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# SPDX-License-Identifier: GPL-2.0-or-later package Amavis::rfc2821_2822_Tools; use strict; use re 'taint'; BEGIN { require Exporter; use vars qw(@ISA @EXPORT @EXPORT_OK %EXPORT_TAGS $VERSION); $VERSION = '2.412'; @ISA = qw(Exporter); @EXPORT = qw( &rfc2822_timestamp &rfc2822_utc_timestamp &iso8601_timestamp &iso8601_utc_timestamp &iso8601_week &iso8601_yearweek &iso8601_year_and_week &iso8601_weekday &make_received_header_field &parse_received &fish_out_ip_from_received &parse_message_id &split_address &split_localpart &replace_addr_fields &clear_query_keys_cache &make_query_keys "e_rfc2821_local &qquote_rfc2821_local &parse_quoted_rfc2821 &unquote_rfc2821_local &parse_address_list &wrap_string &wrap_smtp_resp &one_response_for_all &EX_OK &EX_NOUSER &EX_UNAVAILABLE &EX_TEMPFAIL &EX_NOPERM); } use subs @EXPORT; use POSIX qw(locale_h strftime); use Amavis::Conf qw(:platform c cr ca $myproduct_name); use Amavis::Util qw(ll do_log unique_ref unique_list safe_encode_utf8_inplace idn_to_ascii idn_to_utf8 mail_addr_idn_to_ascii); BEGIN { # try to use the installed version eval { require 'sysexits.ph' } or 1; # ignore failure, make perlcritic happy # define the most important constants if undefined do { sub EX_OK() {0} } unless defined(&EX_OK); do { sub EX_NOUSER() {67} } unless defined(&EX_NOUSER); do { sub EX_UNAVAILABLE() {69} } unless defined(&EX_UNAVAILABLE); do { sub EX_TEMPFAIL() {75} } unless defined(&EX_TEMPFAIL); do { sub EX_NOPERM() {77} } unless defined(&EX_NOPERM); } # Given a Unix time, return the local time zone offset at that time # as a string +HHMM or -HHMM, appropriate for the RFC 5322 date format. # Works also for non-full-hour zone offsets, and on systems where strftime # cannot return TZ offset as a number; (c) Mark Martinec, GPL # sub get_zone_offset($) { my $t = int($_[0]); my $d = 0; # local zone offset in seconds for (1..3) { # match the date (with a safety loop limit just in case) my $r = sprintf("%04d%02d%02d", (localtime($t))[5, 4, 3]) cmp sprintf("%04d%02d%02d", (gmtime($t + $d))[5, 4, 3]); if ($r == 0) { last } else { $d += $r * 24 * 3600 } } my($sl,$su) = (0,0); for ((localtime($t))[2,1,0]) { $sl = $sl * 60 + $_ } for ((gmtime($t + $d))[2,1,0]) { $su = $su * 60 + $_ } $d += $sl - $su; # add HMS difference (in seconds) my $sign = $d >= 0 ? '+' : '-'; $d = -$d if $d < 0; $d = int(($d + 30) / 60.0); # give minutes, rounded sprintf("%s%02d%02d", $sign, int($d / 60), $d % 60); } # Given a Unix time, provide date-time timestamp as specified in RFC 5322 # (local time), to be used in header fields such as 'Date:' and 'Received:' # See also RFC 3339. # sub rfc2822_timestamp($) { my $t = $_[0]; my(@lt) = localtime(int($t)); # can't use %z because some systems do not support it (is treated as %Z) # my $old_locale = POSIX::setlocale(LC_TIME,'C'); # English dates required! my $zone_name = strftime("%Z",@lt); my $s = strftime("%a, %e %b %Y %H:%M:%S ", @lt); $s .= get_zone_offset($t); $s .= " (" . $zone_name . ")" if $zone_name !~ /^\s*\z/; # POSIX::setlocale(LC_TIME, $old_locale); # restore the locale $s; } # Given a Unix time, provide date-time timestamp as specified in RFC 5322 # in a UTC time zone. See also RFC 3339 and RFC 6692. # sub rfc2822_utc_timestamp($) { my $t = $_[0]; strftime("%a, %e %b %Y %H:%M:%S +0000 (UTC)", gmtime(int($t))); } # Given a Unix numeric time (seconds since 1970-01-01T00:00Z), # provide date-time timestamp (local time) as specified in ISO 8601 (EN 28601) # RFC 3339 is a subset of ISO 8601 and requires field separators "-" and ":". # sub iso8601_timestamp($;$$$) { my($t, $suppress_zone, $dtseparator, $with_field_separators) = @_; # can't use %z because some systems do not support it (is treated as %Z) my $fmt = $with_field_separators ? "%Y-%m-%dT%H:%M:%S" : "%Y%m%dT%H%M%S"; $fmt =~ s/T/$dtseparator/ if defined $dtseparator; my $s = strftime($fmt,localtime(int($t))); $s .= get_zone_offset($t) unless $suppress_zone; $s; } # Given a Unix numeric time (seconds since 1970-01-01T00:00Z), # provide date-time timestamp (UTC) as specified in ISO 8601 (EN 28601) # sub iso8601_utc_timestamp($;$$$$) { my($t, $suppress_zone, $dtseparator, $with_field_separators, $with_fraction) = @_; my $fmt = $with_field_separators ? "%Y-%m-%dT%H:%M:%S" : "%Y%m%dT%H%M%S"; $fmt =~ s/T/$dtseparator/ if defined $dtseparator; my $s = strftime($fmt, gmtime(int($t))); $s .= sprintf(".%03d", int(1000*($t-int($t))+0.5)) if $with_fraction; $s .= 'Z' unless $suppress_zone; $s; } # Does the given year have 53 weeks? Using a formula by Simon Cassidy. # sub iso8601_year_is_long($) { my $y = $_[0]; my $p = $y + int($y/4) - int($y/100) + int($y/400); if (($p % 7) == 4) { return 1 } $y--; $p = $y + int($y/4) - int($y/100) + int($y/400); if (($p % 7) == 3) { return 1 } else { return 0 } } # Given a Unix numeric time (seconds since 1970-01-01T00:00Z), # provide a week number 1..53 (local time) as specified in ISO 8601 (EN 28601) # ( equivalent to PostgreSQL extract(week from ...), and MySQL week(date,3) ) # sub iso8601_year_and_week($) { my $unix_time = $_[0]; my($y,$dowm0,$doy0) = (localtime($unix_time))[5,6,7]; $y += 1900; $dowm0--; $dowm0=6 if $dowm0<0; # normalize, Monday==0 my $dow0101 = ($dowm0 - $doy0 + 53*7) % 7; # dow Jan 1 my $wn = int(($doy0 + $dow0101) / 7); if ($dow0101 < 4) { $wn++ } if ($wn == 0) { $y--; $wn = iso8601_year_is_long($y) ? 