What is the best practice of docker + ufw under Ubuntu

Question

I just tried out Docker. It is awesome but seems not work nicely with ufw. By default, docker will manipulate the iptables a little bit. The outcome is not a bug but not what I expected. For more details you can read The dangers of UFW + Docker

My goal is to set up a system like

    Host (running ufw) -> docker container 1 - nginx (as a reverse proxy)
                       -> docker container 2 - node web 1
                       -> docker container 3 - node web 2
                       -> .......

I want to manage the incoming traffic (e.g. restrict access) through ufw therefore I don't want docker to touch my iptables. Here is my test

Environment:

• a newly installed Ubuntu 14.04 (kernel: 3.13.0-53 )
• Docker 1.6.2
• ufw forwarding is enabled.( [Enable UFW forwarding] 2 )
• --iptables=false was added to the Docker daemon.

First Attempt

docker run --name ghost -v /home/xxxx/ghost_content:/var/lib/ghost -d ghost
docker run --name nginx -p 80:80 -v /home/xxxx/nginx_site_enable:/etc/nginx/conf.d:ro --link ghost:ghost -d nginx

No luck. The first command is fine but the second command will throw an error

Error response from daemon: Cannot start container

Second Attempt

Then I found this: unable to link containers with --iptables=false #12701

After running the following command, everything looks OK.

sudo iptables -N DOCKER

However, I noticed that I can not establish any outbound connections inside containers. For example:

xxxxg@ubuntu:~$ sudo docker exec -t -i nginx /bin/bash
root@b0d33f22d3f4:/# ping 74.125.21.147
PING 74.125.21.147 (74.125.21.147): 56 data bytes
^C--- 74.125.21.147 ping statistics ---
35 packets transmitted, 0 packets received, 100% packet loss
root@b0d33f22d3f4:/# 

If I remove --iptables=false from the Docker daemon, then the internet connection of containers will be back to normal but the ufw will not work 'properly' (well...by my definition).

So, what is the best practice of docker + ufw? Can anyone provide some help?

Answer 1

Problem

This problem has been around for a long time.

Disable iptables in Docker will take other problems.

Rollback changes first

If you have modified your server according to the current solution that we find on the internet, please rollback these changes first, including:

• Enable Docker's iptables feature. Remove all changes like --iptables=false , including configuration file /etc/docker/daemon.json.
• UFW's default FORWARD rule changes back to the default DROP instead of ACCEPT.
• Remove the rules related to the Docker network in the UFW configuration file /etc/ufw/after.rules.
• If you have modified Docker configuration files, restart Docker first. We will modify the UFW configuration later, and we can restart it then.

Solving UFW and Docker issues

This solution needs to modify only one UFW configuration file, all Docker configurations and options remain the default. Doesn't need to disable the docker iptables function.

Modify the UFW configuration file /etc/ufw/after.rules and add the following rules at the end of the file:

# BEGIN UFW AND DOCKER
*filter
:ufw-user-forward - [0:0]
:DOCKER-USER - [0:0]
-A DOCKER-USER -j RETURN -s 10.0.0.0/8
-A DOCKER-USER -j RETURN -s 172.16.0.0/12
-A DOCKER-USER -j RETURN -s 192.168.0.0/16

-A DOCKER-USER -j ufw-user-forward

-A DOCKER-USER -j DROP -p tcp -m tcp --tcp-flags FIN,SYN,RST,ACK SYN -d 192.168.0.0/16
-A DOCKER-USER -j DROP -p tcp -m tcp --tcp-flags FIN,SYN,RST,ACK SYN -d 10.0.0.0/8
-A DOCKER-USER -j DROP -p tcp -m tcp --tcp-flags FIN,SYN,RST,ACK SYN -d 172.16.0.0/12
-A DOCKER-USER -j DROP -p udp -m udp --dport 0:32767 -d 192.168.0.0/16
-A DOCKER-USER -j DROP -p udp -m udp --dport 0:32767 -d 10.0.0.0/8
-A DOCKER-USER -j DROP -p udp -m udp --dport 0:32767 -d 172.16.0.0/12

-A DOCKER-USER -j RETURN
COMMIT
# END UFW AND DOCKER

Using the command sudo systemctl restart ufw to restart UFW after changing the file. Now the public network can't access any published docker ports, the container and the private network can visit each other regularly, and the containers can also access the external network from inside.

