Compose file reference
The Compose file is a YAML file defining services, networks and volumes. The default path for a Compose file is ./docker-compose.yml
.
Tip: You can use either a
.yml
or.yaml
extension for this file. They both work.
A service definition contains configuration which will be applied to each container started for that service, much like passing command-line parameters to docker run
. Likewise, network and volume definitions are analogous to docker network create
and docker volume create
.
As with docker run
, options specified in the Dockerfile (e.g., CMD
, EXPOSE
, VOLUME
, ENV
) are respected by default - you don’t need to specify them again in docker-compose.yml
.
You can use environment variables in configuration values with a Bash-like ${VARIABLE}
syntax - see variable substitution for full details.
Service configuration reference
Note: There are several versions of the Compose file format – version 1 (the legacy format, which does not support volumes or networks) and version 2, as well as 2.1 (the most up-to-date). For more information, see the Versioning section.
This section contains a list of all configuration options supported by a service definition.
build
Configuration options that are applied at build time.
build
can be specified either as a string containing a path to the build context, or an object with the path specified under context and optionally dockerfile and args.
build: ./dir build: context: ./dir dockerfile: Dockerfile-alternate args: buildno: 1
If you specify image
as well as build
, then Compose names the built image with the webapp
and optional tag
specified in image
:
build: ./dir image: webapp:tag
This will result in an image named webapp
and tagged tag
, built from ./dir
.
Note: In the version 1 file format,
build
is different in two ways:
- Only the string form (
build: .
) is allowed - not the object form.- Using
build
together withimage
is not allowed. Attempting to do so results in an error.
context
Version 2 file format and up. In version 1, just use build.
Either a path to a directory containing a Dockerfile, or a url to a git repository.
When the value supplied is a relative path, it is interpreted as relative to the location of the Compose file. This directory is also the build context that is sent to the Docker daemon.
Compose will build and tag it with a generated name, and use that image thereafter.
build: context: ./dir
dockerfile
Alternate Dockerfile.
Compose will use an alternate file to build with. A build path must also be specified.
build: context: . dockerfile: Dockerfile-alternate
Note: In the version 1 file format,
dockerfile
is different in two ways:
It appears alongside
build
, not as a sub-option:build: . dockerfile: Dockerfile-alternateUsing
dockerfile
together withimage
is not allowed. Attempting to do so results in an error.
args
Version 2 file format and up.
Add build arguments, which are environment variables accessible only during the build process.
First, specify the arguments in your Dockerfile:
ARG buildno ARG password RUN echo "Build number: $buildno" RUN script-requiring-password.sh "$password"
Then specify the arguments under the build
key. You can pass either a mapping or a list:
build: context: . args: buildno: 1 password: secret build: context: . args: - buildno=1 - password=secret
You can omit the value when specifying a build argument, in which case its value at build time is the value in the environment where Compose is running.
args: - buildno - password
Note: YAML boolean values (
true
,false
,yes
,no
,on
,off
) must be enclosed in quotes, so that the parser interprets them as strings.
cap_add, cap_drop
Add or drop container capabilities. See man 7 capabilities
for a full list.
cap_add: - ALL cap_drop: - NET_ADMIN - SYS_ADMIN
command
Override the default command.
command: bundle exec thin -p 3000
The command can also be a list, in a manner similar to dockerfile:
command: [bundle, exec, thin, -p, 3000]
cgroup_parent
Specify an optional parent cgroup for the container.
cgroup_parent: m-executor-abcd
container_name
Specify a custom container name, rather than a generated default name.
container_name: my-web-container
Because Docker container names must be unique, you cannot scale a service beyond 1 container if you have specified a custom name. Attempting to do so results in an error.
devices
List of device mappings. Uses the same format as the --device
docker client create option.
devices: - "/dev/ttyUSB0:/dev/ttyUSB0"
depends_on
Express dependency between services, which has two effects:
-
docker-compose up
will start services in dependency order. In the following example,db
andredis
will be started beforeweb
. -
docker-compose up SERVICE
will automatically includeSERVICE
’s dependencies. In the following example,docker-compose up web
will also create and startdb
andredis
.
