Razumeti SPF – Sender Policy Framework explained

The Problem: Sender Address Forgery

Today, nearly all abusive e-mail messages carry fake sender addresses. The victims whose addresses are being abused often suffer from the consequences, because their reputation gets diminished and they have to disclaim liability for the abuse, or waste their time sorting out misdirected bounce messages.

You probably have experienced one kind of abuse or another of your e-mail address yourself in the past, e.g. when you received an error message saying that a message allegedly sent by you could not be delivered to the recipient, although you never sent a message to that address.

Sender address forgery is a threat to users and companies alike, and it even undermines the e-mail medium as a whole because it erodes people’s confidence in its reliability. That is why your bank never sends you information about your account by e-mail and keeps making a point of that fact.

But it does not have to be this way!

Common Types of E-Mail Abuse where the Sender Address is Forged

Spammers want to avoid receiving non-delivery notifications (bounces) to their real addresses.

Fraudsters want to cover their tracks and remain anonymous.

Computer worms want to cause confusion or just don’t care about which sender addresses they use.

Phishers (password fishers) want to impersonate well-known, trusted identities in order to steal passwords from users.

The Solution: SPF

The Sender Policy Framework (SPF) is an open standard specifying a technical method to prevent sender address forgery. More precisely, the current version of SPF — called SPFv1 or SPF Classic — protects the envelope sender address, which is used for the delivery of messages. See the box on the right for a quick explanation of the different types of sender addresses in e-mails.

(There are other solutions that protect the header sender address or that do not care at all about who sent the message, only who originally wrote it.)

Even more precisely, SPFv1 allows the owner of a domain to specify their mail sending policy, e.g. which mail servers they use to send mail from their domain. The technology requires two sides to play together: (1) the domain owner publishes this information in an SPF record in the domain’s DNS zone, and when someone else’s mail server receives a message claiming to come from that domain, then (2) the receiving server can check whether the message complies with the domain’s stated policy. If, e.g., the message comes from an unknown server, it can be considered a fake.

Once you are confident about the authenticity of the sender address, you can finally “take it for real” and attach reputation to it. While IP-address-based reputation systems like Spamhaus or SpamCop have prevailed so far, reputation will increasingly be based on domains and even individual e-mail addresses in the future, too. Furthermore, additional kinds of policies are planned for a future version of SPF, such as asserting that all of a domain’s outgoing mail is S/MIME or PGP signed.

Sender Addresses in E-Mails

Like paper mail letters, e-mail messages have at least two kinds of sender addresses: one on the envelope and one in the letterhead.

The envelope sender address (sometimes also called the return-path) is used during the transport of the message from mail server to mail server, e.g. to return the message to the sender in the case of a delivery failure. It is usually not displayed to the user by mail programs.

The header sender address of an e-mail message is contained in the “From” or “Sender” header and is what is displayed to the user by mail programs. Generally, mail servers do not care about the header sender address when delivering a message.

An Example Policy

Let’s look at an example to give you an idea of how SPF works. Bob owns the domain example.net. He also sometimes sends mail through his GMail account and contacted GMail’s support to identify the correct SPF record for GMail. Since he often receives bounces about messages he didn’t send, he decides to publish an SPF record in order to reduce the abuse of his domain in e-mail envelopes:

example.net.  TXT  "v=spf1 mx a:pluto.example.net include:aspmx.googlemail.com -all"

The parts of the SPF record mean the following:

v=spf1 SPF version 1
mx the incoming mail servers (MXes) of the domain are authorized to also send mail for example.net
a:pluto.example.net the machine pluto.example.net is authorized, too
include:aspmx.googlemail.com everything considered legitimate by gmail.com is legitimate for example.net, too
-all all other machines are not authorized

This example demonstrates but a small part of SPF’s expressiveness. Do not take it as a guideline for building your own record — things might not work out as you expect and legitimate messages might get blocked! Instead, learn more about the record syntax, or get the complete picture by studying the full specification. Community support is available.

Receiver-side Checking

The domain sender policies alone are not worth much — it is the receiving mail servers that need to enforce them. Most mail servers support SPF checking either natively or through extensions. Again, you can get community support.

Vir in več o SPF: http://www.openspf.org/Introduction

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