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# Constants used in many parts of the SpamAssassin codebase. # # TODO! we need to reimplement parts of the RESERVED regexp! # <@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::Constants; use strict; use warnings; use re 'taint'; use Exporter (); our @ISA = qw(Exporter); our(@BAYES_VARS, @IP_VARS, @SA_VARS, %EXPORT_TAGS, @EXPORT_OK); # NOTE: Unless you need these to be available at BEGIN time, you're better with this out of a BEGIN block with a simple our statement. BEGIN { @IP_VARS = qw( IP_IN_RESERVED_RANGE IP_PRIVATE LOCALHOST IPV4_ADDRESS IP_ADDRESS IS_IP_PRIVATE IS_LOCALHOST IS_IPV4_ADDRESS IS_IP_ADDRESS ); @BAYES_VARS = qw( DUMP_MAGIC DUMP_TOKEN DUMP_BACKUP ); # These are generic constants that may be used across several modules @SA_VARS = qw( MBX_SEPARATOR MAX_BODY_LINE_LENGTH MAX_HEADER_KEY_LENGTH MAX_HEADER_VALUE_LENGTH MAX_HEADER_LENGTH ARITH_EXPRESSION_LEXER AI_TIME_UNKNOWN CHARSETS_LIKELY_TO_FP_AS_CAPS MAX_URI_LENGTH RULENAME_RE IS_RULENAME META_RULES_MATCHING_RE ); %EXPORT_TAGS = ( bayes => [ @BAYES_VARS ], ip => [ @IP_VARS ], sa => [ @SA_VARS ], all => [ @BAYES_VARS, @IP_VARS, @SA_VARS ], ); @EXPORT_OK = ( @BAYES_VARS, @IP_VARS, @SA_VARS ); } # BAYES_VARS use constant DUMP_MAGIC => 1; use constant DUMP_TOKEN => 2; use constant DUMP_SEEN => 4; use constant DUMP_BACKUP => 8; # IP_VARS # --------------------------------------------------------------------------- # Initialize a regexp for private IPs, i.e. ones that could be # used inside a company and be the first or second relay hit by # a message. Some companies use these internally and translate # them using a NAT firewall. These are listed in the RBL as invalid # originators -- which is true, if you receive the mail directly # from them; however we do not, so we should ignore them. # # sources: # IANA = <https://www.iana.org/numbers>, # 5735 = <https://tools.ietf.org/html/rfc5735> # 6598 = <https://tools.ietf.org/html/rfc6598> # 4193 = <https://tools.ietf.org/html/rfc4193> # CYMRU = <https://www.team-cymru.com/bogon-reference.html> # # This includes: # host-local address space 127.0.0.0/8 and ::1, # link-local address space 169.254.0.0/16 and fe80::/10, # private-use address space 10.0.0.0/8, 172.16.0.0/12, 192.168.0.0/16, # TODO: Unique Local Unicast Addresses fc00::/7 (RFC 4193) # shared address space 100.64.0.0/10 (RFC 6598 - for use in CGN), # IPv4-mapped IPv6 address ::ffff:0:0/96 (RFC 3513) # use constant IP_PRIVATE => qr{^(?: (?: # IPv4 addresses 10| # 10.0.0.0/8 Private Use (5735, 1918) 127| # 127.0.0.0/8 Host-local (5735, 1122) 169\.254| # 169.254.0.0/16 Link-local (5735, 3927) 172\.(?:1[6-9]|2[0-9]|3[01])| # 172.16.0.0/12 Private Use (5735, 1918) 192\.168| # 192.168.0.0/16 Private Use (5735, 1918) 100\.(?:6[4-9]|[7-9][0-9]|1[01][0-9]|12[0-7]) # 100.64.0.0/10 CGN (6598) )\..* | (?: # IPv6 addresses # don't use \b here, it hits on :'s (?:IPv6: # with optional prefix | (?<![a-f0-9:]) ) (?: # IPv4 mapped in IPv6 # note the colon after the 12th byte in each here (?: # first 6 (12 bytes) non-zero (?:0{1,4}:){5} ffff: | # leading zeros omitted (note {0,5} not {1,5}) ::(?:0{1,4}:){0,4} ffff: | # trailing zeros (in the first 6) omitted (?:0{1,4}:){1,4}: ffff: | # 0000 in second up to (including) fifth omitted 0{1,4}::(?:0{1,4}:){1,3} ffff: | # 0000 in third up to (including) fifth omitted (?:0{1,4}:){2}:0{1,2}: ffff: | # 0000 in fourth up to (including) fifth omitted (?:0{1,4}:){3}:0: ffff: | # 0000 in fifth omitted (?:0{1,4}:){4}: ffff: ) # and the IPv4 address appended to all of the 12 bytes above (?: 10| 127| 169\.254| 172\.(?:1[6-9]|2[0-9]|3[01])| 192\.168| 100\.(?:6[4-9]|[7-9][0-9]|1[01][0-9]|12[0-7]) )\..* | # or IPv6 link-local address space, fe80::/10 fe[89ab][0-9a-f]:.