Postfix Address Verification Howto


The sender/recipient address verification feature described in this document is suitable only for low-traffic sites. It performs poorly under high load and may cause your site to be blacklisted by some providers. See the "Limitations" section below for details.

What Postfix address verification can do for you

Address verification is a feature that allows the Postfix SMTP server to block a sender (MAIL FROM) or recipient (RCPT TO) address until the address has been verified to be deliverable.

The technique has obvious uses in order to reject junk mail with an unreplyable sender address.

The technique may also be useful to block mail for undeliverable recipients, for example on a mail relay host that does not have a list of all the valid recipient addresses. This prevents undeliverable junk mail from entering the queue, so that Postfix doesn't have to waste resources trying to send MAILER-DAEMON messages back.

This feature is available in Postfix version 2.1 and later.

Topics covered in this document:

How address verification works

A sender or recipient address is verified by probing the nearest MTA for that address, without actually delivering mail. The nearest MTA could be Postfix itself, or it could be a remote MTA (SMTP interruptus). Probe messages are like normal mail, except that they are never delivered, deferred or bounced; probe messages are always discarded.

Internet -> Postfix
<-> Postfix
<-> Address

-> Postfix

With Postfix address verification turned on, normal mail will suffer only a short delay of up to 6 seconds while an address is being verified for the first time. Once an address status is known, the status is cached and Postfix replies immediately.

When verification takes too long the Postfix SMTP server defers the sender or recipient address with a 450 reply. Normal mail clients will connect again after some delay. The address verification delay is configurable with the address_verify_poll_count and address_verify_poll_delay parameters. See postconf(5) for details.

Limitations of address verification

Recipient address verification

As mentioned earlier, recipient address verification may be useful to block mail for undeliverable recipients on a mail relay host that does not have a list of all valid recipient addresses. This can help to prevent the mail queue from filling up with MAILER-DAEMON messages.

Recipient address verification is relatively straightforward and there are no surprises. If a recipient probe fails, then Postfix rejects mail for the recipient address. If a recipient probe succeeds, then Postfix accepts mail for the recipient address.

/etc/postfix/ smtpd_recipient_restrictions = permit_mynetworks reject_unauth_destination ... reject_unknown_recipient_domain reject_unverified_recipient ...

The "reject_unknown_recipient_domain" restriction blocks mail for non-existent domains. Putting this before "reject_unverified_recipient" avoids the overhead of generating unnecessary probe messages.

The unverified_recipient_reject_code parameter (default 450) specifies how Postfix replies when a recipient address is known to bounce. Change this setting into 550 when you trust Postfix's judgments.

Sender address verification for mail from frequently forged domains

It is relatively safe to turn on sender address verification for specific domains that often appear in forged email.

/etc/postfix/ smtpd_sender_restrictions = hash:/etc/postfix/sender_access unverified_sender_reject_code = 550 # Note 1: Be sure to read the "Caching" section below! # Note 2: Avoid hash files here. Use btree instead. address_verify_map = btree:/var/mta/verify /etc/postfix/sender_access: reject_unverified_sender reject_unverified_sender reject_unverified_sender ... etcetera ...

A list of frequently forged MAIL FROM domains can be found at

NOTE: One of the first things you might want to do is to turn on sender address verification for all your own domains.

Sender address verification for all email

Unfortunately, sender address verification cannot simply be turned on for all email - you are likely to lose legitimate mail from mis-configured systems. You almost certainly will have to set up white lists for specific addresses, or even for entire domains.

To find out how sender address verification would affect your mail, specify "warn_if_reject reject_unverified_sender" so that you can see what mail would be blocked:

/etc/postfix/ smtpd_sender_restrictions = permit_mynetworks ... check_sender_access hash:/etc/postfix/sender_access reject_unknown_sender_domain warn_if_reject reject_unverified_sender ... # Note 1: Be sure to read the "Caching" section below! # Note 2: Avoid hash files here. Use btree instead. address_verify_map = btree:/var/mta/verify

This is also a good way to populate your cache with address verification results before you start to actually reject mail.

The sender_access restriction is needed to whitelist domains or addresses that are known to be OK. Although Postfix will not mark a known-to-be-good address as bad after a probe fails, it is better to be safe than sorry.