If you want to allow public networks to access the services provided by the Docker container, for example, the service port of a container is 80. Run the following command to allow the public networks to access this service:

ufw route allow proto tcp from any to any port 80

This command allows the public network to access all published ports whose container port is 80.

Note: If we publish a port by using option -p 8080:80, we should use the container port 80, not the host port 8080.

If there are multiple containers with a service port of 80, but we only want the external network to access a particular container. For example, if the private address of the container is 172.17.0.2, use the following command:

ufw route allow proto tcp from any to 172.17.0.2 port 80

If the network protocol of service is UDP, for example, a DNS service, you can use the following command to allow the external network to access all published DNS services:

ufw route allow proto udp from any to any port 53

Similarly, if only for a specific container, such as IP address 172.17.0.2:

ufw route allow proto udp from any to 172.17.0.2 port 53

How it works?

The following rules allow the private networks to be able to visit each other. Typically, private networks are more trusted than public networks.

-A DOCKER-USER -j RETURN -s 10.0.0.0/8
-A DOCKER-USER -j RETURN -s 172.16.0.0/12
-A DOCKER-USER -j RETURN -s 192.168.0.0/16

The following rules allow UFW to manage whether the public networks are allowed to visit the services provided by the Docker container. So that we can manage all firewall rules in one place.

-A DOCKER-USER -j ufw-user-forward

The following rules block connection requests initiated by all public networks, but allow internal networks to access external networks. For TCP protocol, it prevents from actively establishing a TCP connection from public networks. For UDP protocol, all accesses to ports which is less then 32767 are blocked. Why is this port? Since the UDP protocol is stateless, it is not possible to block the handshake signal that initiates the connection request as TCP does. For GNU/Linux we can find the local port range in the file /proc/sys/net/ipv4/ip_local_port_range. The default range is 32768 60999. When accessing a UDP protocol service from a running container, the local port will be randomly selected one from the port range, and the server will return the data to this random port. Therefore, we can assume that the listening port of the UDP protocol inside all containers are less then 32768. This is the reason that we don't want public networks to access the UDP ports that less then 32768.

-A DOCKER-USER -j DROP -p tcp -m tcp --tcp-flags FIN,SYN,RST,ACK SYN -d 192.168.0.0/16
-A DOCKER-USER -j DROP -p tcp -m tcp --tcp-flags FIN,SYN,RST,ACK SYN -d 10.0.0.0/8
-A DOCKER-USER -j DROP -p tcp -m tcp --tcp-flags FIN,SYN,RST,ACK SYN -d 172.16.0.0/12
-A DOCKER-USER -j DROP -p udp -m udp --dport 0:32767 -d 192.168.0.0/16
-A DOCKER-USER -j DROP -p udp -m udp --dport 0:32767 -d 10.0.0.0/8
-A DOCKER-USER -j DROP -p udp -m udp --dport 0:32767 -d 172.16.0.0/12

-A DOCKER-USER -j RETURN

More

https://github.com/chaifeng/ufw-docker

sudo wget -O /usr/local/bin/ufw-docker https://github.com/chaifeng/ufw-docker/raw/master/ufw-docker
chmod +x /usr/local/bin/ufw-docker

Usage

ufw-docker help
ufw-docker install
ufw-docker status
ufw-docker allow webapp
ufw-docker allow webapp 80
ufw-docker allow webapp 53/udp
ufw-docker list webapp
ufw-docker delete allow webapp 80/tcp
ufw-docker delete allow webapp

---

Update: 2018-09-10

The reason for choosing ufw-user-forward, not ufw-user-input

using ufw-user-input

Pro:

Easy to use and understand, supports older versions of Ubuntu.

For example, to allow the public to visit a published port whose container port is 8080, use the command:

ufw allow 8080

Con:

It not only exposes ports of containers but also exposes ports of the host.

For example, if a service is running on the host, and the port is 8080. The command ufw allow 8080 allows the public network to visit the service and all published ports whose containers' port is 8080. But we just want to expose the service running on the host, or just the service running inside containers, not the both.

To avoid this problem, we may need to use a command similar to the following for all containers:

ufw allow proto tcp from any to 172.16.0.3 port 8080

using ufw-user-forward

Pro:

Cannot expose services running on hosts and containers at the same time by the same command.

For example, if we want to publish the port 8080 of containers, use the following command:

ufw route allow 8080

The public network can access all published ports whose container ports are 8080.