53 : 52 } elsif ($wn == 53 && !iso8601_year_is_long($y)) { $y++; $wn = 1 } ($y,$wn); } sub iso8601_week($) { # 1..53 my($y,$wn) = iso8601_year_and_week($_[0]); $wn; } sub iso8601_yearweek($) { my($y,$wn) = iso8601_year_and_week($_[0]); $y*100+$wn; } # Given a Unix numeric time (seconds since 1970-01-01T00:00Z), provide a # weekday number (based on local time): a number from 1 through 7, beginning # with Monday and ending with Sunday, as specified in ISO 8601 (EN 28601) # sub iso8601_weekday($) { # 1..7, Mo=1 my $unix_time = $_[0]; ((localtime($unix_time))[6] + 6) % 7 + 1; } sub make_received_header_field($$) { my($msginfo, $folded) = @_; my $conn = $msginfo->conn_obj; my $id = $msginfo->mail_id; my($smtp_proto, $recips) = ($conn->appl_proto, $msginfo->recips); my($client_ip, $socket_ip) = ($conn->client_ip, $conn->socket_ip); for ($client_ip, $socket_ip) { $_ = '' if !defined($_); # RFC 5321 (ex RFC 2821), section 4.1.3 $_ = 'IPv6:'.$_ if /:[0-9a-f]*:/i && !/^IPv6:/is; } my $myhost = c('myhostname'); # my FQDN (DNS) name, UTF-8 octets my $myhelo = c('localhost_name'); # my EHLO/HELO/LHLO name, UTF-8 octets $myhelo = 'localhost' if $myhelo eq ''; if ($msginfo->smtputf8) { $myhost = idn_to_utf8($myhost); $myhelo = idn_to_utf8($myhelo); } else { $myhost = idn_to_ascii($myhost); $myhelo = idn_to_ascii($myhelo); } my $tls = $msginfo->tls_cipher; my $s = sprintf("from %s%s%s\n by %s%s (%s, %s)", $conn->smtp_helo eq '' ? 'unknown' : $conn->smtp_helo, $client_ip eq '' ? '' : " ([$client_ip])", !defined $tls ? '' : " (using TLS with cipher $tls)", $myhelo, $socket_ip eq '' ? '' : sprintf(" (%s [%s])", $myhost, $socket_ip), $myproduct_name, $conn->socket_port eq '' ? 'unix socket' : "port ".$conn->socket_port); # RFC 3848, RFC 6531 # http://www.iana.org/assignments/mail-parameters/mail-parameters.xhtml $s .= "\n with $smtp_proto" if $smtp_proto =~ /^ (?: SMTP | (?: ES|L|UTF8S|UTF8L) MTP S? A? ) \z/xsi; $s .= "\n id $id" if defined $id && $id ne ''; if (@$recips == 1) { # do not disclose recipients if more than one my $recip = $recips->[0]; $recip = mail_addr_idn_to_ascii($recip) if !$msginfo->smtputf8; $s .= "\n for " . qquote_rfc2821_local($recip); } $s .= ";\n " . rfc2822_timestamp($msginfo->rx_time); $s =~ s/\n//g if !$folded; $s; } # parse Received header field according to RFC 5321, somewhat loosened syntax # Stamp = From-domain By-domain [Via] [With] [ID] [For] datetime # From-domain = "FROM" FWS Extended-Domain CFWS # By-domain = "BY" FWS Extended-Domain CFWS # Via = "VIA" FWS ("TCP" / Atom) CFWS # With = "WITH" FWS ("ESMTP" / "SMTP" / Atom) CFWS # ID = "ID" FWS (Atom / DQUOTE *qcontent DQUOTE / msg-id) CFWS # For = "FOR" FWS 1*( Path / Mailbox ) CFWS # Path = "<" [ A-d-l ":" ] Mailbox ">" # datetime = ";" FWS [ day-of-week "," ] date FWS time [CFWS] # Extended-Domain = # (Domain / Address-literal) [ FWS "(" [ Domain FWS ] Address-literal ")" ] # Avoid regexps like ( \\. | [^"\\] )* which cause recursion trouble / crashes! # sub parse_received($) { local($_) = $_[0]; my(%fld); local($1); tr/\n//d; # unfold, chomp my $comm_lvl = 0; my $in_option = ''; my $in_ext_dom = 0; my $in_tcp_info = 0; my $in_qcontent = 0; my $in_literal = 0; my $in_angle = 0; my $str_l = length($_); my $new_pos; for (my $pos=-1; $new_pos=pos($_), $new_pos<$str_l; $pos=$new_pos) { $new_pos > $pos or die "parse_received PANIC1 $new_pos"; # just in case # comment (may be nested: RFC 5322 section 3.2.2) if ($comm_lvl > 0 && /\G( \) )/gcsx) { if ($comm_lvl > 1 || $in_tcp_info) { $fld{$in_option} .= $1 } # nested if ($comm_lvl == 1 && !$in_tcp_info) { $in_option =~ s/-com\z// } $comm_lvl--; next; # pop up one level of comments } if ($in_tcp_info && /\G( \) )/gcsx) # leaving TCP-info { $in_option =~ s/-tcp\z//; $in_tcp_info = 0; $in_ext_dom = 4; next } if (!$in_qcontent && !$in_literal && !$comm_lvl && !$in_tcp_info && $in_ext_dom==1 && /\G( \( )/gcsx) { # entering TCP-info part, only once after 'from' or 'by' $in_option .= '-tcp'; $in_tcp_info = 1; $in_ext_dom = 2; next; } if (!$in_qcontent && !$in_literal && /\G( \( )/gcsx) { $comm_lvl++; # push one level of comments if ($comm_lvl > 1 || $in_tcp_info) { $fld{$in_option} .= $1 } # nested if ($comm_lvl == 1 && !$in_tcp_info) { # comment starts here $in_option .= '-com'; $fld{$in_option} .= ' ' if defined $fld{$in_option}; # looks better } next; } if ($comm_lvl > 0 && /\G( \\. )/gcsx) { $fld{$in_option} .= $1; next } if ($comm_lvl > 0 && /\G( [^()\\]+ )/gcsx) { $fld{$in_option} .= $1; next } # quoted content if ($in_qcontent && /\G( " )/gcsx) # normal exit from qcontent { $in_qcontent = 0; $fld{$in_option} .= $1; next } if ($in_qcontent && /\G( > )/gcsx) # bail out of qcontent { $in_qcontent = 0; $in_angle = 0; $fld{$in_option} .= $1; next } if ($in_qcontent && /\G( \\. )/gcsx) { $fld{$in_option} .= $1; next } if ($in_qcontent && /\G( [^"\\>]+ )/gcsx) { $fld{$in_option} .= $1; next } # address literal if ($in_literal && /\G( \] )/gcsx) { $in_literal = 0; $fld{$in_option} .= $1; next } if ($in_literal && /\G( > )/gcsx) # bail out of address literal { $in_literal = 0; $in_angle = 0; $fld{$in_option} .= $1; next } if (!$comm_lvl && !$in_qcontent && /\G( \[ )/gcsx) { $in_literal = 1; $fld{$in_option} .= $1; next } if ($in_literal && /\G( \\. )/gcsx) { $fld{$in_option} .= $1; next } if ($in_literal && /\G( [^\]\\>]+ )/gcsx) { $fld{$in_option} .