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# SPDX-License-Identifier: GPL-2.0-or-later package Amavis::Lookup::RE; use strict; use re 'taint'; BEGIN { require Exporter; use vars qw(@ISA @EXPORT @EXPORT_OK %EXPORT_TAGS $VERSION); $VERSION = '2.412'; @ISA = qw(Exporter); } use Amavis::Util qw(ll do_log fmt_struct); # Make an object out of the supplied lookup list # to make it distinguishable from simple ACL array sub new($$) { my $class = shift; bless [@_], $class } # lookup_re() performs a lookup for an e-mail address or other key string # against a list of regular expressions. # # A full unmodified e-mail address is always used, so splitting to localpart # and domain or lowercasing is NOT performed. The regexp is powerful enough # that this can be accomplished by its own mechanisms. The routine is useful # for other RE tests besides the usual e-mail addresses, such as looking for # banned file names. # # Each element of the list can be a ref to a pair, or directly a regexp # ('Regexp' object created by a qr operator, or just a (less efficient) # string containing a regular expression). If it is a pair, the first # element is treated as a regexp, and the second provides a value in case # the regexp matches. If not a pair, the implied result of a match is 1. # # The regular expression is taken as-is, no implicit anchoring or setting # case insensitivity is done, so do use a qr'(?i)^user\@example\.com$', # and not a sloppy qr'user@example.com', which can easily backfire. # Also, if qr is used with a delimiter other than ' (apostrophe), make sure # to quote the @ and $ when they are not introducing a variable name. # # The pattern allows for capturing of parenthesized substrings, which can # then be referenced from the result string using the $1, $2, ... notation, # as with a Perl m// operator. The number after a $ may be a multi-digit # decimal number. To avoid possible ambiguity a ${n} or $(n) form may be used # Substring numbering starts with 1. Nonexistent references evaluate to empty # strings. If any substitution is done, the result inherits the taintedness # of $addr. Keep in mind that $ and @ characters needs to be backslash-quoted # in qq() strings. Example: # $virus_quarantine_to = new_RE( # [ qr'^(.*)\@example\.com$'i => 'virus-${1}@example.com' ], # [ qr'^(.*)(\@[^\@]*)?$'i => 'virus-${1}${2}' ] ); # # Example (equivalent to the example in lookup_acl): # $acl_re = Amavis::Lookup::RE->new( # qr'\@me\.ac\.uk$'i, [qr'[\@.]ac\.uk$'i=>0], qr'\.uk$'i ); # ($r,$k) = $acl_re->lookup_re('user@me.ac.uk'); # or $r = lookup(0, 'user@me.ac.uk', $acl_re); # # 'user@me.ac.uk' matches me.ac.uk, returns true and search stops # 'user@you.ac.uk' matches .ac.uk, returns false (because of =>0) # and search stops # 'user@them.co.uk' matches .uk, returns true and search stops # 'user@some.com' does not match anything, falls through and # returns false (undef) # # As a special allowance, the $addr argument may be a ref to a list of search # keys. At each step in traversing the supplied regexp list, all elements of # @$addr are tried. If any of them matches, the search stops. This is currently # used in banned names lookups, where all attributes of a part are given as a # list @$addr, as a loop on attributes must be an inner loop. # sub lookup_re($$;$%) { my($self, $addr,$get_all,%options) = @_; local($1,$2,$3,$4); my(@matchingkey,@result); $addr .= $options{AppendStr} if defined $options{AppendStr}; for my $e (@$self) { # try each regexp in the list my($key,$r); if (ref($e) eq 'ARRAY') { # a pair: (regexp,result) ($key,$r) = ($e->[0], @$e < 2 ? 1 : $e->[1]); } else { # a single regexp (not a pair), implies result 1 ($key,$r) = ($e, 1); } # braindamaged Perl: empty string implies the last successfully # matched regular expression; we must avoid this: $key = qr{(?:)} if !defined $key || $key eq ''; my(@rhs); # match, capturing parenthesized subpatterns into @rhs if (!ref($addr)) { @rhs = $addr =~ /$key/ } else { for (@$addr) { @rhs = /$key/; last if @rhs } } # inner loop if (@rhs) { # regexp matches # do the righthand side replacements if any $n, ${n} or $(n) is specified if (defined($r) && !ref($r) && index($r,'$') >= 0) { # triage my $any = $r =~ s{ \$ ( (\d+) | \{ (\d+) \} | \( (\d+) \) ) } { my $j=$2+$3+$4; $j<1 ? '' : $rhs[$j-1] }xgse; # bring taintedness of input to the result $r .= substr($addr,0,0) if $any; } push(@result,$r); push(@matchingkey,$key); last if !$get_all; } } if (!ll(5)) { # don't bother preparing log report which will not be printed } elsif (!@result) { do_log(5, "lookup_re(%s), no matches", fmt_struct($addr)); } else { # pretty logging if (!$get_all) { # first match wins do_log(5, 'lookup_re(%s) matches key "%s", result=%s', fmt_struct($addr), $matchingkey[0], fmt_struct($result[0])); } else { # want all matches do_log(5, "lookup_re(%s) matches keys: %s", fmt_struct($addr), join(', ', map { sprintf('"%s"=>%s', $matchingkey[$_], fmt_struct($result[$_])) } (0..$#result))); } } if (!$get_all) { !wantarray ? $result[0] : ($result[0], $matchingkey[0]) } else { !wantarray ? \@result : (\@result, \@matchingkey) } } 1;