But the port 8080 of the host is still not be accessed by the public network. If we want to do so, execute the following command to allow the public access the port on the host separately:

ufw allow 8080

Con:

Doesn't support older versions of Ubuntu, and the command is a bit more complicated. But you can use my script https://github.com/chaifeng/ufw-docker.

Conclusion

If we are using an older version of Ubuntu, we can use ufw-user-input chain. But be careful to avoid exposing services that should not be exposed.

If we are using a newer version of Ubuntu which is support ufw route sub-command, we'd better use ufw-user-forward chain, and use ufw route command to manage firewall rules for containers.

---

Update: Oct 6, 2018

The script ufw-docker supports Docker Swarm now. Please see the latest code for more, https://github.com/chaifeng/ufw-docker

Install for Docker Swarm mode

We can only use this script on manager nodes to manage firewall rules when using in Swarm mode.

• Modifying all after.rules files on all nodes, including managers and workers
• Deploying this script on manager nodes

Running in Docker Swarm mode, this script will add a global service ufw-docker-agent. The image chaifeng/ufw-docker-agent is also automatically built from this project.

Answer 2

I've had such problem like months ago and lately decided to describe the issue along with the solution on my blog. Here's the shortcut.

Using --iptables=false won't help you much with the case you described. It's simply not enough here. By default, none of your containers can do any outgoing connection.

There's a small step you're omitting on your way to have containers behind UFW here. You can use --iptables=false or create /etc/docker/daemon.json file with content as follows

{
  "iptables": false
}

the result will be the same, but the latter option requires you to restart whole docker service with service docker restart or even do a reboot if docker had a chance to add iptables rules before you disabled this function.

When it's done, just do two more things:

$ sed -i -e 's/DEFAULT_FORWARD_POLICY="DROP"/DEFAULT_FORWARD_POLICY="ACCEPT"/g' /etc/default/ufw
$ ufw reload

so you set up default forward policy in UFW for accept, and use:

$ iptables -t nat -A POSTROUTING ! -o docker0 -s 172.17.0.0/16 -j MASQUERADE

That way what you're achieving is disabling docker messy behavior in your iptables rules and at the same time docker is provided with necessary routing so containers will do outgoing connections just fine. UFW rules will be still restricted from this point on, though.

Hope this resolves the issue for you and any that gets here in search of an answer.

I described the problem and solution more comprehensively at https://www.mkubaczyk.com/2017/09/05/force-docker-not-bypass-ufw-rules-ubuntu-16-04/

Answer 3

Not saying solutions here are wrong, but they look a bit "terrifying" and error-prune for someone looking for a quick one-step instruction. I came with this problem recently as well, have read all the similar answers online, and have not found anything quick & clear at the time of writing. Surprisingly, my alternative solution is easy to comprehend and manage, and it works: just implement your firewall outside your host machine.

• Digital Ocean has stunning Firewalls for zero extra cost, WYSIWYG style.
• AWS offers Security Groups
• etc.

Treating Firewall as first-class citizen seems to have a lot of benefits.

Answer 4

I spent two hours trying out the proposals above and from other posts. The only solution that worked was from Tsuna's post in this Github thread:

Append the following at the end of /etc/ufw/after.rules (replace eth0 with your external facing interface):

# Put Docker behind UFW
*filter
:DOCKER-USER - [0:0]
:ufw-user-input - [0:0]

-A DOCKER-USER -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT
-A DOCKER-USER -m conntrack --ctstate INVALID -j DROP
-A DOCKER-USER -i eth0 -j ufw-user-input
-A DOCKER-USER -i eth0 -j DROP
COMMIT

And undo any and all of:

• Remove "iptables": "false" from /etc/docker/daemon.json
• Revert to DEFAULT_FORWARD_POLICY="DROP" in /etc/default/ufw
• Remove any docker related changes to /etc/ufw/before.rules
• Be sure to test that everything comes up fine after a reboot. I still believe Docker's out of the box behavior is dangerous and many more people will continue to unintentionally expose internal services to the outside world due to Docker punching holes in otherwise safe iptables configs.

