Introduction
Postfix is a popular open-source Mail Transfer Agent (MTA) that can be used to route and deliver email on a Linux system. It is estimated that around 25% of public mail servers on the internet run Postfix.
In this guide, we’ll teach you how to get up and running quickly with Postfix on an Ubuntu 18.04 server.
Prerequisites
In order to follow this guide, you should have access to a non-root user with sudo
privileges. You can follow our Ubuntu 18.04 initial server setup guide to create the necessary user.
In order to properly configure Postfix, you will need a Fully Qualified Domain Name pointed at your Ubuntu 18.04 server. You can find help on setting up your domain name with DigitalOcean by following this guide. If you plan on accepting mail, you will need to make sure you have an MX record pointing to your mail server as well.
For the purposes of this tutorial, we will assume that you are configuring a host that has the FQDN of mail.example.com
.
Step 1 — Install Postfix
Postfix is included in Ubuntu’s default repositories, so installation is simple.
To begin, update your local apt
package cache and then install the software. We will be passing in the DEBIAN_PRIORITY=low
environmental variable into our installation command in order to answer some additional prompts:
sudo apt update
sudo DEBIAN_PRIORITY=low apt install postfix
Use the following information to fill in your prompts correctly for your environment:
General type of mail configuration?: For this, we will choose Internet Site since this matches our infrastructure needs.
System mail name: This is the base domain used to construct a valid email address when only the account portion of the address is given. For instance, the hostname of our server is mail.example.com
, but we probably want to set the system mail name to example.com
so that given the username user1
, Postfix will use the address user1@example.com
.
Root and postmaster mail recipient: This is the Linux account that will be forwarded mail addressed to root@
and postmaster@
. Use your primary account for this. In our case, sammy.
Other destinations to accept mail for: This defines the mail destinations that this Postfix instance will accept. If you need to add any other domains that this server will be responsible for receiving, add those here, otherwise, the default should work fine.
Force synchronous updates on mail queue?: Since you are likely using a journaled filesystem, accept No here.
Local networks: This is a list of the networks that your mail server is configured to relay messages for. The default should work for most scenarios. If you choose to modify it, make sure to be very restrictive in regards to the network range.
Mailbox size limit: This can be used to limit the size of messages. Setting it to “0” disables any size restriction.
Local address extension character: This is the character that can be used to separate the regular portion of the address from an extension (used to create dynamic aliases).
Internet protocols to use: Choose whether to restrict the IP version that Postfix supports. We’ll pick “all” for our purposes.
To be explicit, these are the settings we’ll use for this guide:
General type of mail configuration?: Internet Site
System mail name: example.com (not mail.example.com)
Root and postmaster mail recipient: sammy
Other destinations to accept mail for: $myhostname, example.com, mail.example.com, localhost.example.com, localhost
Force synchronous updates on mail queue?: No
Local networks: 127.0.0.0/8 [::ffff:127.0.0.0]/104 [::1]/128
Mailbox size limit: 0
Local address extension character: +
Internet protocols to use: all
If you need to ever return to re-adjust these settings, you can do so by typing:
sudo dpkg-reconfigure postfix
The prompts will be pre-populated with your previous responses.
When you are finished, we can now do a bit more configuration to set up our system how we’d like it.
Step 2 — Tweak the Postfix Configuration
Next, we can adjust some settings that the package did not prompt us for.
To begin, we can set the mailbox. We will use the Maildir format, which separates messages into individual files that are then moved between directories based on user action. The other option is the mbox format (which we won’t cover here) which stores all messages within a single file.
We will set the home_mailbox
variable to Maildir/
which will create a directory structure under that name within the user’s home directory. The postconf
command can be used to query or set configuration settings. Configure home_mailbox
by typing:
sudo postconf -e 'home_mailbox= Maildir/'
Next, we can set the location of the virtual_alias_maps
table. This table maps arbitrary email accounts to Linux system accounts. We will create this table at /etc/postfix/virtual
. Again, we can use the postconf
command:
sudo postconf -e 'virtual_alias_maps= hash:/etc/postfix/virtual'
Step 3 — Map Mail Addresses to Linux Accounts
Next, we can set up the virtual maps file. Open the file in your text editor:
sudo nano /etc/postfix/virtual
The virtual alias map table uses a very simple format. On the left, you can list any addresses that you wish to accept email for. Afterwards, separated by whitespace, enter the Linux user you’d like that mail delivered to.
For example, if you would like to accept email at contact@example.com
and admin@example.com
and would like to have those emails delivered to the sammy
Linux user, you could set up your file like this:
/etc/postfix/virtual
contact@example.com sammy
admin@example.com sammy
After you’ve mapped all of the addresses to the appropriate server accounts, save and close the file.
We can apply the mapping by typing:
sudo postmap /etc/postfix/virtual
Restart the Postfix process to be sure that all of our changes have been applied:
sudo systemctl restart postfix
Step 4 — Adjust the Firewall
If you are running the UFW firewall, as configured in the initial server setup guide, we’ll have to allow an exception for Postfix.
