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Table of contents
Introduction
This how-to is created by the Dutch Internet Standards Platform (the organization behind internet.nl) and is meant to provide practical information and guidance on implementing DMARC.
What is DMARC?
DMARC is short for Domain based Message Authentication, Reporting and Conformance and is described in RFC 7489. With DMARC the owner of a domain can, by means of a DNS record, publish a policy that states how to handle e-mail (deliver, quarantine, reject) which is not properly authenticated using SPF and/or DKIM.
At the same time DMARC also provides the means for receiving reports which allows a domain's administrator to detect whether their domainname is used for phishing or spam.
Why use DMARC?
Before DMARC, organizations already took several measures to determine the authenticity of an e-mail (like SPF and DKIM) to reduce the received amount of SPAM to a minimum. This is basically a good thing, but if these measures fail to choose whether or not an email is SPAM with a high level of certainty, the choice is redirected to the addressee (receiving party). This methodology is prone to abuse, since users are generally not equiped with the knowledge and/or means to classify incoming emails.
DMARC addresses this problem and enables the owner of a domain to take explicit responsiblity with regard to the actions taken by the sending party when the validity of an incoming email cannot be determined.
Tips, tricks and notices for implementation
- Interoperabily issues: https://tools.ietf.org/html/rfc7960
- DMARC does not require both DKIM or SPF.
- Parked domain: “DMARC p=reject”. Make sure to include rua and ruf addresses, since this allows monitoring of possible abuse attempts.
- RFC 7489 states that the tags dmarc-version ("v=") and dmarc-request ("p=") should be on the first and second position of the DMARC record. The order of the other tags does not matter: "components other than dmarc-version and dmarc-request may appear in any order".
- Errata 5440 of RFC 7489 states that a semicolon should be included in the DMARC version tag. Correct: "v=DMARC1;". Incorrect: "v=DMARC1".
- When using office 365, the forwarding of calendar appointments from a DMARC projected domain fails. This is a known issue. Read more on the Office 365 UserVoice forum and don't forget to submit your vote!
Creating a DMARC record
The DMARC policy is published by means of DNS TXT record. Overview
rua: aggregate reports ruf: forensic reports
DMARC configuration tag | Required? | Value(s) | Explanation |
---|---|---|---|
v | mandatory | DMARC1; | |
p | mandatory | none quaritine reject |
None: don't do anything if DMARC verification fails (used for testing) quarantine: treat mail that fails DMARC check as suspicious reject: reject mail that fail DMARC check |
rua | optional | rua@example.nl | This field contains the e-mail address used to send aggregate reports to |
ruf | optional | ruf@example.nl | This field contains the e-mail address used to send forensic reports to |
fo | mandatory | 0 1 s d |
Reporting options for failure reports. Generates a report if: - both SPF and DKIM tests fail (0) - either SPF or DKIM test fail (1) - SPF test fails (s) - DKIM test fails (d) |
adkim | optional | s r |
Controls how strict the result of DKIM verification should be intepreted. Strict or relaxed. |
aspf | optional | s r |
Controls how strict the result of SPF verification should be intepreted. Strict or relaxed. |
pct | optional | 0..100 | Determine percentage of mail from your domain to have the DMARC verificaton done by other mail providers. Default is 100. |
rf | optional | ||
ri | optional | ||
sp | optional |
Reporting
to-do
Implementing DKIM with OpenDKIM for Postfix with SpamAssassin
Specifics for this setup
- Linux Debian 9.8 (Stretch)
- Postfix 3.4.5
- BIND 9.10.3-P4-Debian
- OpenDMARC v1.3.2
Assumptions
- DNSSEC is used
- Mail server is operational
- Software packages are already installed
Outbound e-mail traffic
DMARC for outbound e-mail traffic can be accomplished by publishing a DMARC policy as a TXT record in a domain name's DNS zone.
Inbound e-mail traffic
DMARC for inbound e-mail traffic can be accomplished by setting up OpenDMARC and integrate it with Postfix.
Set up OpenDMARC
Make sure the file /etc/opendmarc.conf has a least the following configuration parameters.
AuthservID mail.example.nl
PidFile /var/run/opendmarc/opendmarc.pid
RejectFailures false
Syslog true
TrustedAuthservIDs mail.example.nl,mail2.example.nl,localhost,127.0.0.1
UMask 0002
UserID opendmarc:opendmarc
IgnoreAuthenticatedClients true
IgnoreHosts /etc/opendmarc/ignore.hosts
HistoryFile /var/run/opendmarc/opendmarc.dat
Socket inet:54321@localhost
For more information about these configuration parameters, take a look at its man page.
Make sure the file /etc/opendmarc/ignore.hosts contains all hosts that you trust. The e-mail coming from these hosts will not be checked by OpenDMARC:
127.0.0.1
localhost
Make sure the default file /etc/default/opendmarc contains:
RUNDIR=/var/run/opendmarc
SOCKET=inet:54321@localhost
USER=opendmarc
GROUP=opendmarc
PIDFILE=$RUNDIR/opendmarc.pid
Integrate with Postfix
Now we need to tell Postfix to use OpenDMARC as a mail filter in order to use its functionality. This is done by making sure that /etc/postfix/main.cf contains the configuration parameters as listed below. Notice that the DKIM check (localhost:12301) is done before DMARC (localhost:54321) since DMARC relies on the DKIM results.
smtpd_milters = inet:localhost:12301,inet:localhost:54321
non_smtpd_milters = inet:localhost:12301,inet:localhost:54321
Set up reporting
to-do