DNS server for automatic docker container discovery. Simplified version of crosbymichael/skydock.
This project was initially created and maintained by tonistiigi.
-
No raft / simple in-memory storage - Does not use any distributed storage and is meant to be used only inside single host. This means no ever-growing log files and memory leakage. AFAIK skydock currently does not have a state machine so the raft log always keeps growing and you have to recreate the server periodically if you wish to run it for a long period of time. Also the startup is very slow because it has to read in all the previous log files.
-
No TTL heartbeat - Skydock sends heartbeats for every container that reset the DNS TTL value. In production this has not turned out to be reliable. What makes this worse it that if a heartbeat has been missed, skydock does not recover until you restart it. Dnsdock uses static TTL that does not count down. You can override it for a container and also change it without restarting(before updates). In most cases you would want to use TTL=0 anyway.
-
No dependency to other container - Dnsdock does not use a separate DNS server but has one built in. Linking to another container makes recovery from crash much harder. For example skydock does not recover from skydns crash even if the crashed container is restarted.
-
A records only for now.
-
No support for Javascript plugins.
-
There’s a slight difference in a way image names are extracted from a container. Skydock uses the last tag set on image while dnsdock uses the specific tag that was used when the container was created. This means that if a new version of an image comes out and untags the image that your container still uses, the DNS requests for this old container still work.
There are two ways to build the tool
Install devbox on your host and execute the following commands:
$> devbox run test
$> devbox run --env GOARCH=[amd64|arm] build
Install VSCode devcontainer extension or devpod and execute the following commands:
$> go get ./...
$> mkdir -p build && GOARCH=[amd64|arm] go build -o build/dnsdock ./cmd/dnsdock
Dnsdock connects to Docker Remote API and keeps an up to date list of running containers. If a DNS request matches some of the containers their local IP addresses are returned.
Format for a request matching a container is:
<anything>.<container-name>.<image-name>.<environment>.<domain>
.
environment
anddomain
are static suffixes that are set on startup. Defaults todocker
.image-name
is last part of the image tag used when starting the container.container-name
alphanumerical part of container name.
You can always leave out parts from the left side. If multiple containers match then they are all returned. Wildcard requests are also supported.
> dig *.docker
...
;; ANSWER SECTION:
docker. 0 IN A 172.17.0.5
docker. 0 IN A 172.17.0.3
docker. 0 IN A 172.17.0.2
docker. 0 IN A 172.17.0.7
> dig redis.docker
...
;; ANSWER SECTION:
redis.docker. 0 IN A 172.17.0.3
redis.docker. 0 IN A 172.17.0.2
> dig redis1.redis.docker
...
;; ANSWER SECTION:
redis1.redis.docker. 0 IN A 172.17.0.2
> dig redis1.*.docker
...
;; ANSWER SECTION:
redis1.*.docker. 0 IN A 172.17.0.2
DNS listening port needs to be bound to the docker0 inferface so that its available to all containers. To avoid this IP changing during host restart add it to the docker default options.
- If you use systemd (present on Fedora and recent Ubuntu versions), edit
/lib/systemd/system/docker.service
and add the options to the command you will see in theExecStart
section, the runsudo systemctl daemon-reload
. - If you do not, Open file
/etc/default/docker
and add--bip=172.17.0.1/24 --dns=172.17.0.1
toDOCKER_OPTS
variable.
Restart docker daemon after you have done that (sudo service docker restart
).
Now you only need to run the dnsdock container:
docker run -d -v /var/run/docker.sock:/var/run/docker.sock --name dnsdock -p 172.17.0.1:53:53/udp aacebedo/dnsdock [--opts]
-d
starts container as daemon-v /var/run/docker.sock:/var/run/docker.sock
shares the docker socket to the container so that dnsdock can connect to the Docker API.-p 172.17.0.1:53:53/udp
exposes the default DNS port to the docker0 bridge interface.
Additional configuration options to dnsdock command:
--dns=":53": Listen DNS requests on this address
--docker="unix://var/run/docker.sock": Path to the docker socket
--domain="docker": Domain that is appended to all requests
--environment="": Optional context before domain suffix
--help: Show this message
--http=":80": Listen HTTP requests on this address
--nameserver="8.8.8.8:53": DNS server for unmatched requests
--ttl=0: TTL for matched requests
--verbose: Verbose output
--tlsverify: enable mutual TLS between dnsdock and Docker
--tlscacert="$HOME/.docker/ca.pem": Path to CA certificate
--tlscert="$HOME/.docker/cert.pem": Path to client certificate
--tlskey="$HOME/.docker/key.pem": Path to client certificate private key
--all: Process all container even if they are stopped
--forcettl: Change TTL value of responses coming from remote servers
If you also want to let the host machine discover the containers add nameserver 172.17.0.1
to your /etc/resolv.conf
.
Mounting docker daemon’s unix socket may not work with default configuration on these platforms. Please use selinux-dockersock to fix this. More information in #11.
Instead of connecting to the Docker daemon’s UNIX socket, you may prefer to
connect via a TLS-protected TCP socket (for example, if you are running Swarm).
