Here is the article.
By Mark Drake
Introduction
Redis is an in-memory key-value store known for its flexibility, performance, and wide language support. This tutorial demonstrates how to install, configure, and secure Redis on an Ubuntu 22.04 server.
Prerequisites
To complete this guide, you will need access to an Ubuntu 22.04 server that has a non-root user with sudo
privileges and a firewall configured with ufw
. You can set this up by following our Initial Server Setup guide for Ubuntu 22.04.
Step 1 — Installing and Configuring Redis
We’ll use the APT package manager to install redis from the official Ubuntu repositories. As of this writing, the version available in the default repositories is 6.0.16.
Begin by updating your local apt
package cache:
Then install Redis by typing:
This will download and install Redis and its dependencies. Following this, there is one important configuration change to make in the Redis configuration file, which was generated automatically during the installation.
Open this file with your preferred text editor:
Inside the file, find the supervised
directive. This directive allows you to declare an init system to manage Redis as a service, providing you with more control over its operation. The supervised
directive is set to no
by default. Since you are running Ubuntu, which uses the systemd init system, change this to systemd
:
. . .
# If you run Redis from upstart or systemd, Redis can interact with your
# supervision tree. Options:
# supervised no - no supervision interaction
# supervised upstart - signal upstart by putting Redis into SIGSTOP mode
# supervised systemd - signal systemd by writing READY=1 to $NOTIFY_SOCKET
# supervised auto - detect upstart or systemd method based on
# UPSTART_JOB or NOTIFY_SOCKET environment variables
# Note: these supervision methods only signal "process is ready."
# They do not enable continuous liveness pings back to your supervisor.
supervised systemd
. . .
That’s the only change you need to make to the Redis configuration file at this point, so save and close it when you are finished. If you used nano
to edit the file, do so by pressing CTRL + X
, Y
, then ENTER
.
Then, restart the Redis service to reflect the changes you made to the configuration file:
With that, you’ve installed and configured Redis and it’s running on your machine. Before you begin using it, though, it’s prudent to first check whether Redis is functioning correctly.
Step 2 — Testing Redis
As with any newly-installed software, it’s a good idea to ensure that Redis is functioning as expected before making any further changes to its configuration. We will go over a handful of ways to check that Redis is working correctly in this step.
Start by checking that the Redis service is running:
If it is running without any errors, this command will produce output similar to the following:
Output● redis-server.service - Advanced key-value store
Loaded: loaded (/lib/systemd/system/redis-server.service; enabled; vendor preset: enabled)
Active: active (running) since Wed 2022-04-20 20:40:52 UTC; 4s ago
Docs: http://redis.io/documentation,
man:redis-server(1)
Main PID: 2899 (redis-server)
Status: "Ready to accept connections"
Tasks: 5 (limit: 2327)
Memory: 2.5M
CPU: 65ms
CGroup: /system.slice/redis-server.service
└─2899 "/usr/bin/redis-server 127.0.0.1:6379
. . .
This output indicates that Redis is running and is already enabled, meaning that it is set to start up every time the server boots.
Note: This setting is desirable for many common use cases of Redis. If, however, you prefer to start up Redis manually every time your server boots, you can configure this with the following command:
To test that Redis is functioning correctly, connect to the server using redis-cli
, Redis’s command-line client:
In the prompt that follows, test connectivity with the ping
command:
OutputPONG
This output confirms that the server connection is still alive. Next, check that you’re able to set keys by running:
OutputOK
Retrieve the value by typing:
Assuming everything is working, you will be able to retrieve the value you stored:
Output"It's working!"
After confirming that you can fetch the value, exit the Redis prompt to get back to the shell:
As a final test, we will check whether Redis is able to persist data even after it’s been stopped or restarted. To do this, first restart the Redis instance:
Then connect with the command-line client again:
And confirm that your test value is still available
The value of your key should still be accessible:
Output"It's working!"
