If you run your own website, email server or other services like OwnCloud at home then you may find yourself in need of a SSL certificate. When you install Apache, it generates a self-signed "snakeoil" certificate that can be used to encrypt your session. However, while this certificate is useful for testing purposes, it falls short in a couple of important ways:
- The snakeoil certificate has not been signed by an authority that your browser trusts, so your browser will throw an error when you connect.
- The common name on the certificate probably doesn't match your domain name. Another browser error.
- Short of manually inspecting the certificate's checksum, you have no guarantee that you are communicating with your own server - it could easily be an imposter using another self-signed certificate.
This tutorial will show you how to generate your own SSL certificate, and get it signed by the community driven SSL certificate signing authority CAcert. Once you have imported the certificate into your browser or into your operating system's root filesystem, your computer will automatically verify the identity of the server and you will enjoy error-free secure communications. Oh, and CAcert is free of charge!
Before we start: a quick note about filename extensions
As far as I can tell, Linux is not at all bothered about what you name your certificate and certificate key files. You could use the .magic extension for your cert if you liked and it would probably still work. From what I've read, file name extensions seem to only matter on Windows, whereas on Linux they're just descriptive.
However, it's probably worth noting that there are lots of different types of certificate encoding styles, which have been summarised neatly here. Some extensions such as .pem and .der imply that the file is encoded in a certain way.
Since we are able to choose whatever extension we like, I've chosen the following:
- .csr for the certificate signing request (CSR)
- .crt for the signed certificate file
- .key for the key file
These have the benefit of not implying any particular encoding. The first time I did this on my Pi, I used .pem for everything and got in a muddle, forgetting which file was which. This should make things much easier!
Generate your certificate
We are going to use a two step process to generate your certificate. First, run this command, which will generate a private key:
openssl genrsa -out <filename for your private key>.key 4096
Now we will generate a new certificate signing request (CSR) from your private key:
openssl req -new -key <filename for your private key>.key -out <filename for the CSR>.csr
This stage requires user input, a series of questions about what information you would like to be on the certificate. Since CAcert is an automated service, it discards most of the information on the certificate (so that it doesn't certify the information it is unable to verify), leaving only the essentials: the email address and the common name. Here is the information you will be asked for:
- Country Name (use a two letter code e.g. GB)
- State or Province Name (e.g. Surrey)
- Locality Name (e.g. Guildford)
- Organisational Name (e.g. Sam Hobbs' Personal Website)
- Organisational Unit Name (e.g. Website)
- Common Name (your domain name - see note below - e.g. samhobbs.co.uk)
- Email Address (the contact address for your administrator e.g. firstname.lastname@example.org)
Don't set a password - leave it blank when asked. We will keep the key file private by setting appropriate permissions.
The common name is important here: most websites rewrite
https://www. or vice versa. If your website is available at
https://yourdomain.com then you should use
yourdomain.com as the common name; if your website is at
https://www.yourdomain.com then your common name should be
*.yourdomain.com (the wildcard will match any subdomain, meaning you can use the same cert for
https://www.yourdomain.com, which is handy).
Personally, I use a wildcard certificate. If you were paying for a normal certificate authority to sign your certificate then a wildcard cert would be more expensive, but CAcert is of course free so you might as well take advantage of it!
Install the CAcert root certificate
Every operating system comes pre-loaded with a set of certificates that are seen as trusted by the OS. This includes certificates from verisign and other big name certificate signing authorities. Very few OSes trust CAcert by default, although a couple of Linux distributions do.
The CAcert website provides https using a certificate that was signed by the CAcert root. Since you are going to be sending sensitive information to the website during registration, it makes sense to install the CAcert root certificate now so that you can use the site without browser errors.
To install the CAcert root certificate from the commandline, you can use these commands:
cd ~ wget http://www.cacert.org/certs/root.txt sudo cp root.txt /etc/ssl/certs/cacert-root.crt
Those commands will download the CAcert root certificate into your home directory, and then copy it to your certificates folder.
If you look in your certs directory (
ls -l /etc/ssl/certs) you will see that all of the certs have sensible certificate names like GeoTrust_Global_CA.pem, but there are also a load of symbolic links with names like 2c543cd1.0 that point to the certificate files with the human readable names.
Those symlink names like 2c543cd1.0 are hashes of the certificate files, and are there to enable programs on your computer to quickly check whether the root certificate is in your computer's certificate directory or not. Some programs manage to recognise that the certificate is installed just fine without the symlinks, but some of them do not. Openssl is one of the ones that doesn't.
