Server IP : 85.214.239.14 / Your IP : 18.224.57.86 Web Server : Apache/2.4.62 (Debian) System : Linux h2886529.stratoserver.net 4.9.0 #1 SMP Tue Jan 9 19:45:01 MSK 2024 x86_64 User : www-data ( 33) PHP Version : 7.4.18 Disable Function : pcntl_alarm,pcntl_fork,pcntl_waitpid,pcntl_wait,pcntl_wifexited,pcntl_wifstopped,pcntl_wifsignaled,pcntl_wifcontinued,pcntl_wexitstatus,pcntl_wtermsig,pcntl_wstopsig,pcntl_signal,pcntl_signal_get_handler,pcntl_signal_dispatch,pcntl_get_last_error,pcntl_strerror,pcntl_sigprocmask,pcntl_sigwaitinfo,pcntl_sigtimedwait,pcntl_exec,pcntl_getpriority,pcntl_setpriority,pcntl_async_signals,pcntl_unshare, MySQL : OFF | cURL : OFF | WGET : ON | Perl : ON | Python : ON | Sudo : ON | Pkexec : OFF Directory : /usr/share/perl5/Mail/DMARC/ |
Upload File : |
package Mail::DMARC::PurePerl; our $VERSION = '1.20211209'; use strict; use warnings; use Carp; use parent 'Mail::DMARC'; sub init { my $self = shift; $self->is_subdomain(0); $self->{header_from} = undef; $self->{header_from_raw} = undef; $self->{envelope_to} = undef; $self->{envelope_from} = undef; $self->{source_ip} = undef; $self->{policy} = undef; $self->{result} = undef; $self->{report} = undef; $self->{spf} = undef; $self->{dkim} = undef; return; } sub validate { my $self = shift; my $policy = shift; $self->result->result('fail'); # set a couple $self->result->disposition('none'); # defaults # 11.2.1 Extract RFC5322.From domain my $from_dom = $self->get_from_dom() or return $self->result; # 9.6. reject email if the domain appears to not exist $self->exists_in_dns() or return $self->result; $policy ||= $self->discover_policy(); # 11.2.2 Query DNS for DMARC policy $policy or return $self->result; # 3.5 Out of Scope DMARC has no "short-circuit" provision, such as # specifying that a pass from one authentication test allows one # to skip the other(s). All are required for reporting. eval { $self->is_dkim_aligned; }; # 11.2.3. DKIM signature verification checks eval { $self->is_spf_aligned; }; # 11.2.4. SPF validation checks my $aligned = $self->is_aligned(); # 11.2.5. identifier alignment checks if ($self->config->{report_store}{auto_save}) { eval { $self->save_aggregate(); }; } return $self->result if $aligned; my $effective_p = $self->is_subdomain && defined $policy->sp ? $policy->sp : $policy->p; # 11.2.6 Apply policy. Emails that fail the DMARC mechanism check are # disposed of in accordance with the discovered DMARC policy of the # Domain Owner. See Section 6.2 for details. if ( lc $effective_p eq 'none' ) { return $self->result; } return $self->result if $self->is_whitelisted; # 7.1. Policy Fallback Mechanism # If the "pct" tag is present in a policy record, application of policy # is done on a selective basis. if ( !defined $policy->pct ) { $self->result->disposition($effective_p); return $self->result; } # The stated percentage of messages that fail the DMARC test MUST be # subjected to whatever policy is selected by the "p" or "sp" tag if ( int( rand(100) ) < $policy->pct ) { $self->result->disposition($effective_p); return $self->result; } $self->result->reason( type => 'sampled_out' ); # Those that are not thus selected MUST instead be subjected to the next # policy lower in terms of severity. In decreasing order of severity, # the policies are "reject", "quarantine", and "none". $self->result->disposition( ( $effective_p eq 'reject' ) ? 'quarantine' : 'none' ); return $self->result; } sub save_aggregate { my ( $self ) = @_; my $pol; eval { $pol = $self->result->published; }; if ( $pol && $self->has_valid_reporting_uri($pol->rua) ) { my @valid_report_uris = $self->get_valid_reporting_uri($pol->rua); my $filtered_report_uris = join( ',', map { $_->{'uri'} . ( ( $_->{'max_bytes'} > 0 ) ? ( '!' . $_->{'max_bytes'} ) : q{} ) } @valid_report_uris ); $self->result->published->rua( $filtered_report_uris ); return $self->SUPER::save_aggregate(); } return; } sub discover_policy { my $self = shift; my $from_dom = shift || $self->header_from or croak; print "Header From: $from_dom\n" if $self->verbose; my $org_dom = $self->get_organizational_domain($from_dom); # 9.1 Mail Receivers MUST query the DNS for a DMARC TXT record my ($matches, $at_dom) = $self->fetch_dmarc_record( $from_dom, $org_dom ); if (0 == scalar @$matches ) { $self->result->result('none'); $self->result->reason( type => 'other', comment => 'no policy' ); return; }; # 9.5. If the remaining set contains multiple records, processing # terminates and the Mail Receiver takes no action. if ( scalar @$matches > 1 ) { $self->result->reason( type => 'other', comment => "too many policies" ); print "Too many DMARC records\n" if $self->verbose; return; } my $policy; if (!$at_dom) { $at_dom = $from_dom; } my $policy_str = "domain=$at_dom;" . $matches->[0]; # prefix with domain eval { $policy = $self->policy( $policy_str ) } or return; if ($@) { $self->result->reason( type => 'other', comment => "policy parse error: $@" ); return; }; $self->result->published($policy); # 9.6 If a retrieved policy record does not contain a valid "p" tag, or # contains an "sp" tag that is not valid, then: if ( !$policy->p || !$policy->is_valid_p( $policy->p ) || ( defined $policy->sp && !$policy->is_valid_p( $policy->sp ) ) ) { # A. if an "rua" tag is present and contains at least one # syntactically valid reporting URI, the Mail Receiver SHOULD # act as if a record containing a valid "v" tag and "p=none" # was retrieved, and continue processing; # B. otherwise, the Mail Receiver SHOULD take no action. if ( !$policy->rua || !$self->has_valid_reporting_uri( $policy->rua ) ) { $self->result->reason( type => 'other', comment => "no valid rua" ); return; } $policy->v('DMARC1'); $policy->p('none'); } return $policy; } sub is_aligned { my $self = shift; # 11.2.5 Conduct identifier alignment checks. With authentication checks # and policy discovery performed, the Mail Receiver checks if # Authenticated Identifiers fall into alignment as decribed in # Section 4. If one or more of the Authenticated Identifiers align # with the RFC5322.From domain, the message is considered to pass # the DMARC mechanism check. All other conditions (authentication # failures, identifier mismatches) are considered to be DMARC # mechanism check failures. if ( 'pass' eq $self->result->spf || 'pass' eq $self->result->dkim ) { $self->result->result('pass'); $self->result->disposition('none'); return 1; } return 0; } sub is_dkim_aligned { my $self = shift; $self->result->dkim('fail'); # our 'default' result $self->get_dkim_pass_sigs() or return; # 11.2.3 Perform DKIM signature verification checks. A single email may # contain multiple DKIM signatures. The results MUST include the # value of the "d=" tag from all DKIM signatures that validated. my $from_dom = $self->header_from or croak "header_from not set!"; my $policy = $self->policy or croak "no policy!?"; my $from_org = $self->get_organizational_domain(); # Required in report: DKIM-Domain, DKIM-Identity, DKIM-Selector foreach my $dkim_ref ( $self->get_dkim_pass_sigs() ) { my $dkim_dom = lc $dkim_ref->{domain}; my $dkmeta = { domain => $dkim_ref->{domain}, selector => $dkim_ref->{selector}, identity => '', # TODO, what is this? }; if ( $dkim_dom eq $from_dom ) { # strict alignment requires exact match $self->result->dkim('pass'); $self->result->dkim_align('strict'); $self->result->dkim_meta($dkmeta); last; } # don't try relaxed if policy specifies strict next if $policy->adkim && 's' eq lc $policy->adkim; # don't try relaxed if we already got a strict match next if 'pass' eq $self->result->dkim; # relaxed policy (default): Org. Dom must match a DKIM sig my $dkim_org = $self->get_organizational_domain($dkim_dom); if ( $dkim_org eq $from_org ) { $self->result->dkim('pass'); $self->result->dkim_align('relaxed'); $self->result->dkim_meta($dkmeta); } } return 1 if 'pass' eq lc $self->result->dkim; return; } sub is_spf_aligned { my $self = shift; my $spf_dom = shift; if ( !$spf_dom && !$self->spf ) { croak "missing SPF!"; } if ( !