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score-compose
is a reference implementation of the Score specification for Docker compose, primarily used for local development. It supports most aspects of the Score specification and provides a powerful resource provisioning system for supplying and customising the dynamic configuration of attached services such as databases, queues, storage, and other network or storage APIs.
Feature support
score-compose
supports as many Score features as possible, however there are certain parts that don't fit well in a local Docker case and are not supported:
Feature | Support | Impact |
---|---|---|
containers.*.resources.limits / containers.*.resources.requests | none | Limits will be validated but ignored. While the compose specification has some support for this, it is requires particular Docker versions that cannot be relied on. This should have no impact on Workload execution. |
containers.*.livenessProbe / containers.*.readinessProbe | none | Probes will be validated but ignored. The Score specification only details K8s-like HTTP probes, but the compose specification only supports direct command execution. We cannot convert between the two reliably. This should have no impact on Workload execution. Tracked in #86. |
Resource support
score-compose
comes with out-of-the-box support for:
Type | Class | Params | Output |
---|---|---|---|
environment | default | (none) | ${KEY} |
service-port | default | workload , port | hostname , port |
volume | default | (none) | source |
redis | default | (none) | host , port , username , password |
postgres | default | (none) | host , port , name (aka database ), username , password |
mysql | default | (none) | host , port , name (aka database ), username , password |
s3 | default | (none) | endpoint , access_key_id , secret_key , bucket , with region="" , aws_access_key_id=<access_key_id> , and aws_secret_key=<secret_key> for compatibility |
dns | default | (none) | host |
route | default | host , path , port | |
amqp | default | (none) | host , port , vhost , username , password |
mongodb | default | (none) | host , port , username , password , connection |
kafka-topic | default | (none) | host , port , name , num_partitions |
elasticsearch | default | (none) | host , port , username , password |
These can be found in the default provisioners file. You are encouraged to write your own provisioners and add them to the .score-compose
directory (with the .provisioners.yaml
extension) or contribute them upstream to the default.provisioners.yaml file.
Installation
To install score-compose
, follow the instructions as described in our installation guide. You will also need a recent version of Docker and the Compose plugin installed. Read more here.
Get started
NOTE: the following examples and guides relate to score-compose >= 0.11.0
, check your version using score-compose --version
and re-install if you're behind!
See the examples for more examples of using Score and provisioning resources:
- 01-hello - a basic example of a Score Workload
- 02-environment - an example of environment variables and the
type: environment
resource - 03-files - mounting local files into the running Workload
- 04-multiple-workloads - examples of multiple containers and workloads together
- 05-volume-mounts - an example of an "empty-dir" volume resource with
type: volume
- 06-resource-provisioning - detailed example and information about resource provisioning and the operation of the
template://
andcmd://
provisioners - 07-overrides - details of how to override aspects of the input Score file and output Docker compose files
- 08-service-port-resource - an example of using the
service-port
resource type to link between workloads - 09-dns-and-route - an example of using the
dns
androute
resources to route http requests - 10-amqp-rabbitmq - an example the default
amqp
resource provisioner - 11-mongodb-document-database - an example the default
mongodb
resource provisioner - 12-mysql-database - an example of the default
mysql
resource provisioner - 13-kafka-topic - an example of the default
kafka-topic
resource provisioner - 14-elasticsearch - an example of the default
elasticsearch
resource provisioner
If you're getting started, you can use score-compose init
to create a basic score.yaml
file in the current directory along with a .score-compose/
working directory.
$ score-compose init --help
The init subcommand will prepare the current directory for working with score-compose and prepare any local
files or configuration needed to be successful.
A directory named .score-compose will be created if it doesn't exist. This file stores local state and generally should
not be checked into source control. Add it to your .gitignore file if you use Git as version control.
The project name will be used as a Docker compose project name when the final compose files are written. This name
acts as a namespace when multiple score files and containers are used.
