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Updated SPF how to (markdown)
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@ -8,7 +8,7 @@ SPF is short for "**S**ender **P**olicy **F**ramework" and is described in [RFC
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Our current e-mail infrastructure was originally designed for any mail sending host to use any DNS domain name it wants. The authenticity of the sending mail server cannot be deterimined, which makes it easy for random third parties to make use of a domain name with possibly a malicious intent. This increases the risk of processing e-mail since the intentions of the sender (host) are uncertain. SPF can help the fight against spam and other kinds of unwanted e-mail be offering a way of authenticating the sending mail server.
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# Tips, tricks and notices for implementation
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* The sender address shown to the user ("5322.From header") is not used when authenticating. SPF uses the invisible "5321.From header". Combining SPF with DMARC removes this disadvantage.
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* The sender address shown to the user ("RFC5322.From") is not used when authenticating. SPF uses the invisible "RFC5321.MailFrom" header. Combining SPF with DMARC removes this disadvantage.
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* E-mail forwarding is not supported, since the e-mail is often forwarded by another e-mail server.
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* SPF does not work between domains that use the same e-mail server.
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@ -18,20 +18,106 @@ SPF for outbound e-mail traffic is limited to publishing an SPF policy as a TXT-
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The example below shows an SPF record with a **hard fail**.
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> v=spf1 mx ip4:192.168.1.1/32 ip6:fd12:3456:789a:1::/64 a:mail.example.com a:mail2.example.com -all"
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Although a soft fail (~all) is recommended in order to prevent false positives.
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Although a soft fail (~all) is recommended in order to prevent false positives, a hard fail (-all) cloud decreases the load on the receiving party's e-mail infrastructure (depending on their configuration) since the e-mail can be dropped immediately when the e-mail is send by a host or IP-address that is not listed in the SPF record.
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# Inbound e-mail traffic
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Ideally incoming e-mail is processed by making a **single decision** based on a collective evaluation of all relevant e-mail standards (SPF, DKIM, DMARC). Although this would be the most elegant way of processing incoming e-mail, most e-mail servers process e-mail standards in a sequential order. This should be taken into consideration when configuring your own e-mail environment; depending on a domain owner's preferences it is also possible to implement a "single decision" e-mail environment.
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## Implementing SPF on Debian Stretch
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## Implementing SPF in Postfix with SpamAssassin
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**Specifics for this setup**
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* Linux Debian 9.8 (Stretch)
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* SpamAssassin version 3.4.2 (running on Perl version 5.28.1)
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* Postfix 3.4.5
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* BIND 9.10.3-P4-Debian
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* postfix-policyd-spf-python 2.0.1-1
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* Python SPF policy agent (postfix-policyd-spf-python) 2.0.1-1
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**Assumptions**
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* DNSSEC is used
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* Mail server is operational
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* Software packages are already installed
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## Configuring Postfix
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The [Postfix SMTP server](http://www.postfix.org/smtpd.8.html) seems to be processing e-mails in a sequential order by means of so-called [access restriction lists](http://www.postfix.org/SMTPD_ACCESS_README.html#lists). For each stage of the SMTP conversation Postfix can apply a specific set of restrictions. As repeatedly stated in the [main.cf man page](http://www.postfix.org/postconf.5.html) “Restrictions are applied in the order as specified; the first restriction that matches wins”. This should be taken into consideration when configuring your Postfix implementation.
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The follow table provides a schematic overview of an SMTP conversation and relates specific stages to Postfix' access restriction lists.