NOTE: You will have to whitelist sites such as and other sites that operate mailing lists that use a different sender address for each posting (VERP). Such addresses pollute the address verification cache quickly, and generate unnecessary sender verification probes.

/etc/postfix/sender_access OK ...

The "reject_unknown_sender_domain" restriction blocks mail from non-existent domains. Putting this before "reject_unverified_sender" avoids the overhead of generating unnecessary probe messages.

The unverified_sender_reject_code parameter (default 450) specifies how Postfix replies when a sender address is known to bounce. Change this setting into 550 when you trust Postfix's judgments.

Address verification database

NOTE: By default, address verification information is not stored in a persistent file. You have to specify one in (see below). Persistent storage is off by default because it may need more disk space than is available in your file system.

Address verification information is cached by the Postfix verify daemon. Postfix has a bunch of parameters that control the caching of positive and negative results. Refer to the verify(8) manual page for details.

The address_verify_map (NOTE: singular) configuration parameter specifies an optional persistent database for sender address verification results. If you don't specify a file, all address verification information is lost after "postfix reload" or "postfix stop".

If your /var file system has sufficient space, try:

/etc/postfix/ # Note: avoid hash files here. Use btree instead. address_verify_map = btree:/var/mta/verify

NOTE: Do not put this file in a file system that may run out of space. When the address verification table gets corrupted the world comes to an end and YOU will have to MANUALLY fix things as described in the next section. Meanwhile, you will not receive mail via SMTP.

The verify(8) daemon process will create a new database when none exists, and will open/create the file before it enters the chroot jail and before it drops root privileges.

Managing the address verification database

The verify(8) manual page describes parameters that control how long information remains cached before it needs to be refreshed, and how long information can remain "unrefreshed" before it expires. Postfix uses different controls for positive results (address was accepted) and for negative results (address was rejected).

Right now, no tools are provided to manage the address verification database. If the file gets too big, or if it gets corrupted, you can manually rename or delete the file and run "postfix reload". The new verify daemon process will then create a new database.

Controlling the routing of address verification probes

By default, Postfix sends address verification probe messages via the same route as regular mail, because that normally produces the most accurate result. It's no good to verify a local address by connecting to your own SMTP port; that just triggers all kinds of mailer loop alarms. The same is true for any destination that your machine is best MX host for: hidden domains, virtual domains, etc.

However, some sites have a complex infrastructure where mail is not sent directly to the Internet, but is instead given to an intermediate relayhost. This is a problem for address verification, because remote Internet addresses can be verified only when Postfix can access remote destinations directly.

For this reason, Postfix allows you to override the routing parameters when it delivers an address verification probe message.

First, the address_verify_relayhost parameter allows you to override the relayhost setting, and the address_verify_transport_maps parameter allows you to override the transport_maps setting.

Second, each address class is given its own address verification version of the message delivery transport, as shown in the table below. Address classes are defined in the ADDRESS_CLASS_README file.

Domain list Regular transport Verify transport
mydestination local_transport address_verify_local_transport
virtual_alias_domains (not applicable) (not applicable)
virtual_mailbox_domains virtual_transport address_verify_virtual_transport
relay_domains relay_transport address_verify_relay_transport
(not applicable) default_transport address_verify_default_transport

By default, the parameters that control delivery of address probes have the same value as the parameters that control normal mail delivery.

Forced probe routing examples

In a typical scenario one would override the relayhost setting for address verification probes and leave everything else alone:

/etc/postfix/ relayhost = $mydomain address_verify_relayhost = ...

Sites behind a network address translation box might have to use a different SMTP client that sends the correct hostname information:

/etc/postfix/ relayhost = $mydomain address_verify_relayhost = address_verify_default_transport = direct_smtp /etc/postfix/ direct_smtp .. .. .. .. .. .. .. .. .. smtp -o

Limitations of forced probe routing

Inconsistencies can happen when probe messages don't follow the same path as regular mail. For example, a message can be accepted when it follows the regular route while an otherwise identical probe message is rejected when it follows the forced route. The opposite can happen, too, but is less likely.