$spf_dom ) { my @passes = grep { $_->{result} && $_->{result} =~ /pass/i } @{ $self->spf }; if (scalar @passes == 0) { $self->result->spf('fail'); return 0; }; my ($ref) = grep { $_->{scope} && $_->{scope} eq 'mfrom' } @passes; if (!$ref) { ($ref) = grep { $_->{scope} && $_->{scope} eq 'helo' } @passes; } if (!$ref) { ($ref) = $passes[0]; }; $spf_dom = $ref->{domain}; }; # 11.2.4 Perform SPF validation checks. The results of this step # MUST include the domain name from the RFC5321.MailFrom if SPF # evaluation returned a "pass" result. $self->result->spf('fail'); return 0 if !$spf_dom; my $from_dom = $self->header_from or croak "header_from not set!"; if ( $spf_dom eq $from_dom ) { $self->result->spf('pass'); $self->result->spf_align('strict'); return 1; } # don't try relaxed match if strict policy requested if ( $self->policy->aspf && 's' eq lc $self->policy->aspf ) { return 0; } if ( $self->get_organizational_domain($spf_dom) eq $self->get_organizational_domain($from_dom) ) { $self->result->spf('pass'); $self->result->spf_align('relaxed'); return 1; } return 0; } sub is_whitelisted { my $self = shift; my $s_ip = shift || $self->source_ip; return if ! defined $s_ip; if ( ! $self->{_whitelist} ) { my $white_file = $self->config->{smtp}{whitelist} or return; return if ! -f $white_file || ! -r $white_file; foreach my $line ( split /\n/, $self->slurp($white_file) ) { next if $line =~ /^#/; # ignore comments my ($lip,$reason) = split /\s+/, $line, 2; $self->{_whitelist}{$lip} = $reason; }; }; return if ! $self->{_whitelist}{$s_ip}; my ($type, $comment) = split /\s+/, $self->{_whitelist}{$s_ip}, 2; $self->result->disposition('none'); $self->result->reason( type => $type, ($comment && $comment =~ /\S/ ? ('comment' => $comment) : () ), ); return $type; } sub has_valid_reporting_uri { my ( $self, $rua ) = @_; my @valid_reporting_uris = $self->get_valid_reporting_uri( $rua ); return scalar @valid_reporting_uris; } sub get_valid_reporting_uri { my ( $self, $rua ) = @_; return unless $rua; my $recips_ref = $self->report->uri->parse($rua); my @has_permission; foreach my $uri_ref (@$recips_ref) { if ( !$self->external_report( $uri_ref->{uri} ) ) { push @has_permission, $uri_ref; next; } my $ext = $self->verify_external_reporting($uri_ref); push @has_permission, $uri_ref if $ext; } return @has_permission; } sub get_dkim_pass_sigs { my $self = shift; my $dkim_sigs = $self->dkim or return (); # message not signed if ( 'ARRAY' ne ref $dkim_sigs ) { croak "dkim needs to be an array reference!"; } return grep { 'pass' eq lc $_->{result} } @$dkim_sigs; } sub get_organizational_domain { my $self = shift; my $from_dom = shift || $self->header_from or croak "missing header_from!"; # 4.1 Acquire a "public suffix" list, i.e., a list of DNS domain # names reserved for registrations. http://publicsuffix.org/list/ # 4.2 Break the subject DNS domain name into a set of "n" ordered # labels. Number these labels from right-to-left; e.g. for # "example.com", "com" would be label 1 and "example" would be # label 2.; my @labels = reverse split /\./, lc $from_dom; # 4.3 Search the public suffix list for the name that matches the # largest number of labels found in the subject DNS domain. Let # that number be "x". my $greatest = 0; for ( my $i = 0; $i <= scalar @labels; $i++ ) { next if !$labels[$i]; my $tld = join '.', reverse( (@labels)[ 0 .. $i ] ); if ( $self->is_public_suffix($tld) ) { $greatest = $i + 1; } } if ( $greatest == scalar @labels ) { # same return $from_dom; } # 4.4 Construct a new DNS domain name using the name that matched # from the public suffix list and prefixing to it the "x+1"th # label from the subject domain. This new name is the # Organizational Domain. my $org_dom = join '.', reverse( (@labels)[ 0 .. $greatest ] ); print "Organizational Domain: $org_dom\n" if $self->verbose; return $org_dom; } sub exists_in_dns { my $self = shift; my $from_dom = shift || $self->header_from or croak "no header_from!"; # rfc7489 6.6.3 # If the set produced by the mechanism above contains no DMARC policy # record (i.e., any indication that there is no such record as opposed # to a transient DNS error), Mail Receivers SHOULD NOT apply the DMARC # mechanism to the message. my $org_dom = $self->get_organizational_domain($from_dom); my @todo = $from_dom; if ( $from_dom ne $org_dom ) { push @todo, $org_dom; $self->is_subdomain(1); } my $matched = 0; foreach (@todo) { last if $matched; $matched++ and next if $self->has_dns_rr( 'MX', $_ ); $matched++ and next if $self->has_dns_rr( 'NS', $_ ); $matched++ and next if $self->has_dns_rr( 'A', $_ ); $matched++ and next if $self->has_dns_rr( 'AAAA', $_ ); } if ( !$matched ) { $self->result->result('none'); $self->result->disposition('none'); $self->result->reason( type => 'other', comment => "$from_dom not in DNS" ); } return $matched; } sub fetch_dmarc_record { my ( $self, $zone, $org_dom ) = @_; # 1. Mail Receivers MUST query the DNS for a DMARC TXT record at the # DNS domain matching the one found in the RFC5322.From domain in # the message. A possibly empty set of records is returned. $self->is_subdomain( defined $org_dom ? 0 : 1 ); my @matches = (); my $query = $self->get_resolver->send( "_dmarc.$zone", 'TXT' ) or return (\@matches, $zone); for my $rr ( $query->answer ) { next if $rr->type ne 'TXT'; # 2. Records that do not start with a "v=" tag that identifies the # current version of DMARC are discarded. next if 'v=dmarc1' ne lc substr( $rr->txtdata, 0, 8 ); print "\n" . $rr->txtdata . "\n\n" if $self->verbose; push @matches, join( '', $rr->txtdata ); # join long records } if (scalar @matches) { return \@matches, $zone; # found one! (at least) } # 3. If the set is now empty, the Mail Receiver MUST query the DNS for # a DMARC TXT record at the DNS domain matching the Organizational # Domain in place of the RFC5322.From domain in the message (if # different). This record can contain policy to be asserted for # subdomains of the Organizational Domain. if ( defined $org_dom ) { # <- recursion break if ( $org_dom ne $zone ) { return $self->fetch_dmarc_record($org_dom); # <- recursion } } return \@matches, $zone; } sub get_from_dom { my ($self) = @_; return $self->header_from if $self->header_from; my $header = $self->header_from_raw or do { $self->result->reason( type => 'other', comment => "no header_from" ); return; }; # TODO: the From header can contain multiple addresses and should be # parsed as described in RFC 2822. If From has multiple-addresses, # then parse and use the domain in the Sender header. # This returns only the domain in the last email address. # Caller can pass in pre-parsed from_dom if this doesn't suit them. # # I care only about the domain. This is way faster than RFC2822 parsing my ($from_dom) = ( split /@/, $header )[-1]; # grab everything after the @ ($from_dom) = split /(\s+|>)/, lc $from_dom; # remove trailing cruft if ( !$from_dom ) { $self->result->reason( type => 'other', comment => "invalid header_from: ($header)" ); return; } return $self->header_from($from_dom); } sub external_report { my ( $self, $uri ) = @_; my $dmarc_dom = $self->result->published->domain or croak "published policy not tagged!"; if ( 'mailto' eq $uri->scheme ) { my $dest_email = lc $uri->path; my ($dest_host) = ( split /@/, $dest_email )[-1]; if ( $self->get_organizational_domain( $dest_host ) eq $self->get_organizational_domain( $dmarc_dom ) ) { print "$dest_host not external for $dmarc_dom\n" if $self->verbose; return 0; }; print "$dest_host is external for $dmarc_dom\n" if $self->verbose; } if ( 'http' eq $uri->scheme ) { if ($uri->host eq $dmarc_dom ) { print $uri->host ." not external for $dmarc_dom\n" if $self->verbose; return 0; }; print $uri->host ." is external for $dmarc_dom\n" if $self->verbose; } return 1; } sub verify_external_reporting { my $self = shift; my $uri_ref = shift or croak "missing URI"; # 1. Extract the host portion of the authority component of the URI. # Call this the "destination host". my $dmarc_dom = $self->result->published->domain or croak "published policy not tagged!"; my $dest_email = $uri_ref->{uri}->path or croak("invalid URI"); my ($dest_host) = ( split /@/, $dest_email )[-1]; # 2. Prepend the string "_report._dmarc". # 3. Prepend the domain name from which the policy was retrieved, # after conversion to an A-label if needed. my $dest = join '.', $dmarc_dom, '_report._dmarc', $dest_host; # 4. Query the DNS for a TXT record at the constructed name. my $query = $self->get_resolver->send( $dest, 'TXT' ) or do { print "\tquery for $dest failed\n" if $self->verbose; return; }; # 5. For each record, parse the result...same overall format: # "v=DMARC1" tag is mandatory and MUST appear first in the list. my @matches; for my $rr ( $query->answer ) { next if $rr->type ne 'TXT'; next if 'v=dmarc1' ne lc substr( $rr->txtdata, 0, 8 ); my $policy = undef; my $dmarc_str = join( '', $rr->txtdata ); # join parts eval { $policy = $self->policy->parse($dmarc_str) }; ## no critic (Eval) push @matches, $policy ? $policy : $dmarc_str; } # 6. If the result includes no TXT resource records...stop if ( !scalar @matches ) { print "\tno TXT match for $dest\n" if $self->verbose; return; }; # 7. If > 1 TXT resource record remains, external reporting authorized # 8. If a "rua" or "ruf" tag is discovered, replace the # corresponding value with the one found in this record. my @overrides = grep { ref $_ && $_->{rua} } @matches; foreach my $or (@overrides) { my $recips_ref = $self->report->uri->parse( $or->{rua} ) or next; if ( ( split /@/, $recips_ref->[0]{uri} )[-1] eq ( split /@/, $uri_ref->{uri} )[-1] ) { # the overriding URI MUST use the same destination host from the first step. print "found override RUA: $or->{rua}\n" if $self->verbose; $self->result->published->rua( $or->{rua} ); } } return @matches; } 1; __END__ =pod =head1 NAME Mail::DMARC::PurePerl - Pure Perl implementation of DMARC =head1 VERSION version 1.20211209 =head1 METHODS =head2 init Reset the Mail::DMARC object, preparing it for a fresh request. =head2 validate This method does the following: =over 4 * check if the RFC5322.From domain exists (exists_in_dns) * query DNS for a DMARC policy (discover_policy) * check DKIM alignment (is_dkim_aligned) * check SPF alignment (is_spf_aligned) * determine DMARC alignment (is_aligned) * calculate the I<effective> DMARC policy * apply the DMARC policy (see L<Mail::DMARC::Result>) =back =head2 discover_policy Query the DNS to determine if a DMARC policy exists. When the domain name in the email From header (header_from) is not an Organizational Domain (ex: www.example.com), an attempt is made to determine the O.D. using the Mozilla Public Suffix List. When the O.D. differs from the header_from, a second DNS query is sent to _dmarc.[O.D.]. If a DMARC DNS record is found, it is parsed as a L<Mail::DMARC::Policy> object and returned. =head2 is_aligned Determine if this message is DMARC aligned. To pass this test, the message must pass at least one of the alignment test (DKIM or SPF). =head2 is_dkim_aligned Determine if a valid DKIM signature in the message is aligned with the message's From header domain. This match can be in strict (exact match) or relaxed (subdomains match) alignment. =head2 is_spf_aligned Same as DKIM, but for SPF. =head2 has_valid_reporting_uri Check for the presence of a valid reporting URI in the rua or ruf DMARC policy tags. =head2 get_organizational_domain From the 2013 DMARC spec, section 4: Organizational Domain: ..is the domain that was registered with a domain name registrar. Heuristics are used to determine this... =head2 exists_in_dns Determine if a domain exists, reliably. The DMARC draft says: 9.6 If the RFC5322.From domain does not exist in the DNS, Mail Receivers SHOULD direct the receiving SMTP server to reject the message {R9}. And in Appendix A.4: A common practice among MTA operators, and indeed one documented in [ADSP], is a test to determine domain existence prior to any more expensive processing. This is typically done by querying the DNS for MX, A or AAAA resource records for the name being