SMTP servers need to decide whether an SMTP client is authorized to send mail to remote destinations, or only to destinations that the server itself is responsible for. Usually, SMTP servers accept mail to remote destinations when the client's IP address is in the "same network" as the server's IP address.
SMTP clients outside the SMTP server's network need a different way to get "same network" privileges. To address this need, Postfix supports SASL authentication (RFC 4954, formerly RFC 2554). With this a remote SMTP client can authenticate to the Postfix SMTP server, and the Postfix SMTP client can authenticate to a remote SMTP server. Once a client is authenticated, a server can give it "same network" privileges.
Postfix does not implement SASL itself, but instead uses existing implementations as building blocks. This means that some SASL-related configuration files will belong to Postfix, while other configuration files belong to the specific SASL implementation that Postfix will use. This document covers both the Postfix and non-Postfix configuration.
NOTE: People who go to the trouble of installing Postfix may have the expectation that Postfix is more secure than some other mailers. The Cyrus SASL library contains a lot of code. With this, Postfix becomes as secure as other mail systems that use the Cyrus SASL library. Dovecot provides an alternative that may be worth considering.
You can read more about the following topics:
As mentioned earlier, SASL is implemented separately from Postfix. For this reason, configuring SASL authentication in the Postfix SMTP server involves two different steps:
Configuring the SASL implementation to offer a list of mechanisms that are suitable for SASL authentication and, depending on the SASL implementation used, configuring authentication backends that verify the remote SMTP client's authentication data against the system password file or some other database.
Configuring the Postfix SMTP server to enable SASL authentication, and to authorize clients to relay mail or to control what envelope sender addresses the client may use.
Successful authentication in the Postfix SMTP server requires a functional SASL framework. Configuring SASL should therefore always be the first step, before configuring Postfix.
You can read more about the following topics:
Currently the Postfix SMTP server supports the Cyrus SASL and Dovecot SASL implementations.
NoteCurrent Postfix versions have a plug-in architecture that can support multiple SASL implementations. Before Postfix version 2.3, Postfix had support only for Cyrus SASL.
To find out what SASL implementations are compiled into Postfix, use the following commands:
%postconf -a
(SASL support in the SMTP server) %postconf -A
(SASL support in the SMTP+LMTP client)
These commands are available only with Postfix version 2.3 and later.
Dovecot is a POP/IMAP server that has its own configuration to authenticate POP/IMAP clients. When the Postfix SMTP server uses Dovecot SASL, it reuses parts of this configuration. Consult the Dovecot documentation for how to configure and operate the Dovecot authentication server.
Communication between the Postfix SMTP server and Dovecot SASL happens over a UNIX-domain socket or over a TCP socket. We will be using a UNIX-domain socket for better privacy.
The following fragment for Dovecot version 2 assumes that the
Postfix queue is under /var/spool/postfix/
.
1 conf.d/10-master.conf: 2 service auth { 3 ... 4 unix_listener /var/spool/postfix/private/auth { 5 mode = 0660 6 # Assuming the default Postfix user and group 7 user = postfix 8 group = postfix 9 } 10 ... 11 } 12 13 conf.d/10-auth.conf 14 auth_mechanisms = plain login
Line 4 places the Dovecot SASL socket in
/var/spool/postfix/private/auth
, lines 5-8 limit
read+write permissions to user and group postfix
only,
and line 14 provides plain
and login
as
mechanisms for the Postfix SMTP server.
Proceed with the section "Enabling SASL authentication and authorization in the Postfix SMTP server" to turn on and use SASL in the Postfix SMTP server.
The Cyrus SASL framework supports a wide variety of applications (POP, IMAP, SMTP, etc.). Different applications may require different configurations. As a consequence each application may have its own configuration file.
The first step configuring Cyrus SASL is to determine name and location of a configuration file that describes how the Postfix SMTP server will use the SASL framework.
The name of the configuration file (default: smtpd.conf
)
is configurable. It is a concatenation from a value that the Postfix
SMTP server sends to the Cyrus SASL library, and the suffix
.conf
, added by Cyrus SASL.
The value sent by Postfix is the name of the server component
that will use Cyrus SASL. It defaults to smtpd
and
is configured with one of the following variables:
/etc/postfix/main.cf: # Postfix 2.3 and later smtpd_sasl_path = smtpd # Postfix < 2.3 smtpd_sasl_application_name = smtpd
The location where Cyrus SASL searches for the named file depends on the Cyrus SASL version and the OS/distribution used.
You can read more about the following topics:
Cyrus SASL version 2.x searches for the configuration file
in /usr/lib/sasl2/
.
Cyrus SASL version 2.1.22 and newer additionally search
in /etc/sasl2/
.
With Postfix 2.5 and later you can explicitly configure the
search path via the cyrus_sasl_config_path
configuration
parameter. Specify zero or more colon-separated directories. If
set empty (the default value) the search path is the one compiled
into the Cyrus SASL library.
Some Postfix distributions employ a non-empty default value
for cyrus_sasl_config_path
to look for the Cyrus SASL
configuration file in /etc/postfix/sasl/
,
/var/lib/sasl2/
etc. See the output of postconf
cyrus_sasl_config_path
and/or the distribution-specific
documentation to determine the expected location.