= $1; next } if (!$comm_lvl && !$in_qcontent && !$in_literal && !$in_tcp_info) { # top if (!$in_angle && /\G( < )/gcsx) { $in_angle = 1; $fld{$in_option} .= $1; next } if ( $in_angle && /\G( > )/gcsx) { $in_angle = 0; $fld{$in_option} .= $1; next } if (!$in_angle && /\G (from|by) (?:[ \t]+|\z|(?=[\[\(",;<]))/gcsxi) { $in_option = lc($1); $in_ext_dom = 1; next } if (!$in_angle && /\G(via|with|id|for)(?:[ \t]+|\z|(?=[\[\(",;<]))/gcsxi) { $in_option = lc($1); $in_ext_dom = 0; next } if (!$in_angle && /\G( ; )/gcsxi) { $in_option = lc($1); $in_ext_dom = 0; next } if (/\G( [ \t]+ )/gcsx) { $fld{$in_option} .= $1; next } if (/\G( [^ \t,:;\@<>()"\[\]\\]+ )/gcsx) { $fld{$in_option} .= $1; next } } if (/\G( . )/gcsx) { $fld{$in_option} .= $1; next } # other junk die "parse_received PANIC2 $new_pos"; # just in case } for my $f ('from-tcp','by-tcp') { # a tricky part is handling the syntax: # (Domain/Addr-literal) [ FWS "(" [ Domain FWS ] Addr-literal ")" ] CFWS # where absence of Address-literal in TCP-info means that what looked # like a domain in the optional TCP-info, is actually a comment in CFWS local($_) = $fld{$f}; if (!defined($_)) {} elsif (/\[ \d{1,3} (?: \. \d{1,3} ){3} \] /x) {} elsif (/\[ .* : .* : /x && # triage, contains at least two colons /\[ (?: IPv6: )? [0-9a-f]{0,4} (?: : [0-9a-f]{0,4} | \. [0-9]{1,3} ){2,9} (?: % [A-Z0-9_-]+ )? \] /xi) {} # elsif (/ (?: ^ | \D ) ( \d{1,3} (?: \. \d{1,3}){3}) (?! [0-9.] ) /x) {} elsif (/^(?: localhost | (?: [\x{80}-\x{F4}a-zA-Z0-9_\/+-]{1,63} \. )+ [\x{80}-\x{F4}a-zA-Z0-9-]{2,} ) \b/xs) {} else { my $fc = $f; $fc =~ s/-tcp\z/-com/; $fld{$fc} = '' if !defined $fld{$fc}; $fld{$fc} = $_ . (/[ \t]\z/||$fld{$fc}=~/^[ \t]/?'':' ') . $fld{$fc}; delete $fld{$f}; } } for (values %fld) { s/[ \t]+\z//; s/^[ \t]+// } delete $fld{""} if exists $fld{""} && $fld{""} eq ""; # for my $f (sort {$fld{$a} cmp $fld{$b}} keys %fld) # { do_log(5, "RECVD: %-8s -> /%s/", $f,$fld{$f}) } \%fld; } sub fish_out_ip_from_received($;$) { my($received,$fields_ref) = @_; $fields_ref = parse_received($received) if !defined $fields_ref; my $ip; local($1); for (@$fields_ref{qw(from-tcp from from-com)}) { next if !defined($_); if (/ \[ (\d{1,3} (?: \. \d{1,3}){3}) (?: \. \d{4,5} )? \] /xs) { $ip = $1; } elsif (/:.*:/) { # triage - IPv6 address contain at least two colons if (tr/././ == 3) { # triage - alternative form contains three dots $ip = $1 if / \[ ( (?: IPv6: )? [0-9a-f]{0,4} (?: : [0-9a-f]{0,4} ){1,5} : \d{1,3} (?: \. \d{1,3} ){3} (?: % [A-Z0-9_-]+ )? ) \] /xsi; } else { $ip = $1 if / \[ ( (?: IPv6: )? [0-9a-f]{0,4} (?: : [0-9a-f]{0,4} ){2,7} (?: % [A-Z0-9_-]+ )? ) \] /xsi; } } elsif (/ (?: ^ | \D ) ( \d{1,3} (?: \. \d{1,3}){3}) (?! [0-9.] ) /xs) { $ip = $1; } last if defined $ip; } if (!defined $ip) { do_log(5, "ip_from_received: no IP address in: %s", $received); # must return undef even in a list context! } else { do_log(5, "ip_from_received: %s", $ip); $ip =~ s/^IPv6://i; # discard 'IPv6:' prefix if any } $ip; } # Splits unquoted fully qualified e-mail address, or an address # with a missing domain part. Returns a pair: (localpart, domain). # The domain part (if nonempty) includes the '@' as the first character. # If the syntax is badly broken, everything ends up as a localpart. # The domain part can be an address literal, as specified by RFC 5322. # Does not handle explicit route paths, use parse_quoted_rfc2821 for that. # sub split_address($) { my $mailbox = $_[0]; local($1,$2); $mailbox =~ /^ (.*?) ( \@ (?: \[ (?: \\. | [^\]\\] ){0,999} (?: \] | \z) | [^\[\@] )* ) \z/xs ? ($1, $2) : ($mailbox, ''); } # split_localpart() splits localpart of an e-mail address at the first # occurrence of the address extension delimiter character. (based on # equivalent routine in Postfix) # # Reserved addresses are not split: postmaster, mailer-daemon, # double-bounce. Addresses that begin with owner-, or addresses # that end in -request are not split when the owner_request_special # parameter is set. # sub split_localpart($$) { my($localpart, $delimiter) = @_; my $owner_request_special = 1; # configurable ??? my $extension; local($1,$2); if ($localpart =~ /^(postmaster|mailer-daemon|double-bounce)\z/i) { # do not split these, regardless of what the delimiter is } elsif (index($delimiter,'-') >= 0 && $owner_request_special && $localpart =~ /^owner-.|.-request\z/si) { # don't split owner-foo or foo-request } elsif ($localpart =~ /^(.+?)([\Q$delimiter\E].*)\z/s) { ($localpart, $extension) = ($1, $2); # extension includes a delimiter # do not split the address if the result would have a null localpart } ($localpart, $extension); } # replace localpart/extension/domain fields of an original email address # with nonempty fields of a replacement # sub replace_addr_fields($$;$) { my($orig_addr, $repl_addr, $delim) = @_; my($localpart_o, $domain_o, $ext_o, $localpart_r, $domain_r, $ext_r); ($localpart_o,$domain_o) = split_address($orig_addr); ($localpart_r,$domain_r) = split_address($repl_addr); $localpart_r = $localpart_o if $localpart_r eq ''; $domain_r = $domain_o if $domain_r eq ''; if (defined $delim && $delim ne '') { ($localpart_o,$ext_o) = split_localpart($localpart_o,$delim); ($localpart_r,$ext_r) = split_localpart($localpart_r,$delim); $ext_r = $ext_o if !defined $ext_r; } $localpart_r . (defined $ext_r ? $ext_r : '') . $domain_r; } # given a (potentially multiline) header field Message-ID, Resent-Message-ID. # In-Reply-To, or References, parse the RFC 5322 (RFC 2822) syntax extracting # all message IDs while ignoring comments, and return them as a list # Note: currently does not handle nested comments. # See also: RFC 2392 - Content-ID and Message-ID Uniform Resource Locators # sub parse_message_id($) { my $str = $_[0]; $str =~ tr/\n//d; my(@message_id); my $garbage = 0; $str =~ s/[ \t]+/ /g; # compress whitespace as a band aid for regexp trouble for my $t ( $str =~ /\G ( [ \t]+ | \( (?: \\. | [^()\\] ){0,999} \) | < (?: " (?: \\. | [^"\\>] ){0,999} " | \[ (?: \\. | [^\]\\>]){0,999} \] | [^"<>\[\]\\]+ )* > | [^<( \t]+ | . )/xgs ) { if ($t =~ /^<.