Stuart Gathman
195 lines
8.4 KiB
Plaintext
195 lines
8.4 KiB
Plaintext
Title: Python Milter Mail Policy
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<h1> Python Milter Mail Policy </h1>
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These are the policies implemented by the <code>bms.py</code> milter
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application. The milter and Milter modules do not implement any policies
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by themselves.
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<h3> Classify connection </h3>
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When the SMTP client connects, the connection IP address is
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saved for later verification, and the connection
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is classified as INTERNAL or EXTERNAL by matching the ip
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address against the <code>internal_connect</code> configuration.
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IP addresses with no PTR, and PTR names that look like
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the kind assigned to dynamic IPs (as determined by a heuristic
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algorithm) are flagged as DYNAMIC. IPs that match the
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<code>trusted_relay</code> configuration are flagged as TRUSTED.
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<p>
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Examples from the log file (<i>not</i> the SMTP error message returned):
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<pre>
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2005Jul29 13:56:53 [71207] connect from p50863492.dip0.t-ipconnect.de at ('80.134.52.146', 1858) EXTERNAL DYN
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2005Jul29 18:10:15 [74511] connect from foopub at ('1.2.3.4', 46513) EXTERNAL TRUSTED
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2005Jul29 14:41:00 [71805] connect from foobar at ('192.168.0.1', 41205) INTERNAL
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2005Jul29 14:41:15 [71806] connect from cncln.online.ln.cn at ('218.25.240.137', 35992) EXTERNAL
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</pre>
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<p>
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Certain obviously evil PTR names are blocked at this point:
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"localhost" (when IP is not 127.*) and ".".
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<pre>
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2005Jul29 14:49:50 [71918] connect from localhost at ('221.132.0.6', 50507) EXTERNAL
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2005Jul29 14:49:50 [71918] REJECT: PTR is localhost
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</pre>
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<h3> HELO Check </h3>
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The HELO name provided by the client is saved for later verification
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(for example by SPF). We could validate the HELO at this point
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by verifying that an A record for the HELO name matches the connect ip.
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However, currently we only block certain obvious problems.
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HELO names that look like an IP4 address
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and ones that match the <code>hello_blacklist</code> configuration
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are immediately rejected. The hello_blacklist typically contains
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the current MTAs own HELO name or email domains.
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Clients that attempt to skip HELO are immediately rejected.
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<pre>
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2005Jul29 18:10:15 [74512] hello from example.com
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2005Jul29 18:10:15 [74512] REJECT: spam from self: example.com
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2005Jul29 18:17:09 [74581] hello from 80.191.244.69
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2005Jul29 18:17:09 [74581] REJECT: numeric hello name: 80.191.244.69
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</pre>
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<h3> MAIL FROM Check </h3>
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Before calling our milter, sendmail checks a DNS blacklist to
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block banned sender domains. We never see a blocked domain.
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<p>
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The MAIL FROM address is saved for possible use by the smart-alias
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feature. First, the <code>internal_domains</code> is used for
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a simple screening if defined. If the MAIL FROM for an INTERNAL connection
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is NOT in <code>internal_domains</code>, then it is rejected (the
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PC is most likely infected and attempting to send out spam).
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If the MAIL FROM for an EXTERNAL connection IS in
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<code>internal_domains</code>, then the message is immediately rejected.
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This is quick and effective for most small company MTAs. For more
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complex mail networks, it is too simplistic, and should not be defined.
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SPF will handle the complex cases.
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<h4> wiretap </h4>
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The wiretap feature can screen and/or monitor mail to/from certain
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users. If the MAIL FROM is being wiretapped, the recipients are
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altered accordingly.
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<!--table-stop-->
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<h2> SPF check </h2>
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The MAIL FROM, connect IP, and HELO name are checked against
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any SPF records published via DNS for the alleged sender (MAIL FROM)
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to determine the official SPF policy result.
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The offical SPF result is then logged in the Received-SPF header field,
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but certain results are subjected to further processing to create
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an effective result for policy purposes.
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If the official result is 'none', we try to turn it into an effective result of
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'pass' or 'fail'. First, we check for a local substitute SPF record
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under the domain defined in the <code>[spf]delegate</code> configuration.
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It is often useful to add local SPF records for correspondents that are
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too clueless to add their own. If there is no local substitute, we use a "best
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guess" SPF record of "v=spf1 a/24 mx/24 ptr" for MAIL FROM or "v=spf1 a/24
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mx/24" for HELO. In addition, a HELO that is a subdomain of MAIL FROM and
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resolves to the connect IP results in an effective result of 'pass'.