Some Debian-based Postfix distributions ignore the
"cyrus_sasl_config_path" parameter setting, and force Postfix to
open the file /etc/postfix/sasl/smtpd.conf
.
NoteCyrus SASL searches
/usr/lib/sasl2/
first. If it finds the specified configuration file there, it will not examine other locations.
As the Postfix SMTP server is linked with the Cyrus SASL library
libsasl
, communication between Postfix and Cyrus SASL
takes place by calling functions in the SASL library.
The SASL library may use an external password verification service, or an internal plugin to connect to authentication backends and verify the SMTP client's authentication data against the system password file or other databases.
The following table shows typical combinations discussed in this document:
authentication backend password verification service / plugin /etc/shadow saslauthd PAM saslauthd IMAP server saslauthd sasldb sasldb MySQL, PostgreSQL, SQLite sql LDAP ldapdb
NoteRead the Cyrus SASL documentation for other backends it can use.
Communication between the Postfix SMTP server (read: Cyrus SASL's
libsasl
) and the saslauthd
server takes
place over a UNIX-domain socket.
saslauthd
usually establishes the UNIX domain
socket in /var/run/saslauthd/
and waits for authentication
requests. The Postfix SMTP server must have read+execute permission
to this directory or authentication attempts will fail.
ImportantSome distributions require the user
postfix
to be member of a special group e.g.sasl
, otherwise it will not be able to access thesaslauthd
socket directory.
The following example configures the Cyrus SASL library to
contact saslauthd
as its password verification service:
/etc/sasl2/smtpd.conf: pwcheck_method: saslauthd mech_list: PLAIN LOGIN
ImportantDo not specify any other mechanisms in
mech_list
thanPLAIN
orLOGIN
when usingsaslauthd
! It can only handle these two mechanisms, and authentication will fail if clients are allowed to choose other mechanisms.
ImportantPlaintext mechanisms (
PLAIN
,LOGIN
) send credentials unencrypted. This information should be protected by an additional security layer such as a TLS-encrypted SMTP session (see: TLS_README).
Additionally the saslauthd
server itself must be
configured. It must be told which authentication backend to turn
to for password verification. The backend is selected with a
saslauthd
command-line option and will be shown in the
following examples.
NoteSome distributions use a configuration file to provide saslauthd command line options to set e.g. the authentication backend. Typical locations are
/etc/sysconfig/saslauthd
or/etc/default/saslauthd
.
Access to the /etc/shadow
system password file
requires root
privileges. The Postfix SMTP server
(and in consequence libsasl
linked to the server) runs
with the least privilege possible. Direct access to
/etc/shadow
would not be possible without breaking the
Postfix security architecture.
The saslauthd
socket builds a safe bridge. Postfix,
running as limited user postfix
, can access the
UNIX-domain socket that saslauthd
receives commands
on; saslauthd
, running as privileged user root
,
has the privileges required to access the shadow file.
The saslauthd
server verifies passwords against the
authentication backend /etc/shadow
if started like this:
%saslauthd -a shadow
See section "Testing saslauthd authentication" for test instructions.
Cyrus SASL can use the PAM framework to authenticate credentials.
saslauthd
uses the PAM framework when started like
this:
%saslauthd -a pam
NotePAM configuration for the Postfix SMTP server is usually given in
/etc/pam.d/smtp
and is beyond the scope of this document.
See section "Testing saslauthd authentication" for test instructions.
saslauthd
can verify the SMTP client credentials
by using them to log into an IMAP server. If the login succeeds,
SASL authentication also succeeds. saslauthd
contacts
an IMAP server when started like this:
%saslauthd -a rimap -O imap.example.com
NoteThe option "
-O imap.example.com
" specifies the IMAP serversaslauthd
should contact when it verifies credentials.
Important
saslauthd
sends IMAP login information unencrypted. Any IMAP session leaving the local host should be protected by an additional security layer such as an SSL tunnel.
See section "Testing saslauthd authentication" for test instructions.
Cyrus SASL provides the testsaslauthd
utility to
test saslauthd
authentication. The username and password
are given as command line arguments. The example shows the response
when authentication is successful:
%testsaslauthd -u username -p password
0: OK "Success."
NoteSometimes the
testsaslauthd
program is not distributed with a the Cyrus SASL main package. In that case, it may be distributed with-devel
,-dev
or-debug
packages.
Specify an additional "-s smtp
" if saslauthd
was configured to contact the PAM authentication framework, and
specify an additional "-f /path/to/socketdir/mux
"
if saslauthd
establishes the UNIX-domain socket in a
non-default location.
If authentication succeeds, proceed with the section "Enabling SASL authentication and authorization in the Postfix SMTP server".
Cyrus SASL uses a plugin infrastructure (called auxprop
)
to expand libsasl
's capabilities. Currently Cyrus
SASL sources provide three authentication plugins.
Plugin Description sasldb Accounts are stored stored in a Cyrus SASL Berkeley DB database sql Accounts are stored in a SQL database ldapdb Accounts are stored stored in an LDAP database
ImportantThese three plugins support shared-secret mechanisms i.e. CRAM-MD5, DIGEST-MD5 and NTLM. These mechanisms send credentials encrypted but their verification process requires the password to be available in plaintext. Consequently passwords cannot (!) be stored in encrypted form.