*>\z/) { push(@message_id,$t) } elsif ($t =~ /^[ \t]*\z/) {} # ignore FWS elsif ($t =~ /^\(.*\)\z/) # ignore CFWS { do_log(2, "parse_message_id ignored comment: /%s/ in %s", $t,$str) } else { $garbage = 1 } } if (@message_id > 1) { @message_id = unique_list(\@message_id); # remove possible duplicates } elsif ($garbage && !@message_id) { local($_) = $str; s/^[ \t]+//; s/[ \t\n]+\z//; # trim and sanitize <...> s/^<//; s/>\z//; s/>/_/g; $_ = '<'.$_.'>'; @message_id = ($_); do_log(5, "parse_message_id sanitizing garbage: /%s/ to %s", $str,$_); } @message_id; } # For a given email address (e.g. for User+Foo@sub.exAMPLE.CoM) # prepare and return a list of lookup keys in the following order: # User+Foo@sub.exAMPLE.COM (as-is, no lowercasing, no ToASCII) # user+foo@sub.example.com # user@sub.example.com (only if $recipient_delimiter nonempty) # user+foo(@) (only if $include_bare_user) # user(@) (only if $include_bare_user and $recipient_delimiter nonempty) # (@)sub.example.com # (@).sub.example.com # (@).example.com # (@).com # (@). # Another example with EAI and international domain names (IDN): # Pingüino@Pájaro.Niño.exAMPLE.COM (as-is, no lowercasing, no ToASCII) # pingüino@xn--pjaro-xqa.xn--nio-8ma.example.com # pingüino(@) (only if $include_bare_user) # (@)xn--pjaro-xqa.xn--nio-8ma.example.com # (@).xn--pjaro-xqa.xn--nio-8ma.example.com # (@).xn--pjaro-xqa.example.com # (@).example.com # (@).com # (@). # # Note about (@): if $at_with_user is true the user-only keys (without domain) # get an '@' character appended (e.g. 'user+foo@'). Usual for lookup_hash. # If $at_with_user is false the domain-only (without localpart) keys # get a '@' prepended (e.g. '@.example.com'). Usual for SQL and LDAP lookups. # # The domain part is lowercased and IDN converted to ASCII in all but # the first item in the resulting list; the localpart is lowercased # iff $localpart_is_case_sensitive is true. The $addr may be a string # of octets (assumed to be UTF-8 encoded), or a string of characters. # my %query_keys_cache; sub clear_query_keys_cache() { %query_keys_cache = () } sub make_query_keys($$$;$) { my($addr, $at_with_user, $include_bare_user, $append_string) = @_; safe_encode_utf8_inplace($addr); # to octets (if not already) my $query_keys_slot = join("\x00", $at_with_user?1:0, $include_bare_user?1:0, $append_string, $addr); if (exists $query_keys_cache{$query_keys_slot}) { do_log(5,'query_keys: cached '.$addr); # concat, knowing it's in octets return @{$query_keys_cache{$query_keys_slot}}; # ($keys_ref, $rhs) } my($localpart, $domain) = split_address($addr); my $saved_full_localpart = $localpart; $localpart = lc($localpart) if !c('localpart_is_case_sensitive'); # chop off leading @, and trailing dots local($1); $domain = $1 if $domain =~ /^\@?(.*?)\.*\z/s; $domain = idn_to_ascii($domain) if $domain ne ''; # lowercase, ToASCII my $extension; my $delim = c('recipient_delimiter'); if ($delim ne '') { ($localpart,$extension) = split_localpart($localpart,$delim); # extension includes a delimiter since amavisd-new-2.5.0! } $extension = '' if !defined $extension; # mute warnings my($append_to_user,$prepend_to_domain) = $at_with_user ? ('@','') : ('','@'); my(@keys); # a list of query keys push(@keys, $addr); # as is push(@keys, $localpart.$extension.'@'.$domain) if $extension ne ''; # user+foo@example.com push(@keys, $localpart.'@'.$domain); # user@example.com if ($include_bare_user) { # typically enabled for local users only push(@keys, $localpart.$extension.$append_to_user) if $extension ne ''; # user+foo(@) push(@keys, $localpart.$append_to_user); # user(@) } push(@keys, $prepend_to_domain.$domain); # (@)sub.example.com if ($domain =~ /\[/) { # don't split address literals push(@keys, $prepend_to_domain.'.'); # (@). } else { my(@dkeys); my $d = $domain; for (;;) { # (@).sub.example.com (@).example.com (@).com (@). push(@dkeys, $prepend_to_domain.'.'.$d); last if $d eq ''; $d = ($d =~ /^([^.]*)\.(.*)\z/s) ? $2 : ''; } @dkeys = @dkeys[$#dkeys-19 .. $#dkeys] if @dkeys > 20; # sanity limit push(@keys, @dkeys); } if (defined $append_string && $append_string ne '') { $_ .= $append_string for @keys; } my $keys_ref = unique_ref(\@keys); # remove duplicates ll(5) && do_log(5,"query_keys: %s", join(', ',@$keys_ref)); # the rhs replacement strings are similar to what would be obtained # by lookup_re() given the following regular expression: # /^( ( ( [^\@]*? ) ( \Q$delim\E [^\@]* )? ) (?: \@ (.