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= SMTP Encryption =
= Email services components =
 
Originally there was only one "email" protocol: SMTP. It was designed to address, route, and receive messages for a destination user on a destination server. Later an extra couple of protocols (POP3 and IMAP) were developed so that people wouldn't have to read their email on the command-line on the SMTP server. Now there are many components, making a powerful, reliable, but complex system. Here's a simplified diagram of what typically happens when you send an email to someone else:
One thing we haven't spent time on last week is the connection from your email client to your email server. This will very often be on a very untrusted network, such as a free wifi network you found in some random place.
 
In this lab we'll set up your MTA to accept encrypted incomming connections, so that it won't matter what sort of network your workstation computer or phone is connected to.


[[File:Email-servers.png|800px|border|center]]
[[File:Email-servers.png|800px|border|center]]


Sadly today there is still no widespread means to encrypt MTA->MTA SMTP connections, which means that fundamentally you cannot trust that your email hasn't been read or modified in transit. This is a problem we can't solve in this course, but we don't need to because it's a very large, global problem. A fix would require every single email server out there to comply with a brand new specfication which hasn't even been developed yet.
By the end of this course you should be familiar enough with all these components to be able to speak about them comfortably.
 
== Generate encryption keys ==
 
You can't use the keys you've generated in [[OPS345_Lab_5 | lab 5]] because they were tied to the hostname youruserid.ops345.ca, and the email server has a different FQDN: email.youruserid.ops345.ca.
 
* Use certbot again on your workstation to generate a key pair for email.youruserid.ops345.ca. Look at the lab 5 notes if you need a reminder for how to do it. But don't overwrite your web server's keys by mistake.
* Copy your new private key to ~yourusername/ops345/keys/certbot/'''email.yourusername.ops345.ca.key.pem''' on the workstation, for safekeeping.
* Copy your new certificate to ~yourusername/ops345/keys/certbot/'''email.yourusername.ops345.ca.cert.pem''' on the workstation, for safekeeping.
** Make sure the keys are owned by your regular user, not root.
* Copy the two keys into the appropriate directories (/etc/pki/tls/certs/ and /etc/pki/tls/private/) on your email server.
 
== Configure Postfix ==
 
As you did with Apache: you need to tell the email server (Postfix) to use your keys for encryption. There are also some other options you need to specify. None of these are in main.cf by default, so you can copy-paste them from here:
 
<pre># Settings to enable secure SMTP using my key and certificate:
smtpd_tls_auth_only = no
smtpd_use_tls = yes
smtp_use_tls = yes
smtpd_tls_key_file = /etc/pki/tls/private/email.yourusername.ops345.ca.key.pem
smtpd_tls_cert_file = /etc/pki/tls/certs/email.yourusername.ops345.ca.cert.pem
tls_random_source = dev:/dev/urandom
smtpd_tls_loglevel = 1
</pre>
 
* After you restart Postfix and make sure it hasn't crashed due to a typo in the config file: test it. Use telnet to connect to it and look for 250-STARTTLS in its reply to your EHLO:
 
{{Admon/important|Lame ISPs|I only know one ISP lame enough to block outgoing connections to port 25 for their customers (Rogers). But there may be others. If you're having a problem establishing the following connection: try connecting to Seneca's SMTP server first. If that doesn't work: skip this test.}}
 
[[File:AWSPostfix250Starttls.png|border|center]]
 
That implies that your Postfix server is capable of setting up encrypted connections. We will test this later in the lab using Thunderbird.
 
= IMAP server: Dovecot =
 
SMTP is used for sending and receiving email. But eventually you want to read your emails, move them to another folder, delete them, etc. To do that you need to use another protocol, and the most common one for that purpose is IMAP.
 
We'll use Dovecot as an IMAP server. You already installed it on your email server in the previous lab, now you'll configure it. It doesn't take much, you need to edit just a couple of files:
 
* /etc/dovecot/dovecot.conf:
** Set '''protocols''' so that Dovecot provides IMAP service only.
* /etc/dovecot/conf.d/10-ssl.conf:
** Set '''ssl_cert''' to point to your certificate
** Set '''ssl_key''' to point to your pricate key


Note that these are the same keys you used for Postfix. Sharing keys beteween services is not a problem - they are tied to each other and the FQDN, not the service that uses them.
We'll set up an SMTP server in this lab and an IMAP server in the next lab.