So, we need to make use of one more command to create a symlink for the newly installed cacert-root.crt (this will also refresh the symlinks for the rest of the certs in the folder):
sudo c_rehash /etc/ssl/certs
Now that the CAcert root cert is installed, almost all software on your system will recognise it (chromium, rekonq etc.). The exception to this is Mozilla software such as the Firefox web browser and Thunderbird email client. Mozilla software has its own certificate database, which has both advantages and disadvantages. For example, if you're using a system where you don't have admin rights, you can still easily import the CAcert root to Firefox. The disadvantage is that if you are an administrator, you can't do a one-stop installation: you have to import it separately to Firefox.
To install the certs, open Firefox and navigate to the root certificate downloads page and click on the links for the class 1 and class 3 .pem encoded root certificates. You will be prompted to decide whether to import them or not.
To install to Android, follow this tutorial of mine.
Required Email Address
CAcert verifies that you own the domain it is signing a certificate for by sending a verification link to one of the following email addresses:
You therefore need to be able to receive email to one of these addresses. You can set up your own email server, or failing that some domain name registrars provide email forwarding capabilities.
If you used my tutorials to set up your email server then you may want to add some aliases to your server so that emails to those addresses above are delivered to your username. Here's how:
/etc/aliases and add:
postmaster: yourusername webmaster: yourusername root: yourusername
Now run this command to load the new aliases:
And reload Postfix:
sudo service postfix reload
Submitting the CSR to CAcert
First things first, you will need to go to the CAcert website and create an account:
Please note that CAcert has signed its own SSL certificate, so your browser may throw an error if you haven't imported the root cert yet.
After you have created your account and logged in, navigate to server certificates --> new.
On your server, use
cat to print the the Certificate Signing Request (CSR) you created earlier and then copy & paste it into the box:
cat <filename for the CSR>.csr
...and click submit.
The result will be displayed on screen, and you will also be emailed the certificate. Copy and paste it into a file with the .crt extension, e.g. using nano:
sudo nano <path to your cert>.crt
...then CTRL+SHIFT+V to paste, CTRL+X, save when prompted.
Note: the BEGIN CERTIFICATE and END CERTIFICATE lines are part of the cert, so copy those too!
Certificate File Locations
Assuming your certificates and key file are in your home directory, it's a good idea to move them to the proper locations
- Your key file should be stored at
- Your certificate file should be stored at
- You can get rid of your CSR, or keep it for reference if you like.
Permissions & Ownership
Your key file is secret. It should be owned by root, and your permissions should be set so that only the root user can read and write to it.
This command will set it to be owned by root:
sudo chown root:root /etc/ssl/private/samhobbs.key
And this command will set it so that only the root user can read and modify it:
sudo chmod 600 /etc/ssl/private/samhobbs.key
Most services like Apache, Postfix etc. require root privileges to start up. They read the certs when they start and store them in RAM, so that they can still use them when they drop to their normal users ( e.g. www-datafor Apache).
Unlike your key file, your signed certificate file is not a secret (it is sent to users when establishing a secure session). You want all users to be able to read the cert, but only the root user to have write access to it.
As before, this command will set it to be owned by root:
sudo chown root:root /etc/ssl/certs/samhobbs.crt
And this command will set it to be readable by everyone, but only modified by root:
sudo chmod 644 /etc/ssl/certs/samhobbs.crt
Some common SSL cert configuration parameters: Apache, Postfix, Dovecot
This section is a quick reference for where to find SSL parameters for Apache, Postfix and Dovecot.
You can tell Apache to use a specific certificate file in your SSL virtualhost configuration (e.g
/etc/apache2/sites-available/default-ssl) with these parameters:
SSLEngine on SSLCertificateFile /etc/ssl/certs/samhobbs.crt SSLCertificateKeyFile /etc/ssl/private/samhobbs.key
Then reload Apache:
sudo service apache2 reload
Postfix' SSL cert configuration can be found in
...and reload Postfix:
sudo service postfix reload
Dovecot's SSL configuration is in
ssl_cert = </etc/ssl/certs/samhobbs.crt ssl_key = </etc/ssl/private/samhobbs.key
NB: the < at the start of the path isn't an error, if you miss it out Dovecot won't load.
sudo service dovecot reload
Hopefully you found that useful! If you have anything to add or a question, please feel free to leave a comment!