*) ) )$/xs my $rhs = [ # a list of right-hand side replacement strings $addr, # $1 = User+Foo@Sub.Example.COM $saved_full_localpart, # $2 = User+Foo $localpart, # $3 = user (lc if localpart_is_case_sensitive) $extension, # $4 = +foo (lc if localpart_is_case_sensitive) $domain, # $5 = sub.example.com (lowercase, ToASCII) ]; $query_keys_cache{$query_keys_slot} = [$keys_ref, $rhs]; ($keys_ref, $rhs); } # quote_rfc2821_local() quotes the local part of a mailbox address # (given in internal (unquoted) form), and returns external (quoted) # mailbox address, as per RFC 5321 (ex RFC 2821). # # internal (unquoted) form is used internally by amavis and other mail sw, # external (quoted) form is used in SMTP commands and in message header section # # To re-insert message back via SMTP, the local-part of the address needs # to be quoted again if it contains reserved characters or otherwise # does not obey the dot-atom syntax, as specified in RFC 5321 and RFC 6531. # sub quote_rfc2821_local($) { my $mailbox = $_[0]; # RFC 5321/RFC 5322: atext: any character except controls, SP, and specials # RFC 6531 section 3.3: The definition of <atext> is extended to permit # both the RFC 5321 definition and a UTF-8 string. That string MUST NOT # contain any of the ASCII graphics or control characters. # RFC 6531: atext =/ UTF8-non-ascii # qtextSMTP =/ UTF8-non-ascii # RFC 6532: UTF8-non-ascii = UTF8-2 / UTF8-3 / UTF8-4 # RFC 3629 section 4: Syntax of UTF-8 Byte Sequences # non-atext: [\x00-\x20"(),.:;<>@\[\]\\\x7F] my $atext = "a-zA-Z0-9!\#\$%&'*/=?^_`{|}~+-"; # my $specials = '()<>\[\]\\\\@:;,."'; # HTML5 - 4.10.5.1.5 E-mail state (type=email): # email = 1*( atext / "." ) "@" label *( "." label ) # i.e. localpart is: [a-zA-Z0-9.!#$%&'*+/=?^_`{|}~-]+ my($localpart,$domain) = split_address($mailbox); if ($localpart =~ /^[$atext]+(?:\.[$atext]+)*\z/so) { # plain RFC 5321 dot-atom, no need for quoting } elsif ($localpart =~ /[\x80-\xBF\xC2-\xF4]/s && # triage, RFC 3629 $localpart =~ /^ ( [$atext] | [\xC2-\xDF][\x80-\xBF]{1} | [\xE0-\xEF][\x80-\xBF]{2} | [\xF0-\xF4][\x80-\xBF]{3} )+ ( \. ( [$atext] | [\xC2-\xDF][\x80-\xBF]{1} | [\xE0-\xEF][\x80-\xBF]{2} | [\xF0-\xF4][\x80-\xBF]{3} )+ )* \z/xso) { # Extended RFC 6531 UTF-8 atext / dot-atom, no need for quoting. # The \xC0 and \xC1 could only be used for overlong encoding of basic # ASCII characters. Tolerate other non-shortest UTF-8 encodings here. # UTF-8 is restricted by RFC 3629 to end at U+10FFFF, this removed # all 5- and 6-byte sequences, and about half of the 4-byte sequences. # The RFC 5198 also prohibits "C1 Controls" (U+0080 through U+009F) # (i.e. in UTF-8: C2 80 .. C2 9F) for Net-Unicode. } else { # needs quoting or is invalid local($1); # qcontent = qtext / quoted-pair $localpart =~ s{ ( ["\\] ) }{\\$1}xgs; $localpart = '"'.$localpart.'"'; # non-qtext, make it a qcontent # Postfix hates ""@domain but is not so harsh on @domain # Late breaking news: don't bother, both forms are rejected by Postfix # when strict_rfc821_envelopes=yes, and both are accepted otherwise } # we used to strip off empty domain (just '@') unconditionally, but this # leads Postfix to interpret an address with a '@' in the quoted local part # e.g. <"h@example.net"@> as <hhh@example.net> (subject to Postfix setting # 'resolve_dequoted_address'), which is not what the sender requested; # we no longer do that if localpart contains an '@': $domain = '' if $domain eq '@' && $localpart =~ /\@/; $localpart . $domain; } # wraps the result of quote_rfc2821_local into angle brackets <...> ; # If given a list, it returns a list (possibly converted to # comma-separated scalar if invoked in scalar context), quoting each element; # sub qquote_rfc2821_local(@) { my(@r) = map($_ eq '' ? '<>' : ('<'.quote_rfc2821_local($_).'>'), @_); wantarray ? @r : join(', ', @r); } sub parse_quoted_rfc2821($$) { my($addr,$unquote) = @_; # the angle-bracket stripping is not really a duty of this subroutine, # as it should have been already done elsewhere, but we allow it here anyway: $addr =~ s/^\s*<//s; $addr =~ s/>\s*\z//s; # tolerate unmatched angle brkts local($1,$2); my($source_route,$localpart,$domain) = ('','',''); # RFC 5321: so-called "source route" MUST BE accepted, # SHOULD NOT be generated, and SHOULD be ignored. # Path = "<" [ A-d-l ":" ] Mailbox ">" # A-d-l = At-domain *( "," A-d-l ) # At-domain = "@" domain if (index($addr,':') >= 0 && # triage before more testing for source route $addr=~m{^( [ \t]* \@ (?: [\x{80}-\x{F4}A-Za-z0-9.!\#\$%&*/^{}=_+-]* | \[ (?: \\. | [^\]\\] ){0,999} \] ) [ \t]* (?: ,[ \t]* \@ (?: [\x{80}-\x{F4}A-Za-z0-9.!\#\$%&*/^{}=_+-]* | \[ (?: \\. | [^\]\\] ){0,999} \] ) [ \t]* )* : [ \t]* ) (.*) \z }xs) { # NOTE: we are quite liberal on allowing whitespace around , and : here, # and liberal in allowed character set and syntax of domain names, # we mainly avoid stop-characters in the domain names of source route $source_route = $1; $addr = $2; } if ($addr =~ m{^ ( .