Traefik & Docker

A Story of Labels & Containers

Docker

Attach labels to your containers and let Traefik do the rest!

Traefik works with both Docker (standalone) Engine and Docker Swarm Mode.

The Quick Start Uses Docker

If you haven't already, maybe you'd like to go through the quick start that uses the docker provider!

Configuration Examples

Configuring Docker & Deploying / Exposing Services

Enabling the docker provider

  1. [providers.docker]
  1. providers:
  2. docker: {}
  1. --providers.docker=true

Attaching labels to containers (in your docker compose file)

  1. version: "3"
  2. services:
  3. my-container:
  4. # ...
  5. labels:
  6. - traefik.http.routers.my-container.rule=Host(`example.com`)

Configuring Docker Swarm & Deploying / Exposing Services

Enabling the docker provider (Swarm Mode)

  1. [providers.docker]
  2. # swarm classic (1.12-)
  3. # endpoint = "tcp://127.0.0.1:2375"
  4. # docker swarm mode (1.12+)
  5. endpoint = "tcp://127.0.0.1:2377"
  6. swarmMode = true
  1. providers:
  2. docker:
  3. # swarm classic (1.12-)
  4. # endpoint = "tcp://127.0.0.1:2375"
  5. # docker swarm mode (1.12+)
  6. endpoint: "tcp://127.0.0.1:2375"
  7. swarmMode: true
  1. --providers.docker.endpoint=tcp://127.0.0.1:2375
  2. --providers.docker.swarmMode=true

Attach labels to services (not to containers) while in Swarm mode (in your docker compose file)

  1. version: "3"
  2. services:
  3. my-container:
  4. deploy:
  5. labels:
  6. - traefik.http.routers.my-container.rule=Host(`example.com`)
  7. - traefik.http.services.my-container-service.loadbalancer.server.port=8080

Routing Configuration

When using Docker as a provider, Traefik uses container labels to retrieve its routing configuration.

See the list of labels in the dedicated routing section.

Routing Configuration with Labels

By default, Traefik watches for container level labels on a standalone Docker Engine.

When using Docker Compose, labels are specified by the directive labels from the "services" objects.

Not Only Docker

Please note that any tool like Nomad, Terraform, Ansible, etc. that is able to define a Docker container with labels can work with Traefik & the Docker provider.

Port Detection

Traefik retrieves the private IP and port of containers from the Docker API.

Ports detection works as follows:

  • If a container exposes only one port, then Traefik uses this port for private communication.
  • If a container exposes multiple ports, or does not expose any port, then you must manually specify which port Traefik should use for communication by using the label traefik.http.services..loadbalancer.server.port (Read more on this label in the dedicated section in routing).

Host networking

When exposing containers that are configured with host networking, the IP address of the host is resolved as follows:

  • try a lookup of host.docker.internal
  • otherwise fall back to 127.0.0.1

On Linux, (and until github.com/moby/moby/pull/40007 is included in a release), for host.docker.internal to be defined, it should be provided as an extra_host to the Traefik container, using the --add-host flag. For example, to set it to the IP address of the bridge interface (docker0 by default): --add-host=host.docker.internal:172.17.0.1

Docker API Access

Traefik requires access to the docker socket to get its dynamic configuration.

You can specify which Docker API Endpoint to use with the directive endpoint.

Security Note

Accessing the Docker API without any restriction is a security concern: If Traefik is attacked, then the attacker might get access to the underlying host.

As explained in the Docker documentation: (Docker Daemon Attack Surface page):

Quote

[…] only trusted users should be allowed to control your Docker daemon […]

Solutions

Expose the Docker socket over TCP or SSH, instead of the default Unix socket file. It allows different implementation levels of the AAA (Authentication, Authorization, Accounting) concepts), depending on your security assessment:

  • Authentication with Client Certificates as described in "Protect the Docker daemon socket."
  • Authorize and filter requests to restrict possible actions with the TecnativaDocker Socket Proxy.
  • Authorization with the Docker Authorization Plugin Mechanism
  • Accounting at networking level, by exposing the socket only inside a Docker private network, only available for Traefik.
  • Accounting at container level, by exposing the socket on a another container than Traefik's. With Swarm mode, it allows scheduling of Traefik on worker nodes, with only the "socket exposer" container on the manager nodes.
  • Accounting at kernel level, by enforcing kernel calls with mechanisms like SELinux, to only allows an identified set of actions for Traefik's process (or the "socket exposer" process).
  • SSH public key authentication (SSH is supported with Docker > 18.09)

More Resources and Examples

Docker Swarm Mode

To enable Docker Swarm (instead of standalone Docker) as a configuration provider, set the swarmMode directive to true.

Routing Configuration with Labels

While in Swarm Mode, Traefik uses labels found on services, not on individual containers.

Therefore, if you use a compose file with Swarm Mode, labels should be defined in the deploy part of your service.

This behavior is only enabled for docker-compose version 3+ (Compose file reference).

Port Detection

Docker Swarm does not provide any port detection information to Traefik.

Therefore you must specify the port to use for communication by using the label traefik.http.services..loadbalancer.server.port (Check the reference for this label in the routing section for Docker).