The sasldb auxprop plugin authenticates SASL clients against
credentials that are stored in a Berkeley DB database. The database
schema is specific to Cyrus SASL. The database is usually located
at /etc/sasldb2
.
NoteThe
sasldb2
file contains passwords in plaintext, and should have read+write access only to userpostfix
or a group thatpostfix
is member of.
The saslpasswd2
command-line utility creates
and maintains the database:
% saslpasswd2 -c -u example.com username Password: Again (for verification):
This command creates an account
username@example.com
.
Importantusers must specify
username@example.com
as login name, notusername
.
Run the following command to reuse the Postfix mydomain
parameter value as the login domain:
% saslpasswd2 -c -u `postconf -h mydomain` username Password: Again (for verification):
NoteRun
saslpasswd2
without any options for further help on how to use the command.
The sasldblistusers2
command lists all existing
users in the sasldb database:
% sasldblistusers2 username1@example.com: password1 username2@example.com: password2
Configure libsasl to use sasldb with the following instructions:
/etc/sasl2/smtpd.conf: pwcheck_method: auxprop auxprop_plugin: sasldb mech_list: PLAIN LOGIN CRAM-MD5 DIGEST-MD5 NTLM
NoteIn the above example adjust
mech_list
to the mechanisms that are applicable for your environment.
The sql auxprop plugin is a generic SQL plugin. It provides access to credentials stored in a MySQL, PostgreSQL or SQLite database. This plugin requires that SASL client passwords are stored as plaintext.
TipIf you must store encrypted passwords, you cannot use the sql auxprop plugin. Instead, see section "Using saslauthd with PAM", and configure PAM to look up the encrypted passwords with, for example, the
pam_mysql
module. You will not be able to use any of the methods that require access to plaintext passwords, such as the shared-secret methods CRAM-MD5 and DIGEST-MD5.
The following example configures libsasl to use the sql plugin and connects it to a PostgreSQL server:
/etc/sasl2/smtpd.conf: pwcheck_method: auxprop auxprop_plugin: sql mech_list: PLAIN LOGIN CRAM-MD5 DIGEST-MD5 NTLM sql_engine: pgsql sql_hostnames: 127.0.0.1, 192.0.2.1 sql_user: username sql_passwd: secret sql_database: dbname sql_select: SELECT password FROM users WHERE user = '%u@%r'
NoteSet appropriate permissions if
smtpd.conf
contains a password. The file should be readable by thepostfix
user.
NoteIn the above example, adjust
mech_list
to the mechanisms that are applicable for your environment.
The sql plugin has the following configuration options:
- sql_engine
Specify
mysql
to connect to a MySQL server,pgsql
for a PostgreSQL server orsqlite
for an SQLite database- sql_hostnames
Specify one or more servers (hostname or hostname:port) separated by commas.
NoteWith MySQL servers, specify
localhost
to connect over a UNIX-domain socket, and specify127.0.0.1
to connect over a TCP socket.- sql_user
The login name to gain access to the database.
- sql_passwd
The password to gain access to the database.
- sql_database
The name of the database to connect to.
- sql_select
The SELECT statement that should retrieve the plaintext password from a database table.
ImportantDo not enclose the statement in quotes! Use single quotes to escape macros!
The sql plugin provides macros to build sql_select
statements. They will be replaced with arguments sent from the client. The
following macros are available:
- %u
The name of the user whose properties are being selected.
- %p
The name of the property being selected. While this could technically be anything, Cyrus SASL will try userPassword and cmusaslsecretMECHNAME (where MECHNAME is the name of a SASL mechanism).
- %r
The name of the realm to which the user belongs. This could be the KERBEROS realm, the fully-qualified domain name of the computer the SASL application is running on, or the domain after the "@" in a username.
The ldapdb auxprop plugin provides access to credentials stored in an LDAP server. This plugin requires that SASL client passwords are stored as plaintext.
TipIf you must store encrypted passwords, you cannot use the ldapdb auxprop plugin. Instead, you can use "
saslauthd -a ldap
" to query the LDAP database directly, with appropriate configuration insaslauthd.conf
, as described here. You will not be able to use any of the methods that require access to plaintext passwords, such as the shared-secret methods CRAM-MD5 and DIGEST-MD5.
The ldapdb plugin implements proxy authorization. This means that the ldapdb plugin uses its own username and password to authenticate with the LDAP server, before it asks the LDAP server for the remote SMTP client's password. The LDAP server then decides if the ldapdb plugin is authorized to read the remote SMTP client's password.
In a nutshell: Configuring ldapdb means authentication and authorization must be configured twice - once in the Postfix SMTP server to authenticate and authorize the remote SMTP client, and once in the LDAP server to authenticate and authorize the ldapdb plugin.
This example configures libsasl to use the ldapdb plugin and the plugin to connect to an LDAP server:
/etc/sasl2/smtpd.conf: pwcheck_method: auxprop auxprop_plugin: ldapdb mech_list: PLAIN LOGIN NTLM CRAM-MD5 DIGEST-MD5 ldapdb_uri: ldap://localhost ldapdb_id: proxyuser ldapdb_pw: password ldapdb_mech: DIGEST-MD5
ImportantSet appropriate permissions if
smtpd.conf
contains a password. The file should be readable by thepostfix
user.
NoteThe shared-secret mechanisms (CRAM-MD5, etc.) require that the SASL client passwords are stored as plaintext.