* Start the Dovecot service and make sure it starts automatically on boot.
= New VM: email =
* Use '''ss''' to confirm that Dovecot listens on ports 143 and 993, not 110 or 995 (those are POP3 ports).
* Fix the appropriate firewall to allow your IMAP service to be accessed from anywhere on the internet via port 993 only. Port 143 is for plain-text IMAP.
* Confirm with telnet on your workstation that you are able to connect to port 993. No need to type in any commands into that test connection.


= Email client: Thunderbird =
* Create a new VM, similar to the www VM you created earlier. Make sure that it:
** Named '''email'''
** AMI version '''Amazon Linux 2023'''
** Is in '''vpc-ops345''' (where no public IP address should be assigned by default).
** In the subnet '''subnet-ops345'''
** Is in a new security group named '''ops345emailsg''', which will allow SSH acccess from the router only and SMTP access from anywhere.
** Has the IP address '''10.3.45.12'''
** Gets an extra '''4GB EBS''' volume.
* After it starts: do some configuration you should be very comfortable with by now:
** Set up port forwarding on the router so you can SSH to email via port 2212 on the router. The email server is going to have its own public IP, but remember we're pretending that we're monitoring all SSH traffic using special software on the router machine.
** Create a new user and delete ec2-user.
** Set the hostname to '''email.yoursenecaid.ops345.ca'''
** Allocate a new, permanent static IP named '''email_public_ip''' and associate it with your email server.


Now that you have both an SMTP and an IMAP server running: it's time to set up an email client, we're going to use Thunderbird.
== DNS records ==


* Install Thunderbird on your workstation.
Email used as you're used to it requires a couple of DNS entries. One A record for the server, and on MX record for your domain.
* Set a password for your regular user on the email VM. Remember that this is a live system on the internet, and that you're responsible for keeping it secure. So don't use P@ssword1! or any other weak password.


== Reading email ==
* Log in to your [http://ops345.ca Bindistrar].
* Create an A record for email.yoursenecaid.ops345.ca with the static IP you assigned to your email server. This is just a typical A record.
* Create an MX record with the value email.yoursenecaid.ops345.ca.
** This record is for other people's email servers who want to send email to anyone@yoursenecaid.ops345.ca
** It specifies that the receiving SMTP server for yoursenecaid.ops345.ca is email.yoursenecaid.ops345.ca
** The priority is there for when you have one or more backup email servers. You would if this email server were important, but in this course you don't so you can pick any number for the priority.


* Create a new account in Thunderbird. You'll need to do a manual/advanced setup. Note that:
Remember that DNS records are cached, so if you make a mistake: you'll need for the TTL to expire before you can test your updated records. One way too give yourself two chances to get it right is to first test your MX record on the router. Then if it's wrong: you can test your second attempt on your workstation before the TTL expires on the router's caching DNS server.
** Your email address is @youruserid.ops345.ca but the email servers are email.youruserid.ops345.ca
** TLS over port 993, with normal password authentication is used for IMAP
** STARTTLS over port 25, with normal password authentication is used for SMTP
** Your username does not include the @youruserid.ops345.ca part


[[File:AWSThunderbirdSetup.png|border|center]]
* Test your MX record on the router:


* Don't accept any security exceptions. Your certificates are supposed to be signed by Let's Encrypt, whose public key comes with Thunderbird.
[[File:AWSDigEmail.png|border|center]]
* If you make a mistake: you can always remove the account you created (and the SMTP server) from Thunderbird and start over again.
* There should be an email or two in your inbox from the previous email lab. You can delete it and see that it goes in the Trash folder. Try to find this message in your Maildir. It's in a hiden directory.
* For example in this screenshot I looked at my Maildir after I deleted the email with the subejct "test2" but left "test1" in the inbox:


[[File:AWSMaildirTrash.png|600px|border|center]]
== Storage ==


== Sending email ==
For the www VM we set up an external storage device so that we wouldn't lose our website if the server was damaged or deleted. We'll do the same for the email VM. You can look back at lab 3 if you need a reminder for how to do the following steps.