Simple example:
version: '2' services: web: build: . depends_on: - db - redis redis: image: redis db: image: postgres
Note:
depends_on
will not wait fordb
andredis
to be “ready” before startingweb
- only until they have been started. If you need to wait for a service to be ready, see Controlling startup order for more on this problem and strategies for solving it.
dns
Custom DNS servers. Can be a single value or a list.
dns: 8.8.8.8 dns: - 8.8.8.8 - 9.9.9.9
dns_search
Custom DNS search domains. Can be a single value or a list.
dns_search: example.com dns_search: - dc1.example.com - dc2.example.com
tmpfs
Version 2 file format and up.
Mount a temporary file system inside the container. Can be a single value or a list.
tmpfs: /run tmpfs: - /run - /tmp
entrypoint
Override the default entrypoint.
entrypoint: /code/entrypoint.sh
The entrypoint can also be a list, in a manner similar to dockerfile:
entrypoint: - php - -d - zend_extension=/usr/local/lib/php/extensions/no-debug-non-zts-20100525/xdebug.so - -d - memory_limit=-1 - vendor/bin/phpunit
Note: Setting
entrypoint
will both override any default entrypoint set on the service’s image with theENTRYPOINT
Dockerfile instruction, and clear out any default command on the image - meaning that if there’s aCMD
instruction in the Dockerfile, it will be ignored.
env_file
Add environment variables from a file. Can be a single value or a list.
If you have specified a Compose file with docker-compose -f FILE
, paths in env_file
are relative to the directory that file is in.
Environment variables specified in environment
override these values.
env_file: .env env_file: - ./common.env - ./apps/web.env - /opt/secrets.env
Compose expects each line in an env file to be in VAR=VAL
format. Lines beginning with #
(i.e. comments) are ignored, as are blank lines.
# Set Rails/Rack environment RACK_ENV=development
Note: If your service specifies a build option, variables defined in environment files will not be automatically visible during the build. Use the args sub-option of
build
to define build-time environment variables.
The value of VAL
is used as is and not modified at all. For example if the value is surrounded by quotes (as is often the case of shell variables), the quotes will be included in the value passed to Compose.
environment
Add environment variables. You can use either an array or a dictionary. Any boolean values; true, false, yes no, need to be enclosed in quotes to ensure they are not converted to True or False by the YML parser.
Environment variables with only a key are resolved to their values on the machine Compose is running on, which can be helpful for secret or host-specific values.
environment: RACK_ENV: development SHOW: 'true' SESSION_SECRET: environment: - RACK_ENV=development - SHOW=true - SESSION_SECRET
Note: If your service specifies a build option, variables defined in
environment
will not be automatically visible during the build. Use the args sub-option ofbuild
to define build-time environment variables.
expose
Expose ports without publishing them to the host machine - they’ll only be accessible to linked services. Only the internal port can be specified.
expose: - "3000" - "8000"
extends
Extend another service, in the current file or another, optionally overriding configuration.
You can use extends
on any service together with other configuration keys. The extends
value must be a dictionary defined with a required service
and an optional file
key.
extends: file: common.yml service: webapp
The service
the name of the service being extended, for example web
or database
. The file
is the location of a Compose configuration file defining that service.
If you omit the file
Compose looks for the service configuration in the current file. The file
value can be an absolute or relative path. If you specify a relative path, Compose treats it as relative to the location of the current file.
You can extend a service that itself extends another. You can extend indefinitely. Compose does not support circular references and docker-compose
returns an error if it encounters one.
For more on extends
, see the the extends documentation.
external_links
Link to containers started outside this docker-compose.yml
or even outside of Compose, especially for containers that provide shared or common services. external_links
follow semantics similar to links
when specifying both the container name and the link alias (CONTAINER:ALIAS
).
external_links: - redis_1 - project_db_1:mysql - project_db_1:postgresql
Note: If you’re using the version 2 file format, the externally-created containers must be connected to at least one of the same networks as the service which is linking to them.
extra_hosts
Add hostname mappings. Use the same values as the docker client --add-host
parameter.
extra_hosts: - "somehost:162.242.195.82" - "otherhost:50.31.209.229"
An entry with the ip address and hostname will be created in /etc/hosts
inside containers for this service, e.g:
162.242.195.82 somehost 50.31.209.229 otherhost
group_add
Version 2 file format and up.