Exit out into the shell again when you are finished:
With that, your Redis installation is fully operational and ready for you to use. However, some of its default configuration settings are insecure and provide malicious actors with opportunities to attack and gain access to your server and its data. The remaining steps in this tutorial cover methods for mitigating these vulnerabilities, as prescribed by the official Redis website. Although these steps are optional and Redis will still function if you choose not to follow them, it is strongly recommended that you complete them in order to harden your system’s security.
Step 3 — Binding to localhost
By default, Redis is only accessible from localhost. However, if you installed and configured Redis by following a different tutorial than this one, you might have updated the configuration file to allow connections from anywhere. This is not as secure as binding to localhost.
To correct this, open the Redis configuration file for editing:
Locate this line and make sure it is uncommented (remove the #
if it exists):
. . .
bind 127.0.0.1 ::1
. . .
Save and close the file when finished (press CTRL + X
, Y
, then ENTER
).
Then, restart the service to ensure that systemd reads your changes:
To check that this change has gone into effect, run the following netstat
command:
Outputtcp 0 0 127.0.0.1:6379 0.0.0.0:* LISTEN 14222/redis-server
tcp6 0 0 ::1:6379 :::* LISTEN 14222/redis-server
Note: The netstat
command may not be available on your system by default. If this is the case, you can install it (along with a number of other handy networking tools) with the following command:
This output shows that the redis-server
program is bound to localhost (127.0.0.1
), reflecting the change you just made to the configuration file. If there is another IP address in that column (0.0.0.0
, for example), then you should double check that you uncommented the correct line and restart the Redis service again.
Now that your Redis installation is only listening in on localhost, it will be more difficult for malicious actors to make requests or gain access to your server. However, Redis isn’t currently set to require users to authenticate themselves before making changes to its configuration or the data it holds. To remedy this, Redis allows you to require users to authenticate with a password before making changes via the Redis client (redis-cli
).
Step 4 — Configuring a Redis Password
Configuring a Redis password enables one of its two built-in security features — the auth
command, which requires clients to authenticate to access the database. The password is configured directly in Redis’s configuration file, /etc/redis/redis.conf
, so open that file again with your preferred editor:
Scroll to the SECURITY
section and find a commented directive that reads:
. . .
# requirepass foobared
. . .
Uncomment it by removing the #
, and change foobared
to a secure password.
Note: Above the requirepass
directive in the redis.conf
file, there is a commented warning:
. . .
# Warning: since Redis is pretty fast an outside user can try up to
# 150k passwords per second against a good box. This means that you should
# use a very strong password otherwise it will be very easy to break.
#
. . .
Thus, it’s important that you specify a very strong and very long value as your password. Rather than make up a password yourself, you can use the openssl
command to generate a random one, as in the following example. By piping the output of the first command to the second openssl
command, as shown here, it will remove any line breaks produced by that the first command:
This command will return output like this:
OutputRBOJ9cCNoGCKhlEBwQLHri1g+atWgn4Xn4HwNUbtzoVxAYxkiYBi7aufl4MILv1nxBqR4L6NNzI0X6cE
After copying and pasting the output of that command as the new value for requirepass
, it should read:
/etc/redis/redis.confrequirepass RBOJ9cCNoGCKhlEBwQLHri1g+atWgn4Xn4HwNUbtzoVxAYxkiYBi7aufl4MILv1nxBqR4L6NNzI0X6cE
After setting the password, save and close the file. Then restart Redis:
To test that the password works, open up the Redis client:
The following shows a sequence of commands used to test whether the Redis password works. The first command tries to set a key to a value before authentication:
That won’t work because you didn’t authenticate, so Redis returns an error:
Output(error) NOAUTH Authentication required.
The next command authenticates with the password specified in the Redis configuration file:
Redis acknowledges:
OutputOK
After that, running the previous command again will succeed:
OutputOK
get key1
queries Redis for the value of the new key.
Output"10"
After confirming that you’re able to run commands in the Redis client after authenticating, you can exit redis-cli
:
Next, we’ll go over renaming Redis commands which, if entered by mistake or by a malicious actor, could have serious impacts on your data.
Step 5 — Renaming Dangerous Commands
The other security feature built into Redis involves renaming or completely disabling certain commands that are considered dangerous.