Docker API Access

Docker Swarm Mode follows the same rules as Docker API Access.

As the Swarm API is only exposed on the manager nodes, you should schedule Traefik on the Swarm manager nodes by default, by deploying Traefik with a constraint on the node's "role":

  1. docker service create \
  2. --constraint=node.role==manager \
  3. #... \
  1. version: '3'
  2. services:
  3. traefik:
  4. # ...
  5. deploy:
  6. placement:
  7. constraints:
  8. - node.role == manager

Scheduling Traefik on Worker Nodes

Following the guidelines given in the previous section "Docker API Access", if you expose the Docker API through TCP, then Traefik can be scheduled on any node if the TCP socket is reachable.

Please consider the security implications by reading the Security Note.

A good example can be found on Bret Fisher's repository.

Provider Configuration

endpoint

Required, Default="unix:///var/run/docker.sock"

  1. [providers.docker]
  2. endpoint = "unix:///var/run/docker.sock"
  1. providers:
  2. docker:
  3. endpoint: "unix:///var/run/docker.sock"
  1. --providers.docker.endpoint=unix:///var/run/docker.sock

See the sections Docker API Access and Docker Swarm API Access for more information.

Using the docker.sock

The docker-compose file shares the docker sock with the Traefik container

  1. version: '3'
  2. services:
  3. traefik:
  4. image: traefik:v2.2 # The official v2 Traefik docker image
  5. ports:
  6. - "80:80"
  7. volumes:
  8. - /var/run/docker.sock:/var/run/docker.sock

We specify the docker.sock in traefik's configuration file.

  1. [providers.docker]
  2. endpoint = "unix:///var/run/docker.sock"
  3. # ...
  1. providers:
  2. docker:
  3. endpoint: "unix:///var/run/docker.sock"
  4. # ...
  1. --providers.docker.endpoint=unix:///var/run/docker.sock
  2. # ...

Using SSH

Using Docker 18.09+ you can connect Traefik to daemon using SSH We specify the SSH host and user in Traefik's configuration file. Note that is server requires public keys for authentication you must have those accessible for user who runs Traefik.

  1. [providers.docker]
  2. endpoint = "ssh://[email protected]:2022"
  3. # ...
  1. providers:
  2. docker:
  3. endpoint: "ssh://[email protected]:2022"
  4. # ...
  1. --providers.docker.endpoint=ssh://[email protected]:2022
  2. # ...

useBindPortIP

Optional, Default=false

  1. [providers.docker]
  2. useBindPortIP = true
  3. # ...
  1. providers:
  2. docker:
  3. useBindPortIP: true
  4. # ...
  1. --providers.docker.useBindPortIP=true
  2. # ...

Traefik routes requests to the IP/Port of the matching container. When setting useBindPortIP=true, you tell Traefik to use the IP/Port attached to the container's binding instead of its inner network IP/Port.

When used in conjunction with the traefik.http.services..loadbalancer.server.port label (that tells Traefik to route requests to a specific port), Traefik tries to find a binding on port traefik.http.services..loadbalancer.server.port. If it can't find such a binding, Traefik falls back on the internal network IP of the container, but still uses the traefik.http.services..loadbalancer.server.port that is set in the label.

Examples of usebindportip in different situations.

port label Container's binding Routes to
- - IntIP:IntPort
- ExtPort:IntPort IntIP:IntPort
- ExtIp:ExtPort:IntPort ExtIp:ExtPort
LblPort - IntIp:LblPort
LblPort ExtIp:ExtPort:LblPort ExtIp:ExtPort
LblPort ExtIp:ExtPort:OtherPort IntIp:LblPort
LblPort ExtIp1:ExtPort1:IntPort1 & ExtIp2:LblPort:IntPort2 ExtIp2:LblPort

In the above table:

  • ExtIp stands for "external IP found in the binding"
  • IntIp stands for "internal network container's IP",
  • ExtPort stands for "external Port found in the binding"
  • IntPort stands for "internal network container's port."

exposedByDefault

Optional, Default=true

  1. [providers.docker]
  2. exposedByDefault = false
  3. # ...
  1. providers:
  2. docker:
  3. exposedByDefault: false
  4. # ...
  1. --providers.docker.exposedByDefault=false
  2. # ...

Expose containers by default through Traefik. If set to false, containers that don't have a traefik.enable=true label will be ignored from the resulting routing configuration.

See also Restrict the Scope of Service Discovery.

network

Optional, Default=empty

  1. [providers.docker]
  2. network = "test"
  3. # ...
  1. providers:
  2. docker:
  3. network: test
  4. # ...
  1. --providers.docker.network=test
  2. # ...

Defines a default docker network to use for connections to all containers.

This option can be overridden on a container basis with the traefik.docker.network label.

defaultRule

Optional, Default=Host({{ normalize .Name }})

  1. [providers.docker]
  2. defaultRule = "Host(`{{ .Name }}.{{ index .Labels \"customLabel\"}}`)"
  3. # ...
  1. providers:
  2. docker:
  3. defaultRule: "Host(`{{ .Name }}.{{ index .Labels \"customLabel\"}}`)"
  4. # ...
  1. --providers.docker.defaultRule=Host(`{{ .Name }}.{{ index .Labels \"customLabel\"}}`)
  2. # ...