Currently your Postfix setup does not require authentication. That means Postfix has no idea who you are when you connect to it via Thunderbird, and it will refuse to send email for you.
* Create a volume group '''vg_email''' with the second drive as the only physical volume.
* Create a logical volume '''lv_email'''


* Run tail -f /var/log/maillog on your email server and try to send an email from Thunderbird to an external address. That way you can see in the logs why it didn't work:
{{Admon/important|Don't get locked out|With the setup we're building all the emails will be stored in each user's home directory. That means '''lv_email''' will need to be mounted on '''/home'''. That makes it tricky because other important things (like your SSH keys) are stored under /home as well, so be careful with the following steps, you may end up locking yourself out of your VM, and you'll have to rebuild it.}}


[[File:AWSThunderbirdSendFailed.png|600px|border|center]]
* Create a temporary directory /tmp/home and mount lv_email there.
* Move all the contents of /home to /tmp/home
* Edit your fstab to make sure lv_email gets mounted automatically on /home when your system boots.
* Hold your breath and reboot. If you did it right: you should be able to ssh back in and everything will look the same, except now there's a lost+found directory in /home, which tells you that there's a filesystem mounted on there.


[[File:AWSPostfixRelayDenied.png|600px|border|center]]
== SMTP server: Postfix ==


The fact that your connection is encrypted does not imply that you have been authenticated. There is more than one way to accomplish the needed authentication, we're going to link it to Dovecot SASL as described in [https://www.xmodulo.com/enable-user-authentication-postfix-smtp-server-sasl.html this Xmodulo guide]. Note that we already have the SSL/TLS parameters set up for Postfix so that part of the tutorial doesn't apply to us.
There are many SMTP server software on Linux to choose from. Postfix is the most used commonly used so that's the one we're going to use. It can be configured to do all sorts of advanced and interesting things, but we'll keep it simple. Once you feel less overwhelmed with all the exotic configuration options: it will help you to read the description of what those options do, over time the meaning of those comments will become more and more clear.


* Add this to the bottom of /etc/dovecot/conf.d/10-master.conf:<syntaxhighlight lang="vim">## The listener is added under the service auth section ##
* Postfix is not installed by default on Amazon Linux 2023, install it using yum.
service auth {
* Then start it and make sure it starts automatically on boot.
    unix_listener /var/spool/postfix/private/auth {
    mode = 0660
        user = postfix
          group = postfix
    } ##end listener
} ## end service auth</syntaxhighlight>
* Modify the auth_mechanisms in /etc/dovecot/conf.d/10-auth.conf to include "login"<pre>auth_mechanisms = plain login</pre>
* Restart Dovecot and check that:
** It started successfully.
** The file /var/spool/postfix/private/auth has been created, and is owned by "postfix".


Now configure Postfix to use Dovecot as a user authentication mechanism:
In the default configuration Postfix only listens on localhost, it will not accept inbound connections to port 25 even if the firewall allows access to that port.


* Edit /etc/postfix/main.cf and add this to the end:<syntaxhighlight lang="vim">#### SASL ####
* Use the '''ss''' command to see what ports are open (i.e. there is a service listening on that port):
## specify SASL type ##
[[File:AWSssSMTPlocalhost.png|800px|border|center]]
smtpd_sasl_type = dovecot
* Edit '''/etc/postfix/main.cf''' and change four of the options:
** Set '''mydomain''' to yoursenecaid.ops345.ca
** Set '''myorigin''' to $mydomain. This is appended to your username when you send email directly from the server. It doesn't have to be the same as $mydomain, but it makes sense for it to be the same in most cases.
** Set '''inet_interfaces''' to all. This will configure Postfix to listen for external incomming connections, rather than just connections from localhost.
** Change '''mydestination''' to include $mydomain. This will tell postfix that when it sees an email for anyone@yoursenecaid.ops345.ca: it should deliver it rather than forward it to a different SMTP server.
* Restart the Postfix service. Check the service status, /var/log/messages, and /var/log/maillog to confirm that it restarted successfully.
* Run '''ss''' again, learn to see the difference between a service that listens on localhost and a service that listens on all interfaces:
[[File:AWSSsSMTPOpen.png|800px|border|center]]


## path to the SASL socket relative to postfix spool directory i.e. /var/spool/postfix ##
=== Test receiving email ===
smtpd_sasl_path = private/auth


## postfix appends the domain name for SASL logins that do not have the domain part ##
People often think of SMTP servers as "sending" servers, but they are responsible for receiving email too. Since setting up a full email client involves many steps, and at least two services: we'll test access to the SMTP server manually.
smtpd_sasl_local_domain = example.tst