*? ) ( \@ (?: [^\@\[\]]+ | \[ (?: \\. | [^\]\\] ){0,999} \] | [^\@] )* ) \z}xs) { ($localpart,$domain) = ($1,$2); } else { ($localpart,$domain) = ($addr,''); } $localpart =~ s/ " | \\ (.) | \\ \z /$1/xgs if $unquote; # undo quoted-pairs ($source_route, $localpart, $domain); } # unquote_rfc2821_local() strips away the quoting from the local part # of an external (quoted) mailbox address, and returns internal (unquoted) # mailbox address, as per RFC 5321 (ex RFC 2821). # Internal (unquoted) form is used internally by amavis and other mail sw, # external (quoted) form is used in SMTP commands and in message header section # sub unquote_rfc2821_local($) { my $mailbox = $_[0]; my($source_route,$localpart,$domain) = parse_quoted_rfc2821($mailbox,1); # make address with '@' in the localpart but no domain (like <"aa@bb.com"> ) # distinguishable from <aa@bb.com> by representing it as aa@bb.com@ in # unquoted form; (it still obeys all regular rules, it is not a dirty trick) $domain = '@' if $domain eq '' && $localpart ne '' && $localpart =~ /\@/; $localpart . $domain; } # Parse an rfc2822.address-list, returning a list of RFC 5322 (quoted) # addresses. Properly deals with group addresses, nested comments, address # literals, qcontent, addresses with source route, discards display # names and comments. The following header fields accept address-list: # To, Cc, Bcc, Reply-To, (and since RFC 6854 also:) From and Sender. # # RFC 6854 relaxed the syntax on 'From' and 'Sender', where the group syntax # is now allowed. Prior to RFC 6854 the 'From' accepted a 'mailbox-list' # syntax (does not allow groups), and 'Sender' accepted a 'mailbox' syntax, # i.e. only one address and not a group. # use vars qw($s $p @addresses); sub flush_a() { $s =~ s/^[ \t]+//s; $s =~ s/[ \t]\z//s; # trim $p =~ s/^[ \t]+//s; $p =~ s/[ \t]\z//s; if ($p ne '') { $p =~ s/^<//; $p =~ s/>\z//; push(@addresses,$p) } elsif ($s ne '') { push(@addresses,$s) } $p = ''; $s = ''; } sub parse_address_list($) { local($_) = $_[0]; local($1); s/\n(?=[ \t])//gs; s/\n+\z//s; # unfold, chomp my $str_l = length($_); $p = ''; $s = ''; @addresses = (); my($comm_lvl, $in_qcontent, $in_literal, $in_group, $in_angle, $after_at) = (0) x 6; my $new_pos; for (my $pos=-1; $new_pos=pos($_), $new_pos<$str_l; $pos=$new_pos) { $new_pos > $pos or die "parse_address_list PANIC1 $new_pos"; # just in case # comment (may be nested: RFC 5322 section 3.2.2) if ($comm_lvl > 0 && /\G( \) )/gcsx) { $comm_lvl--; next } if (!$in_qcontent && !$in_literal && /\G( \( )/gcsx) { $comm_lvl++; next } if ($comm_lvl > 0 && /\G( \\. )/gcsx) { next } if ($comm_lvl > 0 && /\G( [^()\\]+ )/gcsx) { next } # quoted content if ($in_qcontent && /\G( " )/gcsx) # normal exit from qcontent { $in_qcontent = 0; ($in_angle?$p:$s) .= $1; next } if ($in_qcontent && /\G( > )/gcsx) # bail out of qcontent { $in_qcontent = 0; $in_angle = 0; $after_at = 0; ($in_angle?$p:$s) .= $1; next } if (!$comm_lvl && !$in_qcontent && !$in_literal && /\G( " )/gcsx) { $in_qcontent = 1; ($in_angle?$p:$s) .= $1; next } if ($in_qcontent && /\G( \\. )/gcsx) { ($in_angle?$p:$s) .= $1; next } if ($in_qcontent && /\G( [^"\\>]+ )/gcsx) { ($in_angle?$p:$s) .= $1; next } # address literal if ($in_literal && /\G( \] )/gcsx) { $in_literal = 0; ($in_angle?$p:$s) .= $1; next } if ($in_literal && /\G( > )/gcsx) # bail out of address literal { $in_literal = 0; $in_angle = 0; $after_at = 0; ($in_angle?$p:$s) .= $1; next } if (!$comm_lvl && !$in_qcontent && /\G( \[ )/gcsx) { $in_literal = 1 if $after_at; ($in_angle?$p:$s) .= $1; next } if ($in_literal && /\G( \\. )/gcsx) { ($in_angle?$p:$s) .= $1; next } if ($in_literal && /\G( [^\]\\>]+ )/gcsx) { ($in_angle?$p:$s) .= $1; next } # normal content if (!$comm_lvl && !$in_qcontent && !$in_literal) { if (!$in_angle && /\G( < )/gcsx) { $in_angle = 1; $after_at = 0; flush_a() if $p ne ''; $p .= $1; next } if ( $in_angle && /\G( > )/gcsx) { $in_angle = 0; $after_at = 0; $p .= $1; next } if (/\G( , )/gcsx) # top-level addr separator or source route delimiter { !$in_angle ? flush_a() : ($p.=$1); $after_at = 0; next } if (!$in_angle && !$in_group && /\G( : )/gcsx) # group name terminator { $in_group = 1; $s .= $1; $p=$s=''; next } # discard group name if ($after_at && /\G( : )/gcsx) # source route terminator { $after_at = 0; ($in_angle?$p:$s) .= $1; next } if ( $in_group && /\G( ; )/gcsx) # group terminator { $in_group = 0; $after_at = 0; next } if (!$in_group && /\G( ; )/gcsx) # out of place special { ($in_angle?$p:$s) .= $1; $after_at = 0; next } if (/\G( \@ )/gcsx) { $after_at = 1; ($in_angle?$p:$s) .= $1; next } if (/\G( [ \t]+ )/gcsx) { ($in_angle?$p:$s) .= $1; next } if (/\G( [^,:;\@<>()"\[\]\\]+ )/gcsx) { ($in_angle?$p:$s) .= $1; next } } if (/\G( . )/gcsx) { ($in_angle?$p:$s) .= $1; next } # other junk die "parse_address_list PANIC2 $new_pos"; # just in case } flush_a(); @addresses; } # compute a total displayed line size if a string (possibly containing TAB # characters) would be displayed at the given character position (0-based) # sub displayed_length($$) { my($str,$ind) = @_; for my $t ($str =~ /\G ( \t | [^\t]+ )/xgs) { $ind += $t ne "\t" ? length($t) : 8 - $ind % 8 } $ind; } # Wrap a string into a multiline string, inserting \n as appropriate to keep # each line length at $max_len or shorter (not counting \n). A string $prefix # is prepended to each line. Continuation lines get their first space or TAB # character replaced by a string $indent (unless $indent is undefined, which # keeps the leading whitespace character unchanged). Both the $prefix and # $indent are included in line size calculation, and for the purpose of line # size calculations TABs are treated as an appropriate number of spaces. # Parameter $structured indicates where line breaks are permitted: true # indicates that line breaks may only occur where a \n character is already # present in the source line, indicating possible (tentative) line breaks. # If $structured is false, permitted line breaks