The following is a summary of applicable smtpd.conf
file entries:
- auxprop_plugin
Specify
ldapdb
to enable the plugin.- ldapdb_uri
Specify either
ldapi://
to connect over a UNIX-domain socket,ldap://
for an unencrypted TCP connection, orldaps://
for an encrypted TCP connection.- ldapdb_id
The login name to authenticate the ldapdb plugin to the LDAP server (proxy authorization).
- ldapdb_pw
The password (in plaintext) to authenticate the ldapdb plugin to the LDAP server (proxy authorization).
- ldapdb_mech
The mechanism to authenticate the ldapdb plugin to the LDAP server.
NoteSpecify a mechanism here that is supported by the LDAP server.
- ldapdb_rc (optional)
The path to a file containing individual configuration options for the ldapdb LDAP client (libldap). This allows to specify a TLS client certificate which in turn can be used to use the SASL EXTERNAL mechanism.
NoteThis mechanism supports authentication over an encrypted transport layer, which is recommended if the plugin must connect to an OpenLDAP server on a remote machine.
- ldapdb_starttls (optional)
The TLS policy for connecting to the LDAP server. Specify either
try
ordemand
. If the option istry
the plugin will attempt to establish a TLS-encrypted connection with the LDAP server, and will fallback to an unencrypted connection if TLS fails. If the policy isdemand
and a TLS-encrypted connection cannot be established, the connection fails immediately.
When the ldapdb plugin connects to the OpenLDAP server and successfully authenticates, the OpenLDAP server decides if the plugin user is authorized to read SASL account information.
The following configuration gives an example of authorization configuration in the OpenLDAP slapd server:
/etc/openldap/slapd.conf: authz-regexp uid=(.*),cn=.*,cn=auth ldap:///dc=example,dc=com??sub?cn=$1 authz-policy to
Here, the authz-regexp
option serves for authentication
of the ldapdb user. It maps its login name to a DN in the LDAP
directory tree where slapd
can look up the SASL account
information. The authz-policy
options defines the
authentication policy. In this case it grants authentication
privileges "to
" the ldapdb plugin.
The last configuration step is to tell the OpenLDAP slapd
server where ldapdb may search for usernames matching the one given
by the mail client. The example below adds an additional attribute
ldapdb user object (here: authzTo
because the authz-policy
is "to
") and configures the scope where the login name
"proxyuser" may search:
dn: cn=proxyuser,dc=example,dc=com changetype: modify add: authzTo authzTo: dn.regex:uniqueIdentifier=(.*),ou=people,dc=example,dc=com
Use the ldapmodify
or ldapadd
command
to add the above attribute.
NoteRead the chapter "Using SASL" in the OpenLDAP Admin Guide for more detailed instructions to set up SASL authentication in OpenLDAP.
By default the Postfix SMTP server uses the Cyrus SASL
implementation. If the Dovecot SASL implementation should be used,
specify an smtpd_sasl_type
value of dovecot
instead of cyrus
:
/etc/postfix/main.cf: smtpd_sasl_type = dovecot
Additionally specify how Postfix SMTP server can find the Dovecot authentication server. This depends on the settings that you have selected in the section "Postfix to Dovecot SASL communication".
If you configured Dovecot for UNIX-domain socket communication, configure Postfix as follows:
/etc/postfix/main.cf: smtpd_sasl_path = private/authNote
This example uses a pathname relative to the Postfix queue directory, so that it will work whether or not the Postfix SMTP server runs chrooted.
If you configured Dovecot for TCP socket communication, configure Postfix as follows. If Dovecot runs on a different machine, replace 127.0.0.1 by that machine's IP address.
/etc/postfix/main.cf: smtpd_sasl_path = inet:127.0.0.1:12345Note
If you specify a remote IP address, information will be sent as plaintext over the network.
Regardless of the SASL implementation type, enabling SMTP
authentication in the Postfix SMTP server always requires setting
the smtpd_sasl_auth_enable
option:
/etc/postfix/main.cf: smtpd_sasl_auth_enable = yes
After a "postfix reload", SMTP clients will see the additional capability AUTH in an SMTP session, followed by a list of authentication mechanisms the server supports:
% telnet server.example.com 25 ... 220 server.example.com ESMTP Postfix EHLO client.example.com 250-server.example.com 250-PIPELINING 250-SIZE 10240000 250-AUTH DIGEST-MD5 PLAIN CRAM-MD5 ...
However not all clients recognize the AUTH capability as defined
by the SASL authentication RFC. Some historical implementations expect the
server to send an "=
" as separator between the AUTH
verb and the list of mechanisms that follows it.
The broken_sasl_auth_clients
configuration option
lets Postfix repeat the AUTH statement in a form that these broken
clients understand:
/etc/postfix/main.cf: broken_sasl_auth_clients = yes
NoteEnable this option for Outlook up to and including version 2003 and Outlook Express up to version 6. This option does not hurt other clients.
After "postfix reload", the Postfix SMTP server will propagate the AUTH capability twice - once for compliant and once for broken clients:
% telnet server.example.com 25 ... 220 server.example.com ESMTP Postfix EHLO client.example.com 250-server.example.com 250-PIPELINING 250-SIZE 10240000 250-AUTH DIGEST-MD5 PLAIN CRAM-MD5 250-AUTH=DIGEST-MD5 PLAIN CRAM-MD5 ...