## SASL default policy ##
* See if you can connect from your workstation to your SMTP server using telnet. If the connection is successful: run a single SMTP protocol command just because you can:
smtpd_sasl_security_options = noanonymous
{{Admon/important|Lame ISPs|I only know one ISP lame enough to block outgoing connections to port 25 for their customers (Rogers). But there may be others. If you're having a problem establishing the following connection: try connecting to Seneca's SMTP server first. If that doesn't work: just skip this test.}}
[[File:AWSTelnet25-2023.png|border|center]]
* You can use the '''quit''' command or the escape sequence ^] to get out of that session.
* Now use whatever email service you want (e.g. myseneca, or your personal account) to send an email to yourusername@yourusername.ops345.ca. Note that you don't need any special configuration on the sender's email client or server. All someone needs to know to send email to you is in your server's MX record.
** Before you send it: run '''journalctl -u postfix -f''' in a terminal so you can see what happens when a message arrives. You can press enter a few times to insert some blank lines so you can more easily separate unrelated messages.[[File:AWSMaillogReceivedMail-2023.png|800px|border|center]]
** There's a lot of log for a single email. I typically look for '''from''', '''to''', and '''status=sent'''. If the status is something different: I start looking at other information.
* "Delivered to mailbox" means that Postfix decided it is the destination for this particular message and saves it where it was configured to save it.


## for legacy application compatibility ##
=== Use Maildir and dovecot-lda ===
broken_sasl_auth_clients = yes


## enable SMTP auth ##
By default Postfix saves emails in the file '''/var/mail/username''' in the MBOX format. That means all the emails you get will be appended to this file. That works fine under normal circumstances but most people don't use MBOX for serious email servers. We'll configure Postfix to save messages in the Maildir format, under each user's home directory.
smtpd_sasl_auth_enable = yes


## smtp checks ##
We'll use dovecot-lda as a LDA. It's an application that comes with the Dovecot package.
## these checks are based on first match, so sequence is important ##
smtpd_recipient_restrictions = permit_mynetworks, permit_sasl_authenticated, reject_unauth_destination
</syntaxhighlight>
* Restart Postfix, tail -f your maillog, and send your message again from Thunderbird.
* The message should appear to be sent as far as Thunderbird is aware, because the SMTP server Thunderbird is configured to use accepted that message.


{{Admon/tip|Cant send emails out from AWS EC2|Unfortunately your outgoing email will never be received at the destination, because regular AWS EC2 instances are not allowed outbound connections to port 25. There's nothing you can do to fix this, it's an AWS policy designed to prevent their services from being used as spam senders. [https://aws.amazon.com/premiumsupport/knowledge-center/ec2-port-25-throttle/ See here] for details.}}
* Install dovecot, but don't start or enable the service. Leave the Dovecot configuration for the next lab.
* Edit /etc/postfix/main.cf and add the following mailbox_command, to tell Postfix to deliver using dovecot-lda:<pre>mailbox_command = /usr/libexec/dovecot/dovecot-lda -f "$SENDER" -a "$RECIPIENT"</pre>
* Restart postfix.
* Edit /etc/dovecot/conf.d/10-mail.conf and add the following mail_location parameter, to tell dovecot-lda where to store emails it is asked to store and in which format:<pre>mail_location = maildir:~/Maildir</pre>
* No need to restart any service after changing that, dovecot-lda is executed as an application for every email that Postfix wants delivered.
* Send yourself another email and find where it ended up. The maildir format isn't meant for reading on the command-line, but you should be able to find a newly received message so that you can troubleshoot when it's not working properly.


* Do send an email to yourself (youruserid@youruserid.ops345.ca) or another user on the email server so you can see it show up in Thunderbird's inbox.
=== Aliases ===


[[File:AWSOutboundSMTPDenied.png|600px|border|center]]
Sometimes you want to receive emails which are sent to different addressed. For example the system administrator typically receives emails sent to postmaster, webmaster, hostmaster, and root. Also dovecot-lda will not deliver email to root at all as a security measure.


= Real email servers =
Create an alias to deliver emails meant for root to andrew instead:


Other than the setup you've done in this course: it would take extra work to run your own email server. You will need to as a minimum:
* Edit /etc/aliases (it's a text file).
* Set up DKIM to sign your outgoing messages.
* Uncomment the bottom line and change "mark" to your username.
* Set up SPF so that receiving SMTP servers can do an extra check that emails sent by you were sent by the correct server.
* Run "newaliases".
* Configure some kind of spam filtering, such as SpamAssasin.
* Send an email to root@yourusername.ops345.ca and make sure it ends up in your user's Maildir


= Submit evidence of your work =
= Submit evidence of your work =
Line 154: Line 116:
For this lab, please submit screenshots that show you've completed the work, unless your professor has given you different instructions. As a minimum that's:
For this lab, please submit screenshots that show you've completed the work, unless your professor has given you different instructions. As a minimum that's:


* Your Thunderbird IMAP server configuration.
* Your email VM details in the AWS console.
* Your Thunderbird SMTP server configuration.
* A dig query for your two new DNS records.
* Some messages in your inbox that you sent/received with Thunderbird's encrypted connections.
* The output of the mount command.
* The received emails in your Maildir.