You can allow connections to the service by typing:
sudo ufw allow Postfix
The Postfix server component is installed and ready. Next, we will set up a client that can handle the mail that Postfix will process.
Step 5 — Setting up the Environment to Match the Mail Location
Before we install a client, we should make sure our MAIL
environmental variable is set correctly. The client will inspect this variable to figure out where to look for user’s mail.
In order for the variable to be set regardless of how you access your account (through ssh
, su
, su -
, sudo
, etc.) we need to set the variable in a few different locations. We’ll add it to /etc/bash.bashrc
and a file within /etc/profile.d
to make sure each user has this configured.
To add the variable to these files, type:
echo 'export MAIL=~/Maildir' | sudo tee -a /etc/bash.bashrc | sudo tee -a /etc/profile.d/mail.sh
To read the variable into your current session, you can source the /etc/profile.d/mail.sh
file:
source /etc/profile.d/mail.sh
Step 6 — Install and Configure the Mail Client
In order to interact with the mail being delivered, we will install the s-nail
package. This is a variant of the BSD xmail
client, which is feature-rich, can handle the Maildir format correctly, and is mostly backwards compatible. The GNU version of mail
has some limitations, such as always saving read mail to the mbox format regardless of the source format.
To install the s-nail
package, type:
sudo apt install s-nail
We should adjust a few settings. Open the /etc/s-nail.rc
file in your editor:
sudo nano /etc/s-nail.rc
Towards the bottom of the file, add the following options:
/etc/s-nail.rc
. . .
set emptystart
set folder=Maildir
set record=+sent
This will allow the client to open even with an empty inbox. It will also set the Maildir
directory to the internal folder
variable and then use this to create a sent
mbox file within that, for storing sent mail.
Save and close the file when you are finished.
Step 7 — Initialize the Maildir and Test the Client
Now, we can test the client out.
Initializing the Directory Structure
The easiest way to create the Maildir structure within our home directory is to send ourselves an email. We can do this with the s-nail
command. Because the sent
file will only be available once the Maildir is created, we should disable writing to that for our initial email. We can do this by passing the -Snorecord
option.
Send the email by piping a string to the s-nail
command. Adjust the command to mark your Linux user as the recipient:
echo 'init' | s-nail -s 'init' -Snorecord sammy
You may get the following response:
Can't canonicalize "/home/sammy/Maildir"
This is normal and may only appear when sending this first message. We can check to make sure the directory was created by looking for our ~/Maildir
directory:
ls -R ~/Maildir
You should see the directory structure has been created and that a new message file is in the ~/Maildir/new
directory:
/home/sammy/Maildir/:
cur new tmp
/home/sammy/Maildir/cur:
/home/sammy/Maildir/new:
1463177269.Vfd01I40e4dM691221.mail.example.com
/home/sammy/Maildir/tmp:
It looks like our mail has been delivered.
Managing Mail with the Client
Use the client to check your mail:
s-nail
You should see your new message waiting:
s-nail version v14.8.6. Type ? for help.
"/home/sammy/Maildir": 1 message 1 new
>N 1 sammy@example.com Wed Dec 31 19:00 14/369 init
Just hitting ENTER
should display your message:
[-- Message 1 -- 14 lines, 369 bytes --]:
From sammy@example.com Wed Dec 31 19:00:00 1969
Date: Fri, 13 May 2016 18:07:49 -0400
To: sammy@example.com
Subject: init
Message-Id: <20160513220749.A278F228D9@mail.example.com>
From: sammy@example.com
init
You can get back to your message list by typing h
, and then ENTER
:
h
s-nail version v14.8.6. Type ? for help.
"/home/sammy/Maildir": 1 message 1 new
>R 1 sammy@example.com Wed Dec 31 19:00 14/369 init
Since this message isn’t very useful, we can delete it with d
, and then ENTER
:
d
Quit to get back to the terminal by typing q
and then ENTER
:
q
Sending Mail with the Client
You can test sending mail by typing a message in a text editor:
nano ~/test_message
Inside, enter some text you’d like to email:
~/test_message
Hello,
This is a test. Please confirm receipt!
Using the cat
command, we can pipe the message to the s-nail
process. This will send the message as your Linux user by default. You can adjust the “From” field with the -r
flag if you want to modify that value to something else:
cat ~/test_message | s-nail -s 'Test email subject line' -r from_field_account user@email.com
The options above are:
-s
: The subject line of the email
-r
: An optional change to the “From:” field of the email. By default, the Linux user you are logged in as will be used to populate this field. The -r
option allows you to override this.
user@email.com
: The account to send the email to. Change this to be a valid account you have access to.
You can view your sent messages within your s-nail
client. Start the interactive client again by typing:
s-nail
Afterwards, view your sent messages by typing:
file +sent
You can manage sent mail using the same commands you use for incoming mail.
Conclusion
You should now have Postfix configured on your Ubuntu 18.04 server. Managing email servers can be a tough task for beginning administrators, but with this configuration, you should have basic MTA email functionality to get you started.