For a given container if no routing rule was defined by a label, it is defined by this defaultRule instead. It must be a valid Go template, augmented with the sprig template functions. The container service name can be accessed as the Name identifier, and the template has access to all the labels defined on this container.

swarmMode

Optional, Default=false

  1. [providers.docker]
  2. swarmMode = true
  3. # ...
  1. providers:
  2. docker:
  3. swarmMode: true
  4. # ...
  1. --providers.docker.swarmMode=true
  2. # ...

Activates the Swarm Mode (instead of standalone Docker).

swarmModeRefreshSeconds

Optional, Default=15

  1. [providers.docker]
  2. swarmModeRefreshSeconds = 30
  3. # ...
  1. providers:
  2. docker:
  3. swarmModeRefreshSeconds: 30
  4. # ...
  1. --providers.docker.swarmModeRefreshSeconds=30
  2. # ...

Defines the polling interval (in seconds) in Swarm Mode.

watch

Optional, Default=true

  1. [providers.docker]
  2. watch = false
  3. # ...
  1. providers:
  2. docker:
  3. watch: false
  4. # ...
  1. --providers.docker.watch=false
  2. # ...

Watch Docker Swarm events.

constraints

Optional, Default=""

  1. [providers.docker]
  2. constraints = "Label(`a.label.name`,`foo`)"
  3. # ...
  1. providers:
  2. docker:
  3. constraints: "Label(`a.label.name`,`foo`)"
  4. # ...
  1. --providers.docker.constraints=Label(`a.label.name`,`foo`)
  2. # ...

Constraints is an expression that Traefik matches against the container's labels to determine whether to create any route for that container. That is to say, if none of the container's labels match the expression, no route for the container is created. If the expression is empty, all detected containers are included.

The expression syntax is based on the Label("key", "value"), and LabelRegex("key", "value") functions, as well as the usual boolean logic, as shown in examples below.

Constraints Expression Examples

  1. # Includes only containers having a label with key `a.label.name` and value `foo`
  2. constraints = "Label(`a.label.name`, `foo`)"
  1. # Excludes containers having any label with key `a.label.name` and value `foo`
  2. constraints = "!Label(`a.label.name`, `value`)"
  1. # With logical AND.
  2. constraints = "Label(`a.label.name`, `valueA`) && Label(`another.label.name`, `valueB`)"
  1. # With logical OR.
  2. constraints = "Label(`a.label.name`, `valueA`) || Label(`another.label.name`, `valueB`)"
  1. # With logical AND and OR, with precedence set by parentheses.
  2. constraints = "Label(`a.label.name`, `valueA`) && (Label(`another.label.name`, `valueB`) || Label(`yet.another.label.name`, `valueC`))"
  1. # Includes only containers having a label with key `a.label.name` and a value matching the `a.+` regular expression.
  2. constraints = "LabelRegex(`a.label.name`, `a.+`)"

See also Restrict the Scope of Service Discovery.

tls

Optional

tls.ca

Certificate Authority used for the secured connection to Docker.

  1. [providers.docker.tls]
  2. ca = "path/to/ca.crt"
  1. providers:
  2. docker:
  3. tls:
  4. ca: path/to/ca.crt
  1. --providers.docker.tls.ca=path/to/ca.crt

tls.caOptional

Policy followed for the secured connection with TLS Client Authentication to Docker. Requires tls.ca to be defined.

  • true: VerifyClientCertIfGiven
  • false: RequireAndVerifyClientCert
  • if tls.ca is undefined NoClientCert
  1. [providers.docker.tls]
  2. caOptional = true
  1. providers:
  2. docker:
  3. tls:
  4. caOptional: true
  1. --providers.docker.tls.caOptional=true

tls.cert

Public certificate used for the secured connection to Docker.

  1. [providers.docker.tls]
  2. cert = "path/to/foo.cert"
  3. key = "path/to/foo.key"
  1. providers:
  2. docker:
  3. tls:
  4. cert: path/to/foo.cert
  5. key: path/to/foo.key
  1. --providers.docker.tls.cert=path/to/foo.cert
  2. --providers.docker.tls.key=path/to/foo.key

tls.key

Private certificate used for the secured connection to Docker.

  1. [providers.docker.tls]
  2. cert = "path/to/foo.cert"
  3. key = "path/to/foo.key"
  1. providers:
  2. docker:
  3. tls:
  4. cert: path/to/foo.cert
  5. key: path/to/foo.key
  1. --providers.docker.tls.cert=path/to/foo.cert
  2. --providers.docker.tls.key=path/to/foo.key

tls.insecureSkipVerify

If insecureSkipVerify is true, TLS for the connection to Docker accepts any certificate presented by the server and any host name in that certificate.

  1. [providers.docker.tls]
  2. insecureSkipVerify = true
  1. providers:
  2. docker:
  3. tls:
  4. insecureSkipVerify: true
  1. --providers.docker.tls.insecureSkipVerify=true