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If there is no local SPF record, and the effective result is still not
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'pass', we check for either a valid HELO name or a valid PTR record for
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the connect IP. A valid HELO or PTR cannot look like a dynamic name
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as determined by the heuristic in <code>Milter.dynip</code>.
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If HELO has an SPF record, and the result is anything but pass, we reject
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the connection:
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<pre>
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2005Jul30 19:45:16 [93991] connect from [221.200.41.54] at ('221.200.41.54', 3581) EXTERNAL DYN
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2005Jul30 19:45:18 [93991] hello from adelphia.net
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2005Jul30 19:45:19 [93991] mail from <wendy.stubbsua@link-it.com> ()
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2005Jul30 19:45:19 [93991] REJECT: hello SPF: fail 550 access denied
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</pre>
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Note that HELO does not have any forwarding issues like MAIL FROM, and so
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any result other than 'pass' or 'none' should be treated like 'fail'.
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Only if nothing about the SMTP envelope can be validated does the effective
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result remain 'none. I call this the "3 strikes" rule.
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If the official result is 'permerror' (a syntax error in the sender's
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policy), we use the 'lax' option in pyspf to try various heuristics to guess
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what they really meant. For instance, the invalid mechanism "ip:1.2.3.4" is
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treated as "ip4:1.2.3.4". The result of lax processing is then used
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as the effective result for policy purposes.
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With an effective SPF result in hand, we consult the sendmail access
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database to find our receiver policy for the sender.
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<table border=1>
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<tr><th>REJECT</th><td>
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Reject the sender with a 550 5.7.1 SMTP code. The SMTP rejection
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includes a detailed description of the problem.
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</td></tr>
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<tr><th>CBV</th><td>
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Do a Call Back Validation by connecting to an MX of the sender
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and checking that using the sender as the RCPT TO is not rejected.
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We quit the CBV connection before actualling sending a message.
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If the CBV is rejected, our SMTP connection is rejected with the
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same error code and message. CBV results are cached.
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</td></tr>
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<tr><th>DSN</th><td>
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Do a Call Back Validation by connecting to an MX of the sender
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and checking that using the sender as the RCPT TO is not rejected.
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Unlike a CBV, we continue on to data and send a detailed message
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explaining the problem. This can be useful for reporting PermError
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or SoftFail to the sender. Keep in mind that for any result other
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than 'pass', the sender could be forged, and your DSN could annoy the
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wrong person. However, a SoftFail result is requesting such feedback
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for debugging and a PermError result needs to be fixed by the sender ASAP
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whether forged or not. DSN results are cached so that senders are
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annoyed only weekly.
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</td></tr>
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<tr><th>OK</th><td>
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Accept the sender. The message may still be rejected via reputation
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or content filtering.
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</td></tr>
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</table>
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<h3> SPF policy syntax </h3>
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First, the full sender is checked:
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<pre>
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SPF-Fail:abeb@adelphia.net DSN
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</pre>
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This says to accept mail from that adelphia.net user despite the
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SPF fail, but only after annoying them with a DSN about their ISP's broken
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policy.
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If there is no match on the full sender, the domain is checked:
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<pre>
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SPF-Neutral:aol.com REJECT
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</pre>
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This says to reject mail from AOL with an SPF result of neutral.
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This means AOL users can't use their AOL address with another mail service
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to send us mail. This is good because the other mail service is
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likely a badly configured greeting card site or a virus.
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Finally, a default policy for the result is checked. While there are program
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defaults, you should have defaults in the access database for SPF results:
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<pre>
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SPF-Neutral: CBV
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SPF-Softfail: DSN
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SPF-PermError: DSN
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SPF-TempError: REJECT
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SPF-None: REJECT
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SPF-Fail: REJECT
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SPF-Pass: OK
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</pre>
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<h2> Reputation </h2>
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If the sender has not been rejected by this point, and if a GOSSiP server is
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configured, we consult GOSSiP for the reputation score of the sender and
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SPF result. The score is a number from -100 to 100 with a confidence
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percentage from 0 to 100. A really bad reputation (less than -50 with
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confidence greater than 3) is rejected. Note that the reputation is tracked
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independently for each SPF result and sender combination. So aol.com:neutral
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might have a really bad reputation, while aol.com:pass would be ok.
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Furthermore, when a sender finally publishes an SPF policy and starts
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getting SPF pass, their reputation is effectively reset.
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