Specify additional groups (by name or number) which the user inside the container will be a member of. Groups must exist in both the container and the host system to be added. An example of where this is useful is when multiple containers (running as different users) need to all read or write the same file on the host system. That file can be owned by a group shared by all the containers, and specified in group_add
. See the Docker documentation for more details.
A full example:
version: '2' services: image: alpine group_add: - mail
Running id
inside the created container will show that the user belongs to the mail
group, which would not have been the case if group_add
were not used.
image
Specify the image to start the container from. Can either be a repository/tag or a partial image ID.
image: redis image: ubuntu:14.04 image: tutum/influxdb image: example-registry.com:4000/postgresql image: a4bc65fd
If the image does not exist, Compose attempts to pull it, unless you have also specified build, in which case it builds it using the specified options and tags it with the specified tag.
Note: In the version 1 file format, using
build
together withimage
is not allowed. Attempting to do so results in an error.
isolation
Specify a container’s isolation technology. On Linux, the only supported value is default
. On Windows, acceptable values are default
, process
and hyperv
. Refer to the Docker Engine docs for details.
labels
Add metadata to containers using Docker labels. You can use either an array or a dictionary.
It’s recommended that you use reverse-DNS notation to prevent your labels from conflicting with those used by other software.
labels: com.example.description: "Accounting webapp" com.example.department: "Finance" com.example.label-with-empty-value: "" labels: - "com.example.description=Accounting webapp" - "com.example.department=Finance" - "com.example.label-with-empty-value"
links
Link to containers in another service. Either specify both the service name and a link alias (SERVICE:ALIAS
), or just the service name.
web: links: - db - db:database - redis
Containers for the linked service will be reachable at a hostname identical to the alias, or the service name if no alias was specified.
Links also express dependency between services in the same way as depends_on, so they determine the order of service startup.
Note: If you define both links and networks, services with links between them must share at least one network in common in order to communicate.
logging
Version 2 file format and up. In version 1, use log_driver and log_opt.
Logging configuration for the service.
logging: driver: syslog options: syslog-address: "tcp://192.168.0.42:123"
The driver
name specifies a logging driver for the service’s containers, as with the --log-driver
option for docker run (documented here).
The default value is json-file.
driver: "json-file" driver: "syslog" driver: "none"
Note: Only the
json-file
andjournald
drivers make the logs available directly fromdocker-compose up
anddocker-compose logs
. Using any other driver will not print any logs.
Specify logging options for the logging driver with the options
key, as with the --log-opt
option for docker run
.
Logging options are key-value pairs. An example of syslog
options:
driver: "syslog" options: syslog-address: "tcp://192.168.0.42:123"
log_driver
Version 1 file format only. In version 2, use logging.
Specify a log driver. The default is json-file
.
log_driver: syslog
log_opt
Version 1 file format only. In version 2, use logging.
Specify logging options as key-value pairs. An example of syslog
options:
log_opt: syslog-address: "tcp://192.168.0.42:123"
net
Version 1 file format only. In version 2, use network_mode.
Network mode. Use the same values as the docker client --net
parameter. The container:...
form can take a service name instead of a container name or id.
net: "bridge" net: "host" net: "none" net: "container:[service name or container name/id]"
network_mode
Version 2 file format and up. In version 1, use net.
Network mode. Use the same values as the docker client --net
parameter, plus the special form service:[service name]
.
network_mode: "bridge" network_mode: "host" network_mode: "none" network_mode: "service:[service name]" network_mode: "container:[container name/id]"
networks
Version 2 file format and up. In version 1, use net.
Networks to join, referencing entries under the top-level networks
key.
services: some-service: networks: - some-network - other-network
aliases
Aliases (alternative hostnames) for this service on the network. Other containers on the same network can use either the service name or this alias to connect to one of the service’s containers.