The Postfix SMTP server supports policies that limit the SASL mechanisms that it makes available to clients, based on the properties of those mechanisms. The next two sections give examples of how these policies are used.
Property Description noanonymous Don't use mechanisms that permit anonymous authentication. noplaintext Don't use mechanisms that transmit unencrypted username and password information. nodictionary Don't use mechanisms that are vulnerable to dictionary attacks. forward_secrecy Require forward secrecy between sessions (breaking one session does not break earlier sessions). mutual_auth Use only mechanisms that authenticate both the client and the server to each other.
The default policy is to allow any mechanism in the Postfix SMTP server except for those based on anonymous authentication:
/etc/postfix/main.cf: # Specify a list of properties separated by comma or whitespace smtpd_sasl_security_options = noanonymous
ImportantAlways set at least the
noanonymous
option. Otherwise, the Postfix SMTP server can give strangers the same authorization as a properly-authenticated client.
A separate parameter controls Postfix SASL mechanism policy during a TLS-encrypted SMTP session. The default is to copy the settings from the unencrypted session:
/etc/postfix/main.cf: smtpd_sasl_tls_security_options = $smtpd_sasl_security_options
A more sophisticated policy allows plaintext mechanisms, but only over a TLS-encrypted connection:
/etc/postfix/main.cf: smtpd_sasl_security_options = noanonymous, noplaintext smtpd_sasl_tls_security_options = noanonymous
To offer SASL authentication only after a TLS-encrypted session has been established specify this:
/etc/postfix/main.cf: smtpd_tls_auth_only = yes
After the client has authenticated with SASL, the Postfix SMTP server decides what the remote SMTP client will be authorized for. Examples of possible SMTP clients authorizations are:
Send a message to a remote recipient.
Use a specific envelope sender in the MAIL FROM command.
These permissions are not enabled by default.
With permit_sasl_authenticated
the Postfix SMTP
server can allow
SASL-authenticated SMTP clients to send mail to remote destinations.
Examples:
# With Postfix 2.10 and later, the mail relay policy is # preferably specified under smtpd_relay_restrictions. /etc/postfix/main.cf: smtpd_relay_restrictions = permit_mynetworks permit_sasl_authenticated reject_unauth_destination# Older configurations combine relay control and spam control under # smtpd_recipient_restrictions. To use this example with Postfix ≥ # 2.10 specify "smtpd_relay_restrictions=". /etc/postfix/main.cf: smtpd_recipient_restrictions = permit_mynetworks permit_sasl_authenticated reject_unauth_destination ...other rules...
By default an SMTP client may specify any envelope sender address in the MAIL FROM command. That is because the Postfix SMTP server only knows the remote SMTP client hostname and IP address, but not the user who controls the remote SMTP client.
This changes the moment an SMTP client uses SASL authentication. Now, the Postfix SMTP server knows who the sender is. Given a table of envelope sender addresses and SASL login names, the Postfix SMTP server can decide if the SASL authenticated client is allowed to use a particular envelope sender address:
/etc/postfix/main.cf: smtpd_sender_login_maps = hash:/etc/postfix/controlled_envelope_senders smtpd_recipient_restrictions = ... reject_sender_login_mismatch permit_sasl_authenticated ...
The controlled_envelope_senders
table specifies
the binding between a sender envelope address and the SASL login
names that own that address:
/etc/postfix/controlled_envelope_senders # envelope sender owners (SASL login names) john@example.com john@example.com helpdesk@example.com john@example.com, mary@example.com postmaster admin@example.com @example.net barney, fred, john@example.com, mary@example.com
With this, the reject_sender_login_mismatch
restriction above will reject the sender address in the MAIL FROM
command if smtpd_sender_login_maps
does not specify
the SMTP client's login name as an owner of that address.
See also reject_authenticated_sender_login_mismatch
,
reject_known_sender_login_mismatch
, and
reject_unauthenticated_sender_login_mismatch
for additional
control over the SASL login name and the envelope sender.
Postfix provides a wide range of SASL authentication configuration options. The next section lists a few that are discussed frequently. See postconf(5) for a complete list.
Postfix can implement policies that depend on the SASL login name (Postfix 2.11 and later). Typically this is used to HOLD or REJECT mail from accounts whose credentials have been compromised.
/etc/postfix/main.cf: smtpd_recipient_restrictions = permit_mynetworks check_sasl_access hash:/etc/postfix/sasl_access permit_sasl_authenticated ... /etc/postfix/sasl_access: # Use this when smtpd_sasl_local_domain is empty. username HOLD # Use this when smtpd_sasl_local_domain=example.com. username@example.com HOLD
Postfix can append a domain name (or any other string) to a
SASL login name that does not have a domain part, e.g. "john
"
instead of "john@example.com
":
/etc/postfix/main.cf: smtpd_sasl_local_domain = example.com
This is useful as a default setting and safety net for misconfigured clients, or during a migration to an authentication method/backend that requires an authentication REALM or domain name, before all SMTP clients are configured to send such information.
Some clients insist on using SASL authentication if it is offered, even when they are not configured to send credentials - and therefore they will always fail and disconnect.
