $dup->{pt}; $self->{pt}->climb(sub { my $key = $_[0]; $key =~ s/^!//; defined eval { $dup_pt->add_string($key, $_[0]) } or die "Adding a network $_[0] to a patricia trie failed: $@"; 1; }); } $dup->{num_nets} = $self->{num_nets}; return $dup; } ########################################################################### 1;