- V3 API Docs
- V2 API Docs
- Continuous Integration Pipelines
- Notes on V3 Architecture
- capi-release - The bosh release used to deploy cloud controller
The Cloud Controller provides REST API endpoints to create and manage apps, services, user roles, and more!
The Cloud Controller supports Postgres and Mysql.
The Cloud Controller manages a blobstore for:
All Platforms:
- Resource cache: During package upload resource matching, Cloud Controller will only upload files it doesn't already have in this cache.
When deployed via capi-release only:
- App packages: Unstaged files for an application
- Droplets: An executable containing an app and its runtime dependencies
- Buildpacks: Set of programs that transform packages into droplets
- Buildpack cache: Cached dependencies and build artifacts to speed up future staging
Cloud Controller currently supports webdav and the following fog connectors:
- Alibaba Cloud (Experimental)
- Azure
- Openstack
- Local (NFS)
- AWS
The Cloud Controller on VMs uses Diego to stage and run apps and tasks. See Diego Design Notes for more details.
Please read the contributors' guide and the Cloud Foundry Code of Conduct
TLDR: Always run bundle exec rake
before committing
To maintain a consistent and effective approach to testing, please refer to the spec README and keep it up to date, documenting the purpose of the various types of tests.
By default rspec
will randomly pick between postgres and mysql.
If postgres is not running on your OSX machine, you can start up a server by doing the following:
brew services start postgresql
createuser -s postgres
DB=postgres rake db:create
It will try to connect to those databases with the following connection string:
- postgres:
postgres://postgres@localhost:5432/cc_test
- mysql:
mysql2://root:password@localhost:3306/cc_test
To specify a custom username, password, host, or port for either database type, you can override the default
connection string prefix (the part before the cc_test
database name) by setting the MYSQL_CONNECTION_PREFIX
and/or POSTGRES_CONNECTION_PREFIX
variables. Alternatively, to override the full connection string, including
the database name, you can set the DB_CONNECTION_STRING
environment variable. This will restrict you to only
running tests in serial, however.
For example, to run unit tests in parallel with a custom mysql username and password, you could execute:
MYSQL_CONNECTION_PREFIX=mysql2://custom_user:custom_password@localhost:3306 bundle exec rake
The following are examples of completely fully overriding the database connection string:
DB_CONNECTION_STRING="postgres://postgres@localhost:5432/cc_test" DB=postgres rake spec:serial
DB_CONNECTION_STRING="mysql2://root:password@localhost:3306/cc_test" DB=mysql rake spec:serial
If you are running the integration specs (which are included in the full rake),
and you are specifying DB_CONNECTION_STRING
, you will also
need to have a second test database with _integration_cc
as the name suffix.
For example, if you are using:
DB_CONNECTION_STRING="postgres://postgres@localhost:5432/cc_test"
You will also need a database called:
`cc_test_integration_cc`
The command
rake db:create
will create the above database when the DB
environment variable is set to postgres or mysql.
You should run this before running rake in order to ensure that the cc_test
database exists.
The development team typically will run the specs to a single file as (e.g.)
bundle exec rspec spec/controllers/runtime/users_controller_spec.rb
bundle exec rake spec
Note that this will run all tests in parallel by default. If you are setting a custom DB_CONNECTION_STRING
,
you will need to run the tests in serial instead:
bundle exec rake spec:serial
To be able to run the unit tests in parallel and still use custom connection strings, use the
MYSQL_CONNECTION_PREFIX
and POSTGRES_CONNECTION_PREFIX
environment variables described above.
bundle exec rubocop
By default, bundle exec rake
will run the unit tests first, and then rubocop
if they pass. To run rubocop
first, run:
RUBOCOP_FIRST=1 bundle exec rake
Cloud Controller uses Steno to manage its logs. Each log entry includes a "source" field to designate which module in the code the entry originates from. Some of the possible sources are 'cc.app', 'cc.app_stager', and 'cc.healthmanager.client'.
Here are