Postfix can hide the AUTH capability from these clients/networks:
/etc/postfix/main.cf: smtpd_sasl_exceptions_networks = !192.0.2.171/32, 192.0.2.0/24
To report SASL login names in Received: message headers (Postfix version 2.3 and later):
/etc/postfix/main.cf: smtpd_sasl_authenticated_header = yes
NoteThe SASL login names will be shared with the entire world.
To test the server side, connect (for example, with
telnet
) to the Postfix SMTP server port and you should
be able to have a conversation as shown below. Information sent by
the client (that is, you) is shown in bold font.
% telnet server.example.com 25 ... 220 server.example.com ESMTP Postfix EHLO client.example.com 250-server.example.com 250-PIPELINING 250-SIZE 10240000 250-ETRN 250-AUTH DIGEST-MD5 PLAIN CRAM-MD5 250 8BITMIME AUTH PLAIN AHRlc3QAdGVzdHBhc3M= 235 Authentication successful
To test this over a connection that is encrypted with TLS, use
openssl s_client
instead of telnet
:
% openssl s_client -connect server.example.com:25 -starttls smtp ... 220 server.example.com ESMTP Postfix EHLO client.example.com ...see above example for more...
Instead of AHRlc3QAdGVzdHBhc3M=
, specify the
base64-encoded form of \0username\0password
(the \0
is a null byte). The example above is for a user named `test
'
with password `testpass
'.
CautionWhen posting logs of the SASL negotiations to public lists, please keep in mind that username/password information is trivial to recover from the base64-encoded form.
You can use one of the following commands to generate base64 encoded authentication information:
Using a recent version of the bash shell:
% echo -ne '\000username\000password' | openssl base64
Some other shells support similar syntax.
Using the printf command:
% printf '\0%s\0%s' 'username' 'password' | openssl base64 % printf '\0%s\0%s' 'username' 'password' | mmencode
The mmencode command is part of the metamail software.
Using Perl MIME::Base64 (from https://www.cpan.org/):
% perl -MMIME::Base64 -e \ 'print encode_base64("\0username\0password");'
If the username or password contain "@", you must specify "\@".
Using the gen-auth script:
% gen-auth plain username: username password:
The gen-auth Perl script was written by John Jetmore and can be found at https://jetmore.org/john/code/gen-auth.
The Postfix SMTP and the LMTP client can authenticate with a remote SMTP server via the Cyrus SASL framework. At this time, the Dovecot SASL implementation does not provide client functionality.
NoteThe examples in this section discuss only the SMTP client. Replace
smtp_
withlmtp_
to get the corresponding LMTP client configuration.
You can read more about the following topics:
This section shows a typical scenario where the Postfix SMTP client sends all messages via a mail gateway server that requires SASL authentication.
Trouble solving tips:
If your SASL logins fail with "SASL authentication failure: No worthy mechs found" in the mail logfile, then see the section "Postfix SMTP/LMTP client policy - SASL mechanism properties".
For a solution to a more obscure class of SASL authentication failures, see "Postfix SMTP/LMTP client policy - SASL mechanism names".
To make the example more readable we introduce it in two parts. The first part takes care of the basic configuration, while the second part sets up the username/password information.
/etc/postfix/main.cf: smtp_sasl_auth_enable = yes smtp_tls_security_level = encrypt smtp_sasl_tls_security_options = noanonymous relayhost = [mail.isp.example] # Alternative form: # relayhost = [mail.isp.example]:submission smtp_sasl_password_maps = hash:/etc/postfix/sasl_passwd
The smtp_sasl_auth_enable
setting enables
client-side authentication. We will configure the client's username
and password information in the second part of the example.
The smtp_tls_security_level
setting ensures
that the connection to the remote smtp server will be encrypted, and
smtp_sasl_tls_security_options
removes the prohibition on
plaintext passwords.
The relayhost
setting forces the Postfix SMTP
to send all remote messages to the specified mail server instead
of trying to deliver them directly to their destination.
In the relayhost
setting, the "[
"
and "]
" prevent the Postfix SMTP client from looking
up MX (mail exchanger) records for the enclosed name.
The relayhost
destination may also specify a
non-default TCP port. For example, the alternative form
[mail.isp.example]:submission
tells Postfix to connect
to TCP network port 587, which is reserved for email client
applications.
The Postfix SMTP client is compatible with SMTP servers
that use the non-standard "AUTH=method....
"
syntax in response to the EHLO command; this requires no additional
Postfix client configuration.
With the setting "smtp_tls_wrappermode = yes", the Postfix SMTP client supports the "wrappermode" protocol, which uses TCP port 465 on the SMTP server (Postfix 3.0 and later).
With the smtp_sasl_password_maps
parameter,
we configure the Postfix SMTP client to send username and password
information to the mail gateway server. As discussed in the next
section, the Postfix SMTP client supports multiple ISP accounts.
For this reason the username and password are stored in a table
that contains one username/password combination for each mail gateway
server.
/etc/postfix/sasl_passwd: # destination credentials [mail.isp.example] username:password # Alternative form: # [mail.isp.example]:submission username:password
ImportantKeep the SASL client password file in
/etc/postfix
, and make the file read+write only forroot
to protect the username/password combinations against other users. The Postfix SMTP client will still be able to read the SASL client passwords. It opens the file as userroot
before it drops privileges, and before entering an optional chroot jail.