evaluated, and assuming the domain is non-existent if it could be determined that no such records were published for that domain name. The original pre-standardization version of this protocol included a mandatory check of this nature. It was ultimately removed, as the method's error rate was too high without substantial manual tuning and heuristic work. There are indeed use cases this work needs to address where such a method would return a negative result about a domain for which reporting is desired, such as a registered domain name that never sends legitimate mail and thus has none of these records present in the DNS. I went back to the ADSP (which led me to the ietf-dkim email list where some 'experts' failed to agree on The Right Way to test domain validity. They pointed out: MX records aren't mandatory, and A or AAAA aren't reliable. Some experimentation proved both arguments in real world usage. This module tests for existence by searching for a MX, NS, A, or AAAA record. Since this search may be repeated for the Organizational Name, if the NS query fails, there is no delegation from the TLD. That has proven very reliable. =head2 fetch_dmarc_record Query the DNS for the presence of a DMARC record at the header from domain name and the Organizational Domain name. Returns the discovered DNS record answers. =head2 get_from_dom Returns the header_from attribute, if defined. When header_from is not defined, crudely, and very quickly parse a From header and return the domain name (aka, the header_from domain). The From header format is defined in RFC 822 and is very complex. The From header can contain multiple email addresses, each with different domains. This method returns the last one. If you want to handle this differently, parse the From header yourself and set header_from. =head2 external_report Determine if a report URL is external. If the domain name portion of the URI is not the same as the domain where the DMARC record was discovered, the report address is considered external. =head2 verify_external_reporting =head3 8.2. Verifying External Destinations It is possible to specify destinations for the different reports that are outside the domain making the request. This is enabled to allow domains that do not have mail servers to request reports and have them go someplace that is able to receive and process them. Without checks, this would allow a bad actor to publish a DMARC policy record that requests reports be sent to a victim address, and then send a large volume of mail that will fail both DKIM and SPF checks to a wide variety of destinations, which will in turn flood the victim with unwanted reports. Therefore, a verification mechanism is included. When a Mail Receiver discovers a DMARC policy in the DNS, and the domain at which that record was discovered is not identical to the host part of the authority component of a [URI] specified in the "rua" or "ruf" tag, the following verification steps SHOULD be taken: 1. Extract the host portion of the authority component of the URI. Call this the "destination host". 2. Prepend the string "_report._dmarc". 3. Prepend the domain name from which the policy was retrieved, after conversion to an A-label if needed. 4. Query the DNS for a TXT record at the constructed name. 5. For each record, parse the result...same overall format: "v=DMARC1" tag is mandatory and MUST appear first in the list. 6. If the result includes no TXT resource records...stop 7. If > 1 TXT resource record remains, external reporting authorized 8. If a "rua" or "ruf" tag is discovered, replace the corresponding value with the one found in this record. The overriding URI MUST use the same destination host from the first step. =head1 AUTHORS =over 4 =item * Matt Simerson <msimerson@cpan.org> =item * Davide Migliavacca <shari@cpan.org> =item * Marc Bradshaw <marc@marcbradshaw.net> =back =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2021 by Matt Simerson. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =cut