Since aliases
is network-scoped, the same service can have different aliases on different networks.
Note: A network-wide alias can be shared by multiple containers, and even by multiple services. If it is, then exactly which container the name will resolve to is not guaranteed.
The general format is shown here.
services: some-service: networks: some-network: aliases: - alias1 - alias3 other-network: aliases: - alias2
In the example below, three services are provided (web
, worker
, and db
), along with two networks (new
and legacy
). The db
service is reachable at the hostname db
or database
on the new
network, and at db
or mysql
on the legacy
network.
version: '2' services: web: build: ./web networks: - new worker: build: ./worker networks: - legacy db: image: mysql networks: new: aliases: - database legacy: aliases: - mysql networks: new: legacy:
ipv4_address, ipv6_address
Specify a static IP address for containers for this service when joining the network.
The corresponding network configuration in the top-level networks section must have an ipam
block with subnet and gateway configurations covering each static address. If IPv6 addressing is desired, the enable_ipv6
option must be set.
An example:
version: '2.1' services: app: image: busybox command: ifconfig networks: app_net: ipv4_address: 172.16.238.10 ipv6_address: 2001:3984:3989::10 networks: app_net: driver: bridge enable_ipv6: true ipam: driver: default config: - subnet: 172.16.238.0/24 gateway: 172.16.238.1 - subnet: 2001:3984:3989::/64 gateway: 2001:3984:3989::1
link_local_ips
Specify a list of link-local IPs. Link-local IPs are special IPs which belong to a well known subnet and are purely managed by the operator, usually dependent on the architecture where they are deployed. Therefore they are not managed by docker (IPAM driver).
Example usage:
version: '2.1' services: app: image: busybox command: top networks: app_net: link_local_ips: - 57.123.22.11 - 57.123.22.13 networks: app_net: driver: bridge
pid
pid: "host"
Sets the PID mode to the host PID mode. This turns on sharing between container and the host operating system the PID address space. Containers launched with this flag will be able to access and manipulate other containers in the bare-metal machine’s namespace and vise-versa.
ports
Expose ports. Either specify both ports (HOST:CONTAINER
), or just the container port (a random host port will be chosen).
Note: When mapping ports in the
HOST:CONTAINER
format, you may experience erroneous results when using a container port lower than 60, because YAML will parse numbers in the formatxx:yy
as sexagesimal (base 60). For this reason, we recommend always explicitly specifying your port mappings as strings.
ports: - "3000" - "3000-3005" - "8000:8000" - "9090-9091:8080-8081" - "49100:22" - "127.0.0.1:8001:8001" - "127.0.0.1:5000-5010:5000-5010"
security_opt
Override the default labeling scheme for each container.
security_opt: - label:user:USER - label:role:ROLE
stop_signal
Sets an alternative signal to stop the container. By default stop
uses SIGTERM. Setting an alternative signal using stop_signal
will cause stop
to send that signal instead.
stop_signal: SIGUSR1
ulimits
Override the default ulimits for a container. You can either specify a single limit as an integer or soft/hard limits as a mapping.
ulimits: nproc: 65535 nofile: soft: 20000 hard: 40000
volumes, volume_driver
Mount paths or named volumes, optionally specifying a path on the host machine (HOST:CONTAINER
), or an access mode (HOST:CONTAINER:ro
). For version 2 files, named volumes need to be specified with the top-level volumes
key. When using version 1, the Docker Engine will create the named volume automatically if it doesn’t exist.
You can mount a relative path on the host, which will expand relative to the directory of the Compose configuration file being used. Relative paths should always begin with .
or ..
.
volumes: # Just specify a path and let the Engine create a volume - /var/lib/mysql # Specify an absolute path mapping - /opt/data:/var/lib/mysql # Path on the host, relative to the Compose file - ./cache:/tmp/cache # User-relative path - ~/configs:/etc/configs/:ro # Named volume - datavolume:/var/lib/mysql
If you do not use a host path, you may specify a volume_driver
.
volume_driver: mydriver
Note that for version 2 files, this driver will not apply to named volumes (you should use the driver
option when declaring the volume instead). For version 1, both named volumes and container volumes will use the specified driver.