The -tlsverify
option enables TLS, and the three additional options
(-tlscacert
, -tlscert
and -tlskey
) must also be specified. Alternatively,
you may set the DOCKER_TLS_VERIFY
environment variable to a non-empty value
and the DOCKER_CERTS
to a directory containing files named ca.pem
,
cert.pem
and key.pem
.
You may build this into your own container with this example Dockerfile:
FROM aacebedo/dnsdock
ENV DOCKER_TLS_VERIFY 1
ENV DOCKER_CERTS /certs
CMD ["-docker=tcp://172.17.0.1:2376"]
Use a volume (-v /path/to/certs:/certs
) to give the container access to the
certificate files, or build the certificates into the image if you have access
to a secure private image registry.
For easy overview and manual control dnsdock also includes HTTP server that lets you configure the server using a JSON API.
# show all active services
curl http://dnsdock.docker/services
# show a service
curl http://dnsdock.docker/services/serviceid
# add new service manually
curl http://dnsdock.docker/services/newid -X PUT --data-ascii '{"name": "foo", "image": "bar", "ip": "192.168.0.3", "ttl": 30}'
# remove a service
curl http://dnsdock.docker/services/serviceid -X DELETE
# change a property of an existing service
curl http://dnsdock.docker/services/serviceid -X PATCH --data-ascii '{"ttl": 0}'
# set new default TTL value
curl http://dnsdock.docker/set/ttl -X PUT --data-ascii '10'
If you wish to fine tune the DNS response addresses you can define specific environment variables during container startup. This overrides the default matching scheme from container and image name.
Supported ENV variables are DNSDOCK_NAME
, DNSDOCK_IMAGE
, DNSDOCK_ALIAS
, DNSDOCK_TTL
.
docker run -e DNSDOCK_NAME=master -e DNSDOCK_IMAGE=mysql -e DNSDOCK_TTL=10 \
--name mymysql mysqlimage
# matches master.mysql.docker
docker run -e DNSDOCK_ALIAS=db.docker,sql.docker -e DNSDOCK_TTL=10 \
--name mymysql mysqlimage
# matches db.docker and sql.docker
If you wish to fine tune the DNS response addresses you can define specific labels during container creation. This overrides the default matching scheme from container and image name.
Supported labels are com.dnsdock.ignore
, com.dnsdock.alias
, com.dnsdock.name
, com.dnsdock.tags
, com.dnsdock.image
,
com.dnsdock.ttl
, com.dnsdock.region
, and com.dnsdock.ip_addr
docker run -l com.dnsdock.name=master -l com.dnsdocker.image=mysql -l com.dnsdock.ttl=10 \
--name mymysql mysqlimage
# matches master.mysql.docker
docker run -l com.dnsdock.alias=db.docker,sql.docker -l com.dnsdock.ttl=10 \
--name mymysql mysqlimage
# matches db.docker and sql.docker
Service metadata syntax by progrium/registrator is also supported.
docker run -l com.dnsdock.tags=master -l com.dnsdock.name=mysql -l com.dnsdock.region=us2 \
--name mymysql mysqlimage
# matches master.mysql.us2.docker
If you want dnsdock to skip processing a specific container set its
com.dnsdock.ignore
label.
You can force the value of the IP address returned in the DNS record with the
com.dnsdock.ip_addr
label. This can be useful if you have a reverse proxy such as traefik in a container with mapped port and you want to redirect your clients to the front server instead of an internal docker container ip address.
Original tutorial: http://www.asbjornenge.com/wwc/vagrant_skydocking.html
If you use docker on OSX via Vagrant you can do this to make your containers discoverable from your main machine.
In your Vagrantfile add the following to let your virtual machine accept packets for other IPs:
config.vm.provider :virtualbox do |vb|
vb.customize ["modifyvm", :id, "--nicpromisc2", "allow-all"]
end
Then route traffic that matches you containers to your virtual machine internal IP:
sudo route -n add -net 172.17.0.0 <VAGRANT_MACHINE_IP>
Finally, to make OSX use dnsdock for requests that match your domain suffix
create a file with your domain ending under /etc/resolver
(for example
/etc/resolver/myprojectname.docker
) and set its contents to nameserver 172.17.0.1
.
You can autostart the dnsdock service in the user-data
file of coreos-vagrant.
Everytime you vagrant up
this CoreOs vagrant instance the dnsdock service
will be running and start discovering your other services.
Add the following snippet under the units
part:
- name: dnsdock.service
enable: true
command: start
content: |
[Unit]
Description=dnsdock
After=docker.service
Requires=docker.service
[Service]
EnvironmentFile=/etc/environment
ExecStartPre=/bin/sh -c '/usr/bin/docker rm -f dnsdock || ls > /dev/null'
ExecStartPre=/bin/sh -c '/usr/bin/docker pull aacebedo/dnsdock'
ExecStart=/usr/bin/docker run -v /var/run/docker.sock:/var/run/docker.sock --name dnsdock -p ${COREOS_PRIVATE_IPV4}:53:53/udp aacebedo/dnsdock
ExecStop=/bin/sh -c '/usr/bin/docker stop dnsdock || ls > /dev/null'