[[Category:OPS345]]
[[Category:OPS345]]

Revision as of 13:11, 21 August 2023

Email services components

Originally there was only one "email" protocol: SMTP. It was designed to address, route, and receive messages for a destination user on a destination server. Later an extra couple of protocols (POP3 and IMAP) were developed so that people wouldn't have to read their email on the command-line on the SMTP server. Now there are many components, making a powerful, reliable, but complex system. Here's a simplified diagram of what typically happens when you send an email to someone else:

Email-servers.png

By the end of this course you should be familiar enough with all these components to be able to speak about them comfortably.

We'll set up an SMTP server in this lab and an IMAP server in the next lab.

New VM: email

  • Create a new VM, similar to the www VM you created earlier. Make sure that it:
    • Named email
    • AMI version Amazon Linux 2023
    • Is in vpc-ops345 (where no public IP address should be assigned by default).
    • In the subnet subnet-ops345
    • Is in a new security group named ops345emailsg, which will allow SSH acccess from the router only and SMTP access from anywhere.
    • Has the IP address 10.3.45.12
    • Gets an extra 4GB EBS volume.
  • After it starts: do some configuration you should be very comfortable with by now:
    • Set up port forwarding on the router so you can SSH to email via port 2212 on the router. The email server is going to have its own public IP, but remember we're pretending that we're monitoring all SSH traffic using special software on the router machine.
    • Create a new user and delete ec2-user.
    • Set the hostname to email.yoursenecaid.ops345.ca
    • Allocate a new, permanent static IP named email_public_ip and associate it with your email server.

DNS records

Email used as you're used to it requires a couple of DNS entries. One A record for the server, and on MX record for your domain.

  • Log in to your Bindistrar.
  • Create an A record for email.yoursenecaid.ops345.ca with the static IP you assigned to your email server. This is just a typical A record.
  • Create an MX record with the value email.yoursenecaid.ops345.ca.
    • This record is for other people's email servers who want to send email to anyone@yoursenecaid.ops345.ca
    • It specifies that the receiving SMTP server for yoursenecaid.ops345.ca is email.yoursenecaid.ops345.ca
    • The priority is there for when you have one or more backup email servers. You would if this email server were important, but in this course you don't so you can pick any number for the priority.

Remember that DNS records are cached, so if you make a mistake: you'll need for the TTL to expire before you can test your updated records. One way too give yourself two chances to get it right is to first test your MX record on the router. Then if it's wrong: you can test your second attempt on your workstation before the TTL expires on the router's caching DNS server.

  • Test your MX record on the router:
AWSDigEmail.png

Storage

For the www VM we set up an external storage device so that we wouldn't lose our website if the server was damaged or deleted. We'll do the same for the email VM. You can look back at lab 3 if you need a reminder for how to do the following steps.

  • Create a volume group vg_email with the second drive as the only physical volume.
  • Create a logical volume lv_email
Important.png
Don't get locked out
With the setup we're building all the emails will be stored in each user's home directory. That means lv_email will need to be mounted on /home. That makes it tricky because other important things (like your SSH keys) are stored under /home as well, so be careful with the following steps, you may end up locking yourself out of your VM, and you'll have to rebuild it.
  • Create a temporary directory /tmp/home and mount lv_email there.
  • Move all the contents of /home to /tmp/home
  • Edit your fstab to make sure lv_email gets mounted automatically on /home when your system boots.
  • Hold your breath and reboot. If you did it right: you should be able to ssh back in and everything will look the same, except now there's a lost+found directory in /home, which tells you that there's a filesystem mounted on there.

SMTP server: Postfix

There are many SMTP server software on Linux to choose from. Postfix is the most used commonly used so that's the one we're going to use. It can be configured to do all sorts of advanced and interesting things, but we'll keep it simple. Once you feel less overwhelmed with all the exotic configuration options: it will help you to read the description of what those options do, over time the meaning of those comments will become more and more clear.

  • Postfix is not installed by default on Amazon Linux 2023, install it using yum.
  • Then start it and make sure it starts automatically on boot.