Note: No path expansion will be done if you have also specified a
volume_driver
.
See Docker Volumes and Volume Plugins for more
volumes_from
Mount all of the volumes from another service or container, optionally specifying read-only access (ro
) or read-write (rw
). If no access level is specified, then read-write will be used.
volumes_from: - service_name - service_name:ro - container:container_name - container:container_name:rw
Note: The
container:...
formats are only supported in the version 2 file format. In version 1, you can use container names without marking them as such:- service_name - service_name:ro - container_name - container_name:rw
cpu_shares, cpu_quota, cpuset, domainname, hostname, ipc, mac_address, mem_limit, memswap_limit, oom_score_adj, privileged, read_only, restart, shm_size, stdin_open, tty, user, working_dir
Each of these is a single value, analogous to its docker run counterpart.
cpu_shares: 73 cpu_quota: 50000 cpuset: 0,1 user: postgresql working_dir: /code domainname: foo.com hostname: foo ipc: host mac_address: 02:42:ac:11:65:43 mem_limit: 1000000000 memswap_limit: 2000000000 privileged: true oom_score_adj: 500 restart: always read_only: true shm_size: 64M stdin_open: true tty: true
Note: The following options are only available for version 2 and up:
oom_score_adj
Volume configuration reference
While it is possible to declare volumes on the fly as part of the service declaration, this section allows you to create named volumes that can be reused across multiple services (without relying on volumes_from
), and are easily retrieved and inspected using the docker command line or API. See the docker volume subcommand documentation for more information.
driver
Specify which volume driver should be used for this volume. Defaults to local
. The Docker Engine will return an error if the driver is not available.
driver: foobar
driver_opts
Specify a list of options as key-value pairs to pass to the driver for this volume. Those options are driver-dependent - consult the driver’s documentation for more information. Optional.
driver_opts: foo: "bar" baz: 1
external
If set to true
, specifies that this volume has been created outside of Compose. docker-compose up
will not attempt to create it, and will raise an error if it doesn’t exist.
external
cannot be used in conjunction with other volume configuration keys (driver
, driver_opts
).
In the example below, instead of attempting to create a volume called [projectname]_data
, Compose will look for an existing volume simply called data
and mount it into the db
service’s containers.
version: '2' services: db: image: postgres volumes: - data:/var/lib/postgresql/data volumes: data: external: true
You can also specify the name of the volume separately from the name used to refer to it within the Compose file:
volumes: data: external: name: actual-name-of-volume
labels
Add metadata to containers using Docker labels. You can use either an array or a dictionary.
It’s recommended that you use reverse-DNS notation to prevent your labels from conflicting with those used by other software.
labels: com.example.description: "Database volume" com.example.department: "IT/Ops" com.example.label-with-empty-value: "" labels: - "com.example.description=Database volume" - "com.example.department=IT/Ops" - "com.example.label-with-empty-value"
Network configuration reference
The top-level networks
key lets you specify networks to be created. For a full explanation of Compose’s use of Docker networking features, see the Networking guide.
driver
Specify which driver should be used for this network.
The default driver depends on how the Docker Engine you’re using is configured, but in most instances it will be bridge
on a single host and overlay
on a Swarm.
The Docker Engine will return an error if the driver is not available.
driver: overlay
driver_opts
Specify a list of options as key-value pairs to pass to the driver for this network. Those options are driver-dependent - consult the driver’s documentation for more information. Optional.
driver_opts: foo: "bar" baz: 1
enable_ipv6
Enable IPv6 networking on this network.
ipam
Specify custom IPAM config. This is an object with several properties, each of which is optional:
-
driver
: Custom IPAM driver, instead of the default. -
config
: A list with zero or more config blocks, each containing any of the following keys:-
subnet
: Subnet in CIDR format that represents a network segment -
ip_range
: Range of IPs from which to allocate container IPs -
gateway
: IPv4 or IPv6 gateway for the master subnet -
aux_addresses
: Auxiliary IPv4 or IPv6 addresses used by Network driver, as a mapping from hostname to IP
-
A full example:
ipam: driver: default config: - subnet: 172.28.0.0/16 ip_range: 172.28.5.0/24 gateway: 172.28.5.254 aux_addresses: host1: 172.28.1.5 host2: 172.28.1.6 host3: 172.28.1.7
internal
Version 2 file format and up.