are chosen within existing # whitespace substrings so that all-whitespace lines are never generated # (even at the expense of producing longer than allowed lines if necessary), # and that each continuation line starts by at least one whitespace character. # Whitespace is neither added nor removed, but simply spliced into trailing # and leading whitespace of subsequent lines. Typically leading whitespace # is a single character, but may include part of the trailing whitespace of # the preceding line if it would otherwise be too long. This is appropriate # and required for wrapping of mail header fields. An exception to preservation # of whitespace is when $indent string is defined but is an empty string, # causing leading and trailing whitespace to be trimmed, producing a classical # plain text wrapping results. Intricate! # sub wrap_string($;$$$$) { my($str,$max_len,$prefix,$indent,$structured) = @_; $max_len = 78 if !defined $max_len; $prefix = '' if !defined $prefix; $structured = 0 if !defined $structured; my(@chunks); # split a string into chunks where each chunk starts with exactly one SP or # TAB character (except possibly the first chunk), followed by an unbreakable # string (consisting typically entirely of non-whitespace characters, at # least one character must be non-whitespace), followed by an all-whitespace # string consisting of only SP or TAB characters. if ($structured) { local($1); # unfold all-whitespace chunks, just in case 1 while $str =~ s/^([ \t]*)\n/$1/; # prefixed? $str =~ s/\n(?=[ \t]*(\n|\z))//g; # within and at end $str =~ s/\n(?![ \t])/\n /g; # insert a space at line folds if missing # unbreakable parts are substrings between newlines, determined by caller @chunks = split(/\n/,$str,-1); } else { $str =~ s/\n(?![ \t])/\n /g; # insert a space at line folds if missing $str =~ s/\n//g; # unfold (knowing a space at folds is not missing) # unbreakable parts are non- all-whitespace substrings @chunks = $str =~ /\G ( (?: ^ .*? | [ \t]) [^ \t]+ [ \t]* ) (?= \z | [ \t] [^ \t] )/xgs; } # do_log(5,"wrap_string chunk: <%s>", $_) for @chunks; my $result = ''; # wrapped multiline string will accumulate here my $s = ''; # collects partially assembled single line my $s_displ_ind = # display size of string in $s, including $prefix displayed_length($prefix,0); my $contin_line = 0; # are we assembling a continuation line? while (@chunks) { # walk through input substrings and join shorter sections my $chunk = shift(@chunks); # replace leading space char with $indent if starting a continuation line $chunk =~ s/^[ \t]/$indent/ if defined $indent && $contin_line && $s eq ''; my $s_displ_l = displayed_length($chunk, $s_displ_ind); if ($s_displ_l <= $max_len # collecting in $s while still fits || (@chunks==0 && $s =~ /^[ \t]*\z/)) { # or we are out of options $s .= $chunk; $s_displ_ind = $s_displ_l; # absorb entire chunk } else { local($1,$2); $chunk =~ /^ ( .* [^ \t] ) ( [ \t]* ) \z/xs # split to head and allwhite or die "Assert 1 failed in wrap: /$result/, /$chunk/"; my($solid,$white_tail) = ($1,$2); my $min_displayed_s_len = displayed_length($solid, $s_displ_ind); if (@chunks > 0 # not being at the last chunk gives a chance to shove # part of the trailing whitespace off to the next chunk && ($min_displayed_s_len <= $max_len # non-whitespace part fits || $s =~ /^[ \t]*\z/) ) { # or still allwhite even if too long $s .= $solid; $s_displ_ind = $min_displayed_s_len; # take nonwhite if (defined $indent && $indent eq '') { # discard leading whitespace in continuation lines on a plain wrap } else { # preserve all original whitespace while ($white_tail ne '') { # stash-in as much trailing whitespace as it fits to the curr. line my $c = substr($white_tail,0,1); # one whitespace char. at a time my $dlen = displayed_length($c, $s_displ_ind); if ($dlen > $max_len) { last } else { $s .= $c; $s_displ_ind = $dlen; # absorb next whitespace char. $white_tail = substr($white_tail,1); # one down, more to go... } } # push remaining trailing whitespace characters back to input $chunks[0] = $white_tail . $chunks[0] if $white_tail ne ''; } } elsif ($s =~ /^[ \t]*\z/) { die "Assert 2 failed in wrap: /$result/, /$chunk/"; } else { # nothing more fits to $s, flush it to $result if ($contin_line) { $result .= "\n" } else { $contin_line = 1 } # trim trailing whitespace when wrapping as a plain text (not headers) $s =~ s/[ \t]+\z// if defined $indent && $indent eq ''; $result .= $prefix.$s; $s = ''; $s_displ_ind = displayed_length($prefix,0); unshift(@chunks,$chunk); # reprocess the chunk } } } if ($s !~ /^[ \t]*\z/) { # flush last chunk if nonempty if ($contin_line) { $result .= "\n" } else { $contin_line = 1 } $s =~ s/[ \t]+\z// if defined $indent && $indent eq ''; # trim plain text $result .= $prefix.$s; $s = ''; } $result; } # wrap an SMTP response at each \n char according to RFC 5321 (ex RFC 2821), # returning resulting lines as a listref # sub wrap_smtp_resp($) { my $resp = $_[0]; # RFC 5321 section 4.5.3.1.5: The maximum total length of a # reply line including the reply code and the <CRLF> is 512 octets. # More information may be conveyed through multiple-line replies. my $max_len = 512-2; my(@result_list); local($1,$2,$3,$4); if ($resp !~ /^ ([1-5]\d\d) (\ |-|\z) ([245] \. \d{1,3} \. \d{1,3} (?: \ |\z) )? (.