* | # or the host-local ::1 addr, as a pure IPv6 address # all 8 (16 bytes) of them present (?:0{1,4}:){7} 0{0,3}1 | # leading zeros omitted :(?::0{1,4}){0,6}: 0{0,3}1 | # 0000 in second up to (including) seventh omitted 0{1,4}:(?::0{1,4}){0,5}: 0{0,3}1 | # 0000 in third up to (including) seventh omitted (?:0{1,4}:){2}(?::0{1,4}){0,4}: 0{0,3}1 | # 0000 in fourth up to (including) seventh omitted (?:0{1,4}:){3}(?::0{1,4}){0,3}: 0{0,3}1 | # 0000 in fifth up to (including) seventh omitted (?:0{1,4}:){4}(?::0{1,4}){0,2}: 0{0,3}1 | # 0000 in sixth up to (including) seventh omitted (?:0{1,4}:){5}(?::0{1,4}){0,1}: 0{0,3}1 | # 0000 in seventh omitted (?:0{1,4}:){6}: 0{0,3}1 ) (?![a-f0-9:]) ) )}xi; # exact match use constant IS_IP_PRIVATE => qr/^${\(IP_PRIVATE)}$/; # backward compatibility use constant IP_IN_RESERVED_RANGE => IP_PRIVATE; # --------------------------------------------------------------------------- # match the various ways of saying "localhost". use constant LOCALHOST => qr/ (?: # as a string localhost(?:\.localdomain)? | \b(?<!:) # ensure no "::" IPv6 marker before this one # plain IPv4 127\.0\.0\.1 \b | # IPv6 addresses # don't use \b here, it hits on :'s (?:IPv6: # with optional prefix | (?<![a-f0-9:]) ) (?: # IPv4 mapped in IPv6 # note the colon after the 12th byte in each here (?: # first 6 (12 bytes) non-zero (?:0{1,4}:){5} ffff: | # leading zeros omitted (note {0,5} not {1,5}) ::(?:0{1,4}:){0,4} ffff: | # trailing zeros (in the first 6) omitted (?:0{1,4}:){1,4}: ffff: | # 0000 in second up to (including) fifth omitted 0{1,4}::(?:0{1,4}:){1,3} ffff: | # 0000 in third up to (including) fifth omitted (?:0{1,4}:){2}:0{1,2}: ffff: | # 0000 in fourth up to (including) fifth omitted (?:0{1,4}:){3}:0: ffff: | # 0000 in fifth omitted (?:0{1,4}:){4}: ffff: ) # and the IPv4 address appended to all of the 12 bytes above 127\.0\.0\.1 # no \b, we check later | # or (separately) a pure IPv6 address # all 8 (16 bytes) of them present (?:0{1,4}:){7} 0{0,3}1 | # leading zeros omitted :(?::0{1,4}){0,6}: 0{0,3}1 | # 0000 in second up to (including) seventh omitted 0{1,4}:(?::0{1,4}){0,5}: 0{0,3}1 | # 0000 in third up to (including) seventh omitted (?:0{1,4}:){2}(?::0{1,4}){0,4}: 0{0,3}1 | # 0000 in fourth up to (including) seventh omitted (?:0{1,4}:){3}(?::0{1,4}){0,3}: 0{0,3}1 | # 0000 in fifth up to (including) seventh omitted (?:0{1,4}:){4}(?::0{1,4}){0,2}: 0{0,3}1 | # 0000 in sixth up to (including) seventh omitted (?:0{1,4}:){5}(?::0{1,4}){0,1}: 0{0,3}1 | # 0000 in seventh omitted (?:0{1,4}:){6}: 0{0,3}1 ) (?![a-f0-9:]) ) /xi; # exact match use constant IS_LOCALHOST => qr/^${\(LOCALHOST)}$/; # --------------------------------------------------------------------------- # an IP address, in IPv4 format only. # use constant IPV4_ADDRESS => qr/\b (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d) \b/x; # exact match use constant IS_IPV4_ADDRESS => qr/^${\(IPV4_ADDRESS)}$/; # --------------------------------------------------------------------------- # an IP address, in IPv4, IPv4-mapped-in-IPv6, or IPv6 format. # use constant IP_ADDRESS => qr/ (?: \b(?<!:) # ensure no "::" IPv4 marker before this one # plain IPv4, as above (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\b | # IPv6 addresses # don't use \b here, it hits on :'s (?:IPv6: # with optional prefix | (?