By default, Docker also connects a bridge network to it to provide external connectivity. If you want to create an externally isolated overlay network, you can set this option to true
.
labels
Add metadata to containers using Docker labels. You can use either an array or a dictionary.
It’s recommended that you use reverse-DNS notation to prevent your labels from conflicting with those used by other software.
labels: com.example.description: "Financial transaction network" com.example.department: "Finance" com.example.label-with-empty-value: "" labels: - "com.example.description=Financial transaction network" - "com.example.department=Finance" - "com.example.label-with-empty-value"
external
If set to true
, specifies that this network has been created outside of Compose. docker-compose up
will not attempt to create it, and will raise an error if it doesn’t exist.
external
cannot be used in conjunction with other network configuration keys (driver
, driver_opts
, group_add
, ipam
, internal
).
In the example below, proxy
is the gateway to the outside world. Instead of attempting to create a network called [projectname]_outside
, Compose will look for an existing network simply called outside
and connect the proxy
service’s containers to it.
version: '2' services: proxy: build: ./proxy networks: - outside - default app: build: ./app networks: - default networks: outside: external: true
You can also specify the name of the network separately from the name used to refer to it within the Compose file:
networks: outside: external: name: actual-name-of-network
Versioning
There are currently three versions of the Compose file format:
- Version 1, the legacy format. This is specified by omitting a
version
key at the root of the YAML. - Version 2, the recommended format. This is specified with a
version: '2'
entry at the root of the YAML. - Version 2.1, an upgrade over version 2 that takes advantage of the Docker Engine’s newest features. Specify with a
version: '2.1'
entry at the root of the YAML.
To move your project from version 1 to 2, see the Upgrading section.
Note: If you’re using multiple Compose files or extending services, each file must be of the same version - you cannot mix version 1 and 2 in a single project.
Several things differ depending on which version you use:
- The structure and permitted configuration keys
- The minimum Docker Engine version you must be running
- Compose’s behaviour with regards to networking
These differences are explained below.
Version 1
Compose files that do not declare a version are considered “version 1”. In those files, all the services are declared at the root of the document.
Version 1 is supported by Compose up to 1.6.x. It will be deprecated in a future Compose release.
Version 1 files cannot declare named volumes, networks or build arguments.
Example:
web: build: . ports: - "5000:5000" volumes: - .:/code links: - redis redis: image: redis
Version 2
Compose files using the version 2 syntax must indicate the version number at the root of the document. All services must be declared under the services
key.
Version 2 files are supported by Compose 1.6.0+ and require a Docker Engine of version 1.10.0+.
Named volumes can be declared under the volumes
key, and networks can be declared under the networks
key.
Simple example:
version: '2' services: web: build: . ports: - "5000:5000" volumes: - .:/code redis: image: redis
A more extended example, defining volumes and networks:
version: '2' services: web: build: . ports: - "5000:5000" volumes: - .:/code networks: - front-tier - back-tier redis: image: redis volumes: - redis-data:/var/lib/redis networks: - back-tier volumes: redis-data: driver: local networks: front-tier: driver: bridge back-tier: driver: bridge
Version 2.1
An upgrade of version 2 that introduces new parameters only available with Docker Engine version 1.12.0+
Introduces the following additional parameters:
link_local_ips
isolation
-
labels
for volumes and networks
Upgrading
In the majority of cases, moving from version 1 to 2 is a very simple process:
- Indent the whole file by one level and put a
services:
key at the top. - Add a
version: '2'
line at the top of the file.