In the default configuration Postfix only listens on localhost, it will not accept inbound connections to port 25 even if the firewall allows access to that port.

  • Use the ss command to see what ports are open (i.e. there is a service listening on that port):
AWSssSMTPlocalhost.png
  • Edit /etc/postfix/main.cf and change four of the options:
    • Set mydomain to yoursenecaid.ops345.ca
    • Set myorigin to $mydomain. This is appended to your username when you send email directly from the server. It doesn't have to be the same as $mydomain, but it makes sense for it to be the same in most cases.
    • Set inet_interfaces to all. This will configure Postfix to listen for external incomming connections, rather than just connections from localhost.
    • Change mydestination to include $mydomain. This will tell postfix that when it sees an email for anyone@yoursenecaid.ops345.ca: it should deliver it rather than forward it to a different SMTP server.
  • Restart the Postfix service. Check the service status, /var/log/messages, and /var/log/maillog to confirm that it restarted successfully.
  • Run ss again, learn to see the difference between a service that listens on localhost and a service that listens on all interfaces:
AWSSsSMTPOpen.png

Test receiving email

People often think of SMTP servers as "sending" servers, but they are responsible for receiving email too. Since setting up a full email client involves many steps, and at least two services: we'll test access to the SMTP server manually.

  • See if you can connect from your workstation to your SMTP server using telnet. If the connection is successful: run a single SMTP protocol command just because you can:
Important.png
Lame ISPs
I only know one ISP lame enough to block outgoing connections to port 25 for their customers (Rogers). But there may be others. If you're having a problem establishing the following connection: try connecting to Seneca's SMTP server first. If that doesn't work: just skip this test.
AWSTelnet25-2023.png
  • You can use the quit command or the escape sequence ^] to get out of that session.
  • Now use whatever email service you want (e.g. myseneca, or your personal account) to send an email to yourusername@yourusername.ops345.ca. Note that you don't need any special configuration on the sender's email client or server. All someone needs to know to send email to you is in your server's MX record.
    • Before you send it: run journalctl -u postfix -f in a terminal so you can see what happens when a message arrives. You can press enter a few times to insert some blank lines so you can more easily separate unrelated messages.
      AWSMaillogReceivedMail-2023.png
    • There's a lot of log for a single email. I typically look for from, to, and status=sent. If the status is something different: I start looking at other information.
  • "Delivered to mailbox" means that Postfix decided it is the destination for this particular message and saves it where it was configured to save it.

Use Maildir and dovecot-lda

By default Postfix saves emails in the file /var/mail/username in the MBOX format. That means all the emails you get will be appended to this file. That works fine under normal circumstances but most people don't use MBOX for serious email servers. We'll configure Postfix to save messages in the Maildir format, under each user's home directory.

We'll use dovecot-lda as a LDA. It's an application that comes with the Dovecot package.

  • Install dovecot, but don't start or enable the service. Leave the Dovecot configuration for the next lab.
  • Edit /etc/postfix/main.cf and add the following mailbox_command, to tell Postfix to deliver using dovecot-lda:
    mailbox_command = /usr/libexec/dovecot/dovecot-lda -f "$SENDER" -a "$RECIPIENT"
  • Restart postfix.
  • Edit /etc/dovecot/conf.d/10-mail.conf and add the following mail_location parameter, to tell dovecot-lda where to store emails it is asked to store and in which format:
    mail_location = maildir:~/Maildir
  • No need to restart any service after changing that, dovecot-lda is executed as an application for every email that Postfix wants delivered.
  • Send yourself another email and find where it ended up. The maildir format isn't meant for reading on the command-line, but you should be able to find a newly received message so that you can troubleshoot when it's not working properly.

Aliases

Sometimes you want to receive emails which are sent to different addressed. For example the system administrator typically receives emails sent to postmaster, webmaster, hostmaster, and root. Also dovecot-lda will not deliver email to root at all as a security measure.

Create an alias to deliver emails meant for root to andrew instead:

  • Edit /etc/aliases (it's a text file).
  • Uncomment the bottom line and change "mark" to your username.
  • Run "newaliases".
  • Send an email to root@yourusername.ops345.ca and make sure it ends up in your user's Maildir

Submit evidence of your work

For this lab, please submit screenshots that show you've completed the work, unless your professor has given you different instructions. As a minimum that's:

  • Your email VM details in the AWS console.
  • A dig query for your two new DNS records.
  • The output of the mount command.
  • The received emails in your Maildir.