Usage:
score-compose init [flags]
Examples:
# Define a score file to generate
score-compose init --file score2.yaml
# Or override the docker compose project name
score-compose init --project score-compose2
# Or disable the default score file generation if you already have a score file
score-compose init --no-sample
# Optionally loading in provisoners from a remote url
score-compose init --provisioners https://raw.githubusercontent.com/user/repo/main/example.yaml
Flags:
-f, --file string The score file to initialize (default "./score.yaml")
-h, --help help for init
--no-sample Disable generation of the sample score file
-p, --project string Set the name of the docker compose project (defaults to the current directory name)
--provisioner stringArray A provisioners file to install. May be specified multiple times. Supports http://host/file, https://host/file, git-ssh://git@host/repo.git/file, git-https://host/repo.git/file and oci://[registry/][namespace/]repository[:tag|@digest][#file] formats.
Global Flags:
--quiet Mute any logging output
-v, --verbose count Increase log verbosity and detail by specifying this flag one or more times
Once you have a score.yaml
file created, modify it by following this guide, and use score-compose generate
to convert it into a Docker compose manifest:
The generate command will convert Score files in the current Score compose project into a combined Docker compose
manifest. All resources and links between Workloads will be resolved and provisioned as required.
By default this command looks for score.yaml in the current directory, but can take explicit file names as positional
arguments.
"score-compose init" MUST be run first. An error will be thrown if the project directory is not present.
Usage:
score-compose generate [flags]
Examples:
# Specify Score files
score-compose generate score.yaml *.score.yaml
# Regenerate without adding new score files
score-compose generate
# Provide overrides when one score file is provided
score-compose generate score.yaml --override-file=./overrides.score.yaml --override-property=metadata.key=value
# Publish a port exposed by a workload for local testing
score-compose generate score.yaml --publish 8080:my-workload:80
# Publish a port from a resource host and port for local testing, the middle expression is RESOURCE_ID.OUTPUT_KEY
score-compose generate score.yaml --publish 5432:postgres#my-workload.db.host:5432
Flags:
--build stringArray An optional build context to use for the given container --build=container=./dir or --build=container={"context":"./dir"}
--env-file string Location to store a skeleton .env file for compose - this will override existing content
-h, --help help for generate
--image string An optional container image to use for any container with image == '.'
-o, --output string The output file to write the composed compose file to (default "compose.yaml")
--override-property stringArray An optional set of path=key overrides to set or remove
--overrides-file string An optional file of Score overrides to merge in
--publish stringArray An optional set of HOST_PORT:<ref>:CONTAINER_PORT to publish on the host system.
Global Flags:
--quiet Mute any logging output
-v, --verbose count Increase log verbosity and detail by specifying this flag one or more times
NOTE: The score-compose run
command still exists but is hidden and should be considered deprecated as it does not support resource provisioning.
Using the --publish
flag
score-compose
installs all workloads and resource services into the compose docker network but does not publish ports on the host by default. To access ports inside the network, the user must either exec into a target container, run a new socat
container with published ports, use a route
resource that publishes "public" ports, or modify the compose.yaml directly.
The --publish
flag on the generate
command can be used to automatically add published ports to the services in the compose.yaml file in a safe and dynamic way. Note that this is an ephemeral flag not stored in the state file. As such it should be added to the last invocation of score-compose generate
to avoid it being overridden by subsequent calls.
- To publish a container port from a workload to the host, use
--publish HOST_PORT:<workload>:CONTAINER_PORT
. - To publish a a port from one of the resource services, use
--publish HOST_PORT:<resource uid>.<output key>:CONTAINER_PORT
. Examples of this are:15432:postgres#my-workload.res.host:5432
-host
is the output on thepostgres.default#my-workload.res
Postgres resource that contains the service hostname.9001:s3.default#storage.service:9001
-service
is the service name output on thes3.default#storage
S3 resource.
This deprecates the use of the compose.score.dev/publish-port
resource metadata annotation in most cases.
Testing
Run the tests using go test -v ./... -race
. If you do not have docker
CLI installed locally or want the tests to run
faster, consider setting NO_DOCKER=true
to skip any docker compose
based validation during testing.
Get in touch
Learn how to connect and engage with our community here.
Contribution Guidelines and Governance
Our general contributor guidelines can be found in CONTRIBUTING.md. Please note that some repositories may have additional guidelines. For more information on our governance model, please refer to GOVERNANCE.md.
Documentation
You can find our documentation at docs.score.dev.
Roadmap
See Roadmap. You can submit an idea anytime.