It’s more complicated if you’re using particular configuration features:
-
dockerfile
: This now lives under thebuild
key:build: context: . dockerfile: Dockerfile-alternate
-
log_driver
,log_opt
: These now live under thelogging
key:logging: driver: syslog options: syslog-address: "tcp://192.168.0.42:123"
-
links
with environment variables: As documented in the environment variables reference, environment variables created by links have been deprecated for some time. In the new Docker network system, they have been removed. You should either connect directly to the appropriate hostname or set the relevant environment variable yourself, using the link hostname:web: links: - db environment: - DB_PORT=tcp://db:5432
-
external_links
: Compose uses Docker networks when running version 2 projects, so links behave slightly differently. In particular, two containers must be connected to at least one network in common in order to communicate, even if explicitly linked together.Either connect the external container to your app’s default network, or connect both the external container and your service’s containers to an external network.
-
net
: This is now replaced by network_mode:net: host -> network_mode: host net: bridge -> network_mode: bridge net: none -> network_mode: none
If you’re using
net: "container:[service name]"
, you must now usenetwork_mode: "service:[service name]"
instead.net: "container:web" -> network_mode: "service:web"
If you’re using
net: "container:[container name/id]"
, the value does not need to change.net: "container:cont-name" -> network_mode: "container:cont-name" net: "container:abc12345" -> network_mode: "container:abc12345"
-
volumes
with named volumes: these must now be explicitly declared in a top-levelvolumes
section of your Compose file. If a service mounts a named volume calleddata
, you must declare adata
volume in your top-levelvolumes
section. The whole file might look like this:version: '2' services: db: image: postgres volumes: - data:/var/lib/postgresql/data volumes: data: {}
By default, Compose creates a volume whose name is prefixed with your project name. If you want it to just be called
data
, declare it as external:volumes: data: external: true
Variable substitution
Your configuration options can contain environment variables. Compose uses the variable values from the shell environment in which docker-compose
is run. For example, suppose the shell contains EXTERNAL_PORT=8000
and you supply this configuration:
web: build: . ports: - "${EXTERNAL_PORT}:5000"
When you run docker-compose up
with this configuration, Compose looks for the EXTERNAL_PORT
environment variable in the shell and substitutes its value in. In this example, Compose resolves the port mapping to "8000:5000"
before creating the web
container.
If an environment variable is not set, Compose substitutes with an empty string. In the example above, if EXTERNAL_PORT
is not set, the value for the port mapping is :5000
(which is of course an invalid port mapping, and will result in an error when attempting to create the container).
You can set default values for environment variables using a .env
file, which Compose will automatically look for. Values set in the shell environment will override those set in the .env
file.
$ unset EXTERNAL_PORT $ echo "EXTERNAL_PORT=6000" > .env $ docker-compose up # EXTERNAL_PORT will be 6000 $ export EXTERNAL_PORT=7000 $ docker-compose up # EXTERNAL_PORT will be 7000
Both $VARIABLE
and ${VARIABLE}
syntax are supported. Additionally when using the 2.1 file format, it is possible to provide inline default values using typical shell syntax:
-
${VARIABLE:-default}
will evaluate todefault
ifVARIABLE
is unset or empty in the environment. -
${VARIABLE-default}
will evaluate todefault
only ifVARIABLE
is unset in the environment.
Other extended shell-style features, such as ${VARIABLE/foo/bar}
, are not supported.
You can use a $$
(double-dollar sign) when your configuration needs a literal dollar sign. This also prevents Compose from interpolating a value, so a $$
allows you to refer to environment variables that you don’t want processed by Compose.
web: build: . command: "$$VAR_NOT_INTERPOLATED_BY_COMPOSE"
If you forget and use a single dollar sign ($
), Compose interprets the value as an environment variable and will warn you:
The VAR_NOT_INTERPOLATED_BY_COMPOSE is not set. Substituting an empty string.
Compose documentation
- User guide
- Installing Compose
- Get started with Django
- Get started with Rails
- Get started with WordPress
- Command line reference
© 2017 Docker, Inc.
Licensed under the Apache License, Version 2.0.
Docker and the Docker logo are trademarks or registered trademarks of Docker, Inc. in the United States and/or other countries.
Docker, Inc. and other parties may also have trademark rights in other terms used herein.
https://docs.docker.com/v1.12/compose/compose-file/