When run by unauthorized users, such commands can be used to reconfigure, destroy, or otherwise wipe your data. Like the authentication password, renaming or disabling commands is configured in the same SECURITY
section of the /etc/redis/redis.conf
file.
Some of the commands that are considered dangerous include: FLUSHDB
, FLUSHALL
, KEYS
, PEXPIRE
, DEL
, CONFIG
, SHUTDOWN
, BGREWRITEAOF
, BGSAVE
, SAVE
, SPOP
, SREM
, RENAME
, and DEBUG
. This is not a comprehensive list, but renaming or disabling all of the commands in that list is a good starting point for enhancing your Redis server’s security.
Whether you should disable or rename a command depends on your specific needs or those of your site. If you know you will never use a command that could be abused, then you may disable it. Otherwise, it might be in your best interest to rename it.
To rename or disable Redis commands, open the configuration file once more:
Warning: The following steps showing how to disable and rename commands are examples. You should only choose to disable or rename the commands that make sense for you. You can review the full list of commands for yourself and determine how they might be misused at redis.io/commands.
To disable a command, rename it to an empty string (signified by a pair of quotation marks with no characters between them), as shown below:
. . .
# It is also possible to completely kill a command by renaming it into
# an empty string:
#
rename-command FLUSHDB ""
rename-command FLUSHALL ""
rename-command DEBUG ""
. . .
To rename a command, give it another name as shown in the examples below. Renamed commands should be difficult for others to guess, but easy for you to remember:
. . .
# rename-command CONFIG ""
rename-command SHUTDOWN SHUTDOWN_MENOT
rename-command CONFIG ASC12_CONFIG
. . .
Save your changes and close the file.
After renaming a command, apply the change by restarting Redis:
To test the new command, enter the Redis command line:
Then, authenticate:
OutputOK
Let’s assume that you renamed the CONFIG
command to ASC12_CONFIG
, as in the preceding example. First, try using the original CONFIG
command. It should fail, because you’ve renamed it:
Output(error) ERR unknown command `config`, with args beginning with:
Calling the renamed command, however, will be successful. It is not case-sensitive:
Output1) "requirepass"
2) "your_redis_password"
Finally, you can exit from redis-cli
:
Note that if you’re already using the Redis command line and then restart Redis, you’ll need to re-authenticate. Otherwise, you’ll get this error if you type a command:
OutputNOAUTH Authentication required.
Warning: Regarding the practice of renaming commands, there’s a cautionary statement at the end of the SECURITY
section in /etc/redis/redis.conf
which reads:
. . .
# Please note that changing the name of commands that are logged into the
# AOF file or transmitted to replicas may cause problems.
. . .
Note: The Redis project chooses to use the terms “master” and “slave,” while DigitalOcean generally prefers the alternatives “primary” and “secondary.” In order to avoid confusion we’ve chosen to use the terms used in the Redis documentation here.
That means if the renamed command is not in the AOF file, or if it is but the AOF file has not been transmitted to slaves, then there should be no problem.
So, keep that in mind when you’re trying to rename commands. The best time to rename a command is when you’re not using AOF persistence, or right after installation, that is, before your Redis-using application has been deployed.
When you’re using AOF and dealing with a master-slave installation, consider this answer from the project’s GitHub issue page. The following is a reply to the author’s question:
The commands are logged to the AOF and replicated to the slave the same way they are sent, so if you try to replay the AOF on an instance that doesn’t have the same renaming, you may face inconsistencies as the command cannot be executed (same for slaves).
Thus, the best way to handle renaming in cases like that is to make sure that renamed commands are applied to all instances in master-slave installations.
Conclusion
In this tutorial, you installed and configured Redis, validated that your Redis installation is functioning correctly, and used its built-in security features to make it less vulnerable to attacks from malicious actors.
Keep in mind that once someone is logged in to your server, it’s very easy to circumvent the Redis-specific security features we’ve put in place. Therefore, the most important security feature on your Redis server is your firewall (which you configured if you followed the prerequisite Initial Server Setup tutorial), as this makes it extremely difficult for malicious actors to jump that fence.
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