Answer 5

Disclaimer: This response applies to ufw (i.e. Ubuntu) As default/standard Docker bridge network works on 172.17.0.0/16 (see docker inspect bridge Subnet), the most straightforward IMHO is to do:

ufw allow from 172.17.0.0/16

Answer 6

Summarizing the post from @mkubaczyk:

tell docker to stay away from my firewall

cat << EOF >> /etc/docker/daemon.json
{
     "iptables": false
}
EOF

echo "DOCKER_OPTS=\"--iptables=false\"" >>  /etc/default/docker
service docker restart

change ufw forward policy

sed -i -e 's/DEFAULT_FORWARD_POLICY="DROP"/DEFAULT_FORWARD_POLICY="ACCEPT"/g' /etc/default/ufw 

add nat rules targeting containers

cat << EOF >> /etc/ufw/before.rules
# NAT table rules
*nat
:POSTROUTING ACCEPT [0:0]

# Forward traffic through eth0 - Change to match your out-interface
-A POSTROUTING -s 10.66.66.0/24 -o ens0 -j MASQUERADE

# don't delete the 'COMMIT' line or these nat table rules won't
# be processed
COMMIT

EOF
ufw reload

Answer 7

I also had this problem. In my case, I decided to open the ufw firewall for the whole docker0 interface.

sudo ufw allow in docker0

Alternatively, you can also allow the subnet docker uses. E.g.:

sudo ufw allow from 172.0.0.0/8

Both rules worked for me.

Answer 8

For what it's worth here's an addendum to @mkubaczyk's answer for the case where there are more bridge networks involved in the whole setup. These may be provided by Docker-Compose projects and here's how the proper rules can be generated, given that these projects are controlled by systemd.

/etc/systemd/system/[email protected]

[Unit]
Description=Docker-Compose project: %I
After=docker.service
BindsTo=docker.service
AssertPathIsDirectory=/<projects_path>/%I
AssertFileNotEmpty=/<projects_path>/%I/docker-compose.yml

[Service]
Type=simple
Restart=always
WorkingDirectory=/<projects_path>/%I
ExecStartPre=/usr/bin/docker-compose up --no-start --remove-orphans
ExecStartPre=+/usr/local/bin/update-iptables-for-docker-bridges
ExecStart=/usr/bin/docker-compose up
ExecStop=/usr/bin/docker-compose stop --timeout 30
TimeoutStopSec=30
User=<…>
StandardOutput=null

[Install]
WantedBy=multi-user.target

/usr/local/bin/update-iptables-for-docker-bridges

#!/bin/sh

for network in $(docker network ls --filter 'driver=bridge' --quiet); do
  iface=$(docker network inspect --format '{{index .Options "com.docker.network.bridge.name"}}' ${network})
  [ -z $iface ] && iface="br-${network}"
  subnet=$(docker network inspect --format '{{range .IPAM.Config}}{{.Subnet}}{{end}}' ${network})
  rule="! --out-interface ${iface} --source ${subnet} --jump MASQUERADE"
  iptables --table nat --check POSTROUTING ${rule} || iptables --table nat --append POSTROUTING ${rule}
done

Obviously, this won't scale that well.

It's also noteworthy that the whole basic concept will disguise the source of any connection for the applications running in a container.

Answer 9

I don't like the operational overhead required by the iptables: false flag in docker daemon. In fact, from what I see, and please correct me if I am wrong, all the solutions are way too complicated hacks.

Just insert this in /etc/ufw/after.rules, before the *filter section:

*mangle
# Allow a whitelisted ip to access postgres port
-I PREROUTING 1 -s <whitelisted_ip> -p tcp --dport 5432 -j ACCEPT
# Allow everyone to access port 8080
-I PREROUTING 2 -p tcp --dport 8080 -j ACCEPT
# Drop everything else
-I PREROUTING 3 -p tcp -j DROP
COMMIT

There is no need to mess with docker networking or with unnecessary hacks.

Answer 10

Sorry for digging up this old thread. I had the same problem and it helped me just to constrain ufw to specific ip and interface. Because by default ufw is applied on all network interface, also the internal one from docker. Thats why all this nice docker port forwarding story (like -p80:8080) don't work. To overcome this problem just specify an specific interface and ip on what ufw should be applied. In my case it was the one that is exposed to the world on a server.

ufw allow in on eth0 to ip_of_eth0 port 22 proto tcp
ufw allow in on eth0 to ip_of_eth0 port 80 proto tcp
ufw allow in on eth0 to ip_of_eth0 port 443 proto tcp

change eth0 to your desired interface.

With this solution it is possible now without messing with iptables or the iptables:false in /etc/docker/daemon.json flag to expose only that ports that are really needed.