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| Part of the SMTP conversation | Associated access restriction list | Comments
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| --- | --- | --- |
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| Connected to 192.168.1.1 (192.168.1.1). | | |
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| Escape character is '^]'. | | |
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| 220 mail.example.com ESMTP Postfix | [smtpd_client_restrictions](http://www.postfix.org/postconf.5.html#smtpd_client_restrictions) | |
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| HELO mail.example.com | [smtpd_helo_restrictions](http://www.postfix.org/postconf.5.html#smtpd_helo_restrictions) | |
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| 250 mail.example.com | | |
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| MAIL FROM:<sender@example.com> | [smtpd_sender_restrictions](http://www.postfix.org/postconf.5.html#smtpd_sender_restrictions) | RFC5321.MailFrom, Return-Path, Envelope sender, Envelope from --> used by **SPF** |
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| 250 2.1.0 Ok | | |
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| RCPT TO:<recipient@example.com> | [smtpd_recipient_restrictions](http://www.postfix.org/postconf.5.html#smtpd_recipient_restrictions) | |
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| 250 2.1.5 Ok | | |
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| DATA | [smtpd_data_restrictions](http://www.postfix.org/postconf.5.html#smtpd_data_restrictions) | | |
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| 354 End data with <CR><LF>.<CR><LF> | | |
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| To:<recipient@example.com> | | header checks |
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| From:<sender@example.com> | | RFC5322.From, headar from, message from --> used by DKIM |
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| Subject: Test message | | |
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| This is a test message | | body checks |
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| . | | |
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| 250 2.0.0 Ok: queued as 534AB003427 | | |
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| QUIT | | |
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| 221 2.0.0 Bye | | |
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| Connection closed by foreign host. | | |
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### Postfix configuration for Python SPF policy agent
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The implementation described in this how to uses an external application to perform SPF checking: Python SPF policy agent (postfix-policyd-spf-python). In order for Postfix to be able to use this application, the following needs to be added to **/etc/postfix/master.cf**:
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`policy-spf unix - n n - - spawn user=nobody argv=/usr/bin/policyd-spf`
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This creates the service "policy-spf" that can now be called upon by Postfix from within the access restriction lists _smtpd_client_restrictions_ and _smtpd_recipient_restrictions_. This requires the following additions to **/etc/postfix/main.cf**. Make sure to call for the policy-spf service before the "permit".
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```
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smtpd_recipient_restrictions =
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check_policy_service unix:private/policy-spf,
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permit
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smtpd_client_restrictions =
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check_policy_service unix:private/policy-spf,
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permit
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```
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Now also add the following to **/etc/postfix/main.cf**, outside of any section.
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`policy-spf_time_limit = 3600s`
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### Postfix configuration for SpamAssassin
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Because this implementation uses SpamAssassin for post-SMTP spam filtering, the following needs to be added to /etc/postfix/master.cf:
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```
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smtp inet n - - - - smtpd -o content_filter=spamassassin
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spamassassin unix - n n - - pipe user=debian-spamd argv=/usr/bin/spamc -f -e /usr/sbin/sendmail -oi -f ${sender} ${recipient}
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```
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Finally, add the following to **/etc/postfix/main.cf** outside of any section to prevent Postfix from expecting SpamAssassin to parse multiple recipients at once (which is not supported).
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`spamassassin_destination_recipient_limit = 1`
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## Configuring Python SPF policy agent
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The next step is to tell the Python SPF policy agent how to behave when checking SPF records. This behavior is determined by adding [configuration parameters](https://manpages.debian.org/stretch/postfix-policyd-spf-python/policyd-spf.conf.5.en.html) to **/etc/postfix-policyd-spf-python/policyd-spf.conf**.
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The default configuration of the Python SPF policy agent provides a binary "block" or "don't block" functionality. However, the implementation described in this how to uses SpamAssassin as a post-SMTP spam filter. This means that Postfix should not reject e-mails coming from e-mail servers that are not listed in the SPF record. Instead an SPF header is appended to the e-mail. The information in the header is used by SpamAssassin to weigh whether an incoming e-mail should be considered spam. This specific setup requires the following non-default configuration parameters in **/etc/postfix-policyd-spf-python/policyd-spf.conf**:
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```
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HELO_reject = False
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Mail_From_reject = False
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```
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## Configuring SpamAssassin
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SpamAssassin uses a scoring mechanism in order to determine if an e-mail should be considered spam. By default SpamAssassin considers an e-mail to be spam if the score at least "5". An e-mail starts with a score of 0 and points are added based on the [tests](https://spamassassin.apache.org/old/tests_3_3_x.html) performed. The tests performed can be configured by adding specific [configuration parameters](https://spamassassin.apache.org/full/3.4.x/doc/Mail_SpamAssassin_Conf.html) in **/etc/spamassassin/local.cf**.
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Now here's the tricky part. The points added to the score of an incoming e-mail based on the results of a specific test, is at its core a custom job. Many variables can be taken into consideration when scoring an e-mail (which is considered the strength of a post-SMTP spam filter) and the detailed scoring depends on a domain owner's specific wishes. For the sake of this how to, the SPF scoring will be based on the assumption that the domain owner wants to consider an e-mail to be spam if the sending e-mail server's IP-address or host is not in the domain's SPF record.
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With SpamAssassin this can be configured by adding the following scoring configuration parameters to **/etc/spamassassin/local.cf**:
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```
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score SPF_FAIL 5.0
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score SPF_SOFTFAIL 5.0
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score SPF_HELO_FAIL 5.0
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score SPF_HELO_SOFTFAIL 5.0
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```
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This means that....
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