Use the postmap
command whenever you
change the /etc/postfix/sasl_passwd
file.
If you specify the "[
" and "]
"
in the relayhost
destination, then you must use the
same form in the smtp_sasl_password_maps
file.
If you specify a non-default TCP Port (such as
":submission
" or ":587
") in the
relayhost
destination, then you must use the same form
in the smtp_sasl_password_maps
file.
Postfix supports different ISP accounts for different sender addresses (version 2.3 and later). This can be useful when one person uses the same machine for work and for personal use, or when people with different ISP accounts share the same Postfix server.
To make this possible, Postfix supports per-sender SASL passwords
and per-sender relay hosts. In the example below, the Postfix SMTP
client will search the SASL password file by sender address before
it searches that same file by destination. Likewise, the Postfix
trivial-rewrite(8) daemon will search the per-sender relayhost file,
and use the default relayhost
setting only as a final
resort.
/etc/postfix/main.cf: smtp_sender_dependent_authentication = yes sender_dependent_relayhost_maps = hash:/etc/postfix/sender_relay smtp_sasl_auth_enable = yes smtp_sasl_password_maps = hash:/etc/postfix/sasl_passwd relayhost = [mail.isp.example] # Alternative form: # relayhost = [mail.isp.example]:submission
/etc/postfix/sasl_passwd: # Per-sender authentication; see also /etc/postfix/sender_relay. user1@example.com username1:password1 user2@example.net username2:password2 # Login information for the default relayhost. [mail.isp.example] username:password # Alternative form: # [mail.isp.example]:submission username:password
/etc/postfix/sender_relay: # Per-sender provider; see also /etc/postfix/sasl_passwd. user1@example.com [mail.example.com]:submission user2@example.net [mail.example.net]
If you are creative, then you can try to combine the two tables into one single MySQL database, and configure different Postfix queries to extract the appropriate information.
Specify dbm instead of hash if your system uses dbm files instead of db files. To find out what lookup tables Postfix supports, use the command "postconf -m".
Execute the command "postmap /etc/postfix/sasl_passwd" whenever you change the sasl_passwd table.
Execute the command "postmap /etc/postfix/sender_relay" whenever you change the sender_relay table.
Just like the Postfix SMTP server, the SMTP client has a policy that determines which SASL mechanisms are acceptable, based on their properties. The next two sections give examples of how these policies are used.
Property Description noanonymous Don't use mechanisms that permit anonymous authentication. noplaintext Don't use mechanisms that transmit unencrypted username and password information. nodictionary Don't use mechanisms that are vulnerable to dictionary attacks. mutual_auth Use only mechanisms that authenticate both the client and the server to each other.
The default policy is stricter than that of the Postfix SMTP server - plaintext mechanisms are not allowed (nor is any anonymous mechanism):
/etc/postfix/main.cf: smtp_sasl_security_options = noplaintext, noanonymous
This default policy, which allows no plaintext passwords, leads
to authentication failures if the remote server only offers plaintext
authentication mechanisms (the SMTP server announces "AUTH
PLAIN LOGIN
"). In such cases the SMTP client will log the
following error message:
SASL authentication failure: No worthy mechs found
NoteThis same error message will also be logged when the
libplain.so
orliblogin.so
modules are not installed in the/usr/lib/sasl2
directory.
The insecure approach is to lower the security standards and permit plaintext authentication mechanisms:
/etc/postfix/main.cf: smtp_sasl_security_options = noanonymous
The more secure approach is to protect the plaintext username and password with TLS session encryption. To find out if the remote SMTP server supports TLS, connect to the server and see if it announces STARTTLS support as shown in the example. Information sent by the client (that is, you) is shown in bold font.
% telnet server.example.com 25 ... 220 server.example.com ESMTP Postfix EHLO client.example.com 250-server.example.com 250-PIPELINING 250-SIZE 10240000 250-STARTTLS ...
Instead of port 25 (smtp), specify port 587 (submission) where appropriate.
To turn on TLS in the Postfix SMTP client, see TLS_README for configuration details.
The smtp_sasl_tls_security_options parameter controls Postfix SASL mechanism policy during a TLS-encrypted SMTP session. The default is to copy the settings from the unencrypted session:
/etc/postfix/main.cf: smtp_sasl_tls_security_options = $smtp_sasl_security_options
A more sophisticated policy allows plaintext mechanisms, but only over a TLS-encrypted connection:
/etc/postfix/main.cf: smtp_sasl_security_options = noanonymous, noplaintext smtp_sasl_tls_security_options = noanonymous
Given the SASL security options of the previous section, the Cyrus SASL library will choose the most secure authentication mechanism that both the SMTP client and server implement. Unfortunately, that authentication mechanism may fail because the client or server is not configured to use that mechanism.
To prevent this, the Postfix SMTP client can filter the names of the authentication mechanisms from the remote SMTP server. Used correctly, the filter hides unwanted mechanisms from the Cyrus SASL library, forcing the library to choose from the mechanisms the Postfix SMTP client filter passes through.
The following example filters out everything but the mechanisms
PLAIN
and LOGIN
:
/etc/postfix/main.cf: smtp_sasl_mechanism_filter = plain, login
NoteIf the remote server does not offer any of the mechanisms on the filter list, authentication will fail.
