Short-lived certificates (legacy)
Cloudflare Access can replace traditional SSH keys with short-lived certificates issued to your users based on the token generated by their Access login. In traditional models, users generate an SSH keypair and administrators grant access to individual SSH servers by deploying their users’ public keys to those servers. These SSH keys can remain unchanged on these servers for months or years. Cloudflare Access removes the burden of managing SSH keys, while also improving security by replacing long-lived SSH keys with ephemeral SSH certificates.
1. Secure the server behind Cloudflare Access
Cloudflare Access short-lived certificates can work with any modern SSH server, whether it is behind Access or not. However, we recommend putting your server behind Access for added security and features, such as auditability and browser-based terminals.
To secure your server behind Cloudflare Access:
- Connect the server to Cloudflare as a public hostname route.
- Create a self-hosted Access application for the server.
2. Ensure Unix usernames match user SSO identities
Cloudflare Access will take the identity from a token and, using short-lived certificates, authorize the user on the target infrastructure.
The simplest setup is one where a user’s Unix username matches their email address prefix. Issued short-lived certificates will be valid for the user’s email address prefix. For example, if a user in your Okta or GSuite organization is registered as jdoe@example.com
, they would log in to the SSH server as jdoe
.
For testing purposes, you can run the following command to generate a Unix user on the machine:
Advanced setup: Differing usernames
SSH certificates include one or more principals
in their signature which indicate the Unix usernames the certificate is allowed to log in as. Cloudflare Access will always set the principal to the user’s email address prefix. For example, when jdoe@example.com
tries to connect, Access issues a short-lived certificate authorized for the principal jdoe
.
By default, SSH servers authenticate the Unix username against the principals listed in the user’s certificate. You can configure your SSH server to accept principals that do not match the Unix username.
Username matches a different email
To allow jdoe@example.com
to log in as the user johndoe
, add the following to the server’s /etc/ssh/sshd_config
:
This tells the SSH server that, when someone tries to authenticate as the user johndoe
, check their certificate for the principal jdoe
. This would allow the user jdoe@example.com
to sign into the server with a command such as:
Username matches multiple emails
To allow multiple email addresses to log in as vmuser
, add the following to the server’s /etc/ssh/sshd_config
:
This tells the SSH server to load a list of principles from a file. Then, in /etc/ssh/vmusers-list.txt
, list the email prefixes that can log in as vmuser
, one per line:
Username matches all users
To allow any Access user to log in as vmuser
, add the following command to the server’s /etc/ssh/sshd_config
:
This command takes the certificate presented by the user and authorizes whatever principal is listed on it.
Allow all users
To allow any Access user to log in with any username, add the following to the server’s /etc/ssh/sshd_config
:
Since this will put the security of your server entirely dependent on your Access configuration, make sure your Access policies are correctly configured.
3. Generate a short-lived certificate public key
-
In Zero Trust, go to Access > Service auth > SSH.
-
In the Application dropdown, choose the Access application that represents your SSH server.
-
Select Generate certificate. A row will appear with a public key scoped to your application.
-
Save the key or keep it somewhere convenient for configuring your server. You can return to copy this public key any time in the Service Auth dashboard.
4. Save your public key
- Copy the public key generated from the dashboard in Step 3.
-
Use the following command to change directories to the SSH configuration directory on the remote target machine:
-
Once there, you can use the following command to both generate the file and open a text editor to input/paste the public key.
-
In the
ca.pub
file, paste the public key without any modifications.The
ca.pub
file can hold multiple keys, listed one per line. Empty lines and comments starting with#
are also allowed. -
Save the
ca.pub
file. In some systems, you may need to use the following command to force the file to save depending on your permissions:
5. Modify your SSHD config
The following procedure makes two changes to the sshd_config
file on the remote target machine. The first change requires that you uncomment a field already set in most default configurations; the second change adds a new field.
-
While staying within the
/etc/ssh
directory on the remote machine, open thesshd_config
file. -
Go to the row named
PubkeyAuthentication
. In most default configurations, the row will appear commented out as follows: -
Remove the
#
symbol to uncomment the line; keep the settingyes
enabled. -
Next, add a new line below
PubkeyAuthentication
as follows:Save the file and quit the editor. You might need to use the following command again to save and exit.
6. Restart your SSH server
Once you have modified your SSHD configuration, restart the SSH service on the remote machine.
For older Debian/Ubuntu versions:
For newer Debian/Ubuntu versions:
For CentOS/RHEL 6 and older:
For CentOS/RHEL 7 and newer:
7. Connect as a user
Configure your client SSH config
On the client side, configure your device to use Cloudflare Access to reach the protected machine. To use short-lived certificates, you must include the following settings in your SSH config file (~/.ssh/config
).
To save time, you can use the following cloudflared command to print the required configuration command:
If you prefer to configure manually, this is an example of the generated SSH config:
Connect through a browser-based terminal
End users can connect to the SSH session without any configuration by using Cloudflare’s browser-based terminal. Users visit the URL of the application and Cloudflare’s terminal handles the short-lived certificate flow. To enable, refer to Browser-rendered terminal.
Your SSH server is now protected behind Cloudflare Access — users will be prompted to authenticate with your identity provider before they can connect. You can also enable SSH command logging by configuring a Gateway Audit SSH policy.