Output of nmap from outside computer:

Starting Nmap 7.91 ( https://nmap.org ) at <time>
Nmap scan report for <domain> (ip)
Host is up (0.042s latency).
Not shown: 997 filtered ports
PORT    STATE SERVICE
22/tcp  open  ssh
80/tcp  open  http
443/tcp open  https

Nmap done: 1 IP address (1 host up) scanned in 11.44 seconds

Answer 11

UFW is quite simple and I don't want to dive into iptables if I am not forced to. Also Docker behavior regarding iptables / ufw seems ok to me, although not enough documented. My opinion is that when starting containers, one should understand exactly whats going on with exposed ports. Then the docker ps command gives a good feedback about what's going on.

Let's run a MariaDb container :

$ docker run --detach --env MARIADB_ROOT_PASSWORD="superSecret" mariadb:10.4

$ docker ps --format "table {{.Names}}\t{{.Ports}}"
NAMES           PORTS
happy_jackson   3306/tcp

Here the PORTS columns shows 3306/tcp : port 3306 is potentially available but actually not published, meaning that the 3306 port is not accessible neither from the host nor from the host network.

Let's run another MariaDb container :

$ docker run --detach --env MARIADB_ROOT_PASSWORD="superSecret" -p 3306:3306 mariadb:10.4

$ docker ps --format "table {{.Names}}\t{{.Ports}}"
NAMES              PORTS
trusting_goodall   0.0.0.0:3306->3306/tcp

Now the PORTS columns shows 0.0.0.0:3306->3306/tcp : port is published, meaning that it port is available from the host and from the host network.

Let's run a last MariaDb container :

$ docker run --detach --env MARIADB_ROOT_PASSWORD="superSecret" -p 127.0.0.1:3306:3306 mariadb:10.4

$ docker ps --format "table {{.Names}}\t{{.Ports}}"
NAMES             PORTS
quizzical_gauss   127.0.0.1:3306->3306/tcp

Now the PORTS columns shows 127.0.0.1:3306->3306/tcp : port 3306 is locally published, meaning that it is available only from the host, not from the host network.

So yes Docker has to tweak UFW, but that's only to achive what's has been asked : expose a port locally or to the network. So as long as you know what you're doing with ports publishing, you should be safe.

Also, while I am not a network security specialist, having done some full ports scans on my servers has reassured me : the results that I got are in the line with what was expected.

Answer 12

I had a similar case.

The way I solved it was to create a custom network and define it as external.

docker network create my_app_net

# put this in all the project related containers' docker compose files.
networks:
      - my_app_net

networks:
  my_app_net:
    external: true

Then I was able to connect to the container via hostname that I had defined (in docker compose).

hostname: "my_app_db" container_name: "my_app_db"

Then I was able to connect from one of the containers to the db server. I also have made sure that the server binds to all IPs e.g. 0.0.0.0 (I am using a custom my.cnf file for this) mysql -uUSER -pPASS -hDOCKER_HOST --port 3306 --protocol=tcp DB_NAME

Another important detail is when creating the mysql user is to allow it to connect from any host by specifying % as db host and not user@localhost.

Answer 13

You can also choose to attach containers to the host network if network isolation is not much of importance to your application.

Reference:

• https://docs.docker.com/network/host/

Answer 14

From what I can gather you would like better control over who can access your apps running inside Docker? I have answered a similar question here to control traffic via a front end proxy rather than with IP tables: Block external access to docker containers

Edit

With the above approach you can then use UFW to only allow incoming connections to port 80 (ie the proxy). This keeps any port exposure to a minimum with the added bonus that you can control traffic through a proxy configuration & DNS.

Answer 15

In Ubuntu 22.04 names of the chains are changed. I added in the file /etc/ufw/after.rules

-A ufw-after-forward -j ACCEPT -s 172.16.0.0/12

before COMMIT

Answer 16

This worked for me: (also see https://docs.docker.com/network/iptables/)

sudo iptables -I DOCKER-USER -i eth0 ! -s 10.56.122.0/24 -j DROP

Specifically it add a rule that drops all traffic except traffic from 10.56.122.0, which in my case was the private network between machines.

Result: Public traffic could not get through and traffic from local network could get through.

Answer 17

This Answer worked fine for me: https://stackoverflow.com/a/58098930/13574089 (sadly i cannot add a comment) but it had one problem. If I disable and enable UFW it will not work properly.

Just use this Guide: https://unix.stackexchange.com/questions/617240/ufw-iptables-jump-rule-errors-with-could-not-load-logging-rules

And replace iptables -F FOO-CHAIN || true with iptables -F DOCKER-USER || true