We close this section with an example that passes every mechanism
except for GSSAPI
and LOGIN
:
/etc/postfix/main.cf: smtp_sasl_mechanism_filter = !gssapi, !login, static:all
As mentioned elsewhere, Postfix supports two SASL implementations: Cyrus SASL (SMTP client and server) and Dovecot SASL (SMTP server only). Both implementations can be built into Postfix simultaneously.
These instructions assume that you build Postfix from source code as described in the INSTALL document. Some modification may be required if you build Postfix from a vendor-specific source package.
Support for the Dovecot version 1 SASL protocol is available in Postfix 2.3 and later. At the time of writing, only server-side SASL support is available, so you can't use it to authenticate the Postfix SMTP client to your network provider's server.
Dovecot uses its own daemon process for authentication. This keeps the Postfix build process simple, because there is no need to link extra libraries into Postfix.
To generate the necessary Makefiles, execute the following in the Postfix top-level directory:
% make tidy # if you have left-over files from a previous build % make makefiles CCARGS="-DUSE_SASL_AUTH \ -DDEF_SERVER_SASL_TYPE=\\\"dovecot\\\""
After this, proceed with "make
" as described in
the INSTALL document.
The -DDEF_SERVER_SASL_TYPE=\\\"dovecot\\\"
is not
necessary; it just makes Postfix configuration a little more
convenient because you don't have to specify the SASL plug-in type
in the Postfix main.cf file (but this may cause surprises when you
switch to a later Postfix version that is built with the default
SASL type of cyrus
).
If you also want support for LDAP or TLS (or for Cyrus SASL),
you need to merge their CCARGS
and AUXLIBS
options into the above command line; see the LDAP_README and
TLS_README for details.
% make tidy # if you have left-over files from a previous build % make makefiles CCARGS="-DUSE_SASL_AUTH \ -DDEF_SERVER_SASL_TYPE=\\\"dovecot\\\" \ ...CCARGS options for LDAP or TLS etc...." \ AUXLIBS="...AUXLIBS options for LDAP or TLS etc...."
Postfix works with cyrus-sasl-1.5.x or cyrus-sasl-2.1.x, which are available from https://github.com/cyrusimap/cyrus-sasl/releases.
ImportantIf you install the Cyrus SASL libraries as per the default, you will have to create a symlink
/usr/lib/sasl
->/usr/local/lib/sasl
for version 1.5.x or/usr/lib/sasl2
->/usr/local/lib/sasl2
for version 2.1.x.
Reportedly, Microsoft Outlook (Express) requires the non-standard LOGIN and/or NTLM authentication mechanism. To enable these authentication mechanisms, build the Cyrus SASL libraries with:
% ./configure --enable-login --enable-ntlm
These instructions assume that you build Postfix from source code as described in the INSTALL document. Some modification may be required if you build Postfix from a vendor-specific source package.
The following assumes that the Cyrus SASL include files are in
/usr/local/include
, and that the Cyrus SASL libraries are in
/usr/local/lib
.
On some systems this generates the necessary Makefile
definitions:
% make tidy # if you have left-over files from a previous build % make makefiles CCARGS="-DUSE_SASL_AUTH -DUSE_CYRUS_SASL \ -I/usr/local/include/sasl" AUXLIBS="-L/usr/local/lib -lsasl2"
If your Cyrus SASL shared library is in a directory that the RUN-TIME linker does not know about, add a "-Wl,-R,/path/to/directory" option after "-lsasl2".
% make tidy # if you have left-over files from a previous build % make makefiles CCARGS="-DUSE_SASL_AUTH -DUSE_CYRUS_SASL \ -I/usr/local/include" AUXLIBS="-L/usr/local/lib -lsasl"
On Solaris 2.x you need to specify run-time link information, otherwise the ld.so run-time linker will not find the SASL shared library:
% make tidy # remove left-over files from a previous build % make makefiles CCARGS="-DUSE_SASL_AUTH -DUSE_CYRUS_SASL \ -I/usr/local/include/sasl" AUXLIBS="-L/usr/local/lib \ -R/usr/local/lib -lsasl2"
% make tidy # if you have left-over files from a previous build % make makefiles CCARGS="-DUSE_SASL_AUTH -DUSE_CYRUS_SASL \ -I/usr/local/include" AUXLIBS="-L/usr/local/lib \ -R/usr/local/lib -lsasl"
Postfix supports Cyrus SASL version 1.x, but you shouldn't use it unless you are forced to. The makers of Cyrus SASL write:
This library is being deprecated and applications should transition to using the SASLv2 library (source: Project Cyrus: Downloads).
If you still need to set it up, here's a quick rundown:
Read the regular section on SMTP server configurations for the Cyrus SASL framework. The differences are:
Cyrus SASL version 1.5.x searches for configuration
(smtpd.conf
) in /usr/lib/sasl/
only. You
must place the configuration in that directory. Some systems may
have modified Cyrus SASL and put the files into e.g.
/var/lib/sasl/
.
Use the saslpasswd
command instead of
saslpasswd2
to create users in sasldb
.
Use the sasldblistusers
command instead of
sasldblistusers2
to find users in sasldb
.
In the smtpd.conf
file you can't use
mech_list
to limit the range of mechanisms offered.
Instead, remove their libraries from /usr/lib/sasl/
(and remember remove those files again when a system update
re-installs new versions).