*) \z/xs) { die "wrap_smtp_resp: bad SMTP response code: '$resp'" } my($resp_code,$more,$enhanced,$tail) = ($1,$2,$3,$4); my $lead_len = length($resp_code) + 1 + length($enhanced); while (length($tail) > $max_len-$lead_len || $tail =~ /\n/) { # RFC 2034: When responses are continued across multiple lines # the same status code must appear at the beginning of the text # in each line of the response. my $head = substr($tail, 0, $max_len-$lead_len); if ($head =~ /^([^\n]*\n)/s) { $head = $1 } $tail = substr($tail,length($head)); chomp($head); push(@result_list, $resp_code.'-'.$enhanced.$head); } push(@result_list, $resp_code.' '.$enhanced.$tail); \@result_list; } # Prepare a single SMTP response and an exit status as per sysexits.h # from individual per-recipient response codes, taking into account # sendmail milter specifics. Returns a triple: (smtp response, exit status, # an indication whether a non delivery notification (NDN, a form of DSN) # is needed). # sub one_response_for_all($$;$) { my($msginfo, $dsn_per_recip_capable, $suppressed) = @_; do_log(5, 'one_response_for_all, per_recip_capable: %s, suppressed: %s', $dsn_per_recip_capable?'Y':'N', $suppressed?'Y':'N'); my($smtp_resp, $exit_code, $ndn_needed); my $am_id = $msginfo->log_id; my $sender = $msginfo->sender; my $per_recip_data = $msginfo->per_recip_data; my $any_not_done = scalar(grep(!$_->recip_done, @$per_recip_data)); if (!@$per_recip_data) { # no recipients, nothing to do $smtp_resp = "250 2.5.0 Ok, id=$am_id"; $exit_code = EX_OK; do_log(5, "one_response_for_all <%s>: no recipients, '%s'", $sender, $smtp_resp); } if (!defined $smtp_resp) { for my $r (@$per_recip_data) { # any 4xx code ? if ($r->recip_smtp_response =~ /^4/) # pick the first 4xx code { $smtp_resp = $r->recip_smtp_response; last } } } if (!defined $smtp_resp) { for my $r (@$per_recip_data) { my $fwd_m = $r->delivery_method; if (!defined $fwd_m) { die "one_response_for_all: delivery_method not defined"; } elsif ($fwd_m ne '' && $any_not_done) { die "Explicit forwarding, but not all recips done"; } } for my $r (@$per_recip_data) { # any invalid code ? if ($r->recip_done && $r->recip_smtp_response !~ /^[245]/) { $smtp_resp = '451 4.5.0 Bad SMTP response code??? "' . $r->recip_smtp_response . '"'; last; # pick the first } } if (defined $smtp_resp) { $exit_code = EX_TEMPFAIL; do_log(5, "one_response_for_all <%s>: 4xx found, '%s'", $sender,$smtp_resp); } } # NOTE: a 2xx SMTP response code is set both by internal Discard # and by a genuine successful delivery. To distinguish between the two # we need to check $r->recip_destiny as well. # if (!defined $smtp_resp) { # if destiny for _all_ recipients is D_DISCARD, give Discard my $notall; for my $r (@$per_recip_data) { if ($r->recip_destiny == D_DISCARD) # pick the first DISCARD code { $smtp_resp = $r->recip_smtp_response if !defined $smtp_resp } else { $notall=1; last } # one is not a discard, nogood } if ($notall) { $smtp_resp = undef } if (defined $smtp_resp) { $exit_code = 99; # helper program will interpret 99 as discard do_log(5, "one_response_for_all <%s>: all DISCARD, '%s'", $sender,$smtp_resp); } } if (!defined $smtp_resp) { # destiny for _all_ recipients is Discard or Reject, give 5xx # (and there is at least one Reject) my($notall, $done_level); my $bounce_cnt = 0; for my $r (@$per_recip_data) { my($dest, $resp) = ($r->recip_destiny, $r->recip_smtp_response); if ($dest == D_DISCARD) { # ok, this one is a discard, let's see the rest } elsif ($resp =~ /^5/ && $dest != D_BOUNCE) { # prefer to report SMTP response code of genuine rejects # from MTA, over internal rejects by content filters if (!defined $smtp_resp || $r->recip_done > $done_level) { $smtp_resp = $resp; $done_level = $r->recip_done } } else { $notall=1; last; # one is a Pass or Bounce, nogood } } if ($notall) { $smtp_resp = undef } if (defined $smtp_resp) { $exit_code = EX_UNAVAILABLE; do_log(5, "one_response_for_all <%s>: REJECTs, '%s'",$sender,$smtp_resp); } } if (!defined $smtp_resp) { # mixed destiny => 2xx, but generate dsn for bounces and rejects my($rej_cnt, $bounce_cnt, $drop_cnt) = (0,0,0); for my $r (@$per_recip_data) { my($dest, $resp) = ($r->recip_destiny, $r->recip_smtp_response); if ($resp =~ /^2/ && $dest == D_PASS) # genuine successful delivery { $smtp_resp = $resp if !defined $smtp_resp } $drop_cnt++ if $dest == D_DISCARD; if ($resp =~ /^5/) { if ($dest == D_BOUNCE) { $bounce_cnt++ } else { $rej_cnt++ } } } $exit_code = EX_OK; if (!defined $smtp_resp) { # no genuine Pass/2xx # declare success, we'll handle bounce $smtp_resp = "250 2.5.0 Ok, id=$am_id"; if ($any_not_done) { $smtp_resp .= ", continue delivery" } else { $exit_code = 99 } # helper program DISCARD (e.g. milter) } if ($rej_cnt + $bounce_cnt + $drop_cnt > 0) { $smtp_resp .= ", "; $smtp_resp .= "but " if $rej_cnt+$bounce_cnt+$drop_cnt<@$per_recip_data; $smtp_resp .= join ", and ", map { my($cnt, $nm) = @$_; !$cnt ? () : $cnt == @$per_recip_data ? $nm : "$cnt $nm" } ([$rej_cnt, 'REJECT'], [$bounce_cnt, $suppressed ? 'DISCARD(bounce.suppressed)' :'BOUNCE'], [$drop_cnt, 'DISCARD']); } $ndn_needed = ($bounce_cnt > 0 || ($rej_cnt > 0 && !$dsn_per_recip_capable)) ? 1 : 0; ll(5) && do_log(5, "one_response_for_all <%s>: %s, r=%d,b=%d,d=%s, ndn_needed=%s, '%s'", $sender, $rej_cnt + $bounce_cnt + $drop_cnt > 0 ? 'mixed' : 'success', $rej_cnt, $bounce_cnt, $drop_cnt, $ndn_needed, $smtp_resp); } ($smtp_resp, $exit_code, $ndn_needed); } 1;