<![a-f0-9:]) ) (?: # IPv4 mapped in IPv6 # note the colon after the 12th byte in each here (?: # first 6 (12 bytes) non-zero (?:[a-f0-9]{1,4}:){6} | # leading zeros omitted (note {0,5} not {1,5}) ::(?:[a-f0-9]{1,4}:){0,5} | # trailing zeros (in the first 6) omitted (?:[a-f0-9]{1,4}:){1,5}: | # 0000 in second up to (including) fifth omitted [a-f0-9]{1,4}::(?:[a-f0-9]{1,4}:){1,4} | # 0000 in third up to (including) fifth omitted (?:[a-f0-9]{1,4}:){2}:(?:[a-f0-9]{1,4}:){1,3} | # 0000 in fourth up to (including) fifth omitted (?:[a-f0-9]{1,4}:){3}:(?:[a-f0-9]{1,4}:){1,2} | # 0000 in fifth omitted (?:[a-f0-9]{1,4}:){4}:[a-f0-9]{1,4}: ) # and the IPv4 address appended to all of the 12 bytes above (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d)\. (?:1\d\d|2[0-4]\d|25[0-5]|[1-9]\d|\d) # no \b, we check later | # or (separately) a pure IPv6 address # all 8 (16 bytes) of them present (?:[a-f0-9]{1,4}:){7}[a-f0-9]{1,4} | # leading zeros omitted :(?::[a-f0-9]{1,4}){1,7} | # trailing zeros omitted (?:[a-f0-9]{1,4}:){1,7}: | # 0000 in second up to (including) seventh omitted [a-f0-9]{1,4}:(?::[a-f0-9]{1,4}){1,6} | # 0000 in third up to (including) seventh omitted (?:[a-f0-9]{1,4}:){2}(?::[a-f0-9]{1,4}){1,5} | # 0000 in fourth up to (including) seventh omitted (?:[a-f0-9]{1,4}:){3}(?::[a-f0-9]{1,4}){1,4} | # 0000 in fifth up to (including) seventh omitted (?:[a-f0-9]{1,4}:){4}(?::[a-f0-9]{1,4}){1,3} | # 0000 in sixth up to (including) seventh omitted (?:[a-f0-9]{1,4}:){5}(?::[a-f0-9]{1,4}){1,2} | # 0000 in seventh omitted (?:[a-f0-9]{1,4}:){6}:[a-f0-9]{1,4} | # :: (the unspecified address 0:0:0:0:0:0:0:0) # dos: I don't expect to see this address in a header, and # it may cause non-address strings to match, but we'll # include it for now since it is valid :: ) (?![a-f0-9:]) ) /xi; # exact match use constant IS_IP_ADDRESS => qr/^${\(IP_ADDRESS)}$/; # --------------------------------------------------------------------------- # regular expression that matches message separators in The University of # Washington's MBX mailbox format use constant MBX_SEPARATOR => qr/^([\s\d]\d-[a-zA-Z]{3}-\d{4}\s\d{2}:\d{2}:\d{2}.*),(\d+);([\da-f]{12})-(\w{8})\r?$/; # $1 = datestamp (str) # $2 = size of message in bytes (int) # $3 = message status - binary (hex) # $4 = message ID (hex) # --------------------------------------------------------------------------- # values used for internal message representations # maximum byte length of lines in the body use constant MAX_BODY_LINE_LENGTH => 2048; # maximum byte length of a header key use constant MAX_HEADER_KEY_LENGTH => 256; # maximum byte length of a header value including continued lines use constant MAX_HEADER_VALUE_LENGTH => 8192; # maximum byte length of entire header use constant MAX_HEADER_LENGTH => 65536; # maximum byte length of any given URI use constant MAX_URI_LENGTH => 8192; # used for meta rules and "if" conditionals in Conf::Parser use constant ARITH_EXPRESSION_LEXER => qr/(?: [\-\+\d\.]+| # A Number \w[\w\:]*| # Rule or Class Name [\(\)]| # Parens \|\|| # Boolean OR \&\&| # Boolean AND \^| # Boolean XOR !(?!=)| # Boolean NOT >=?| # GT or EQ <=?| # LT or EQ ==| # EQ !=| # NEQ [\+\-\*\/]| # Mathematical Operator [\?:] # ? : Operator )/x; # ArchiveIterator # if AI doesn't read in the message in the first pass to see if the received # date makes the message useful or not, we need to mark it so that in the # second pass (when the message is actually read + processed) the received # date is calculated. this value signifies "unknown" from the first pass. use constant AI_TIME_UNKNOWN => 0; # Charsets which use capital letters heavily in their encoded representation. use constant CHARSETS_LIKELY_TO_FP_AS_CAPS => qr{[-_a-z0-9]*(?: koi|jp|jis|euc|gb|big5|isoir|cp1251|windows-1251|georgianps|pt154|tis )[-_a-z0-9]*}ix; # Allowed rulename format use constant RULENAME_RE => qr([_a-zA-Z][_a-zA-Z0-9]{0,127}); # Exact match use constant IS_RULENAME => qr/^${\(RULENAME_RE)}$/; # meta function rules_matching(), takes argument RULENAME_RE with glob *? characters use constant META_RULES_MATCHING_RE => qr/(?<!_)\brules_matching\(\s*([_a-zA-Z*?][_a-zA-Z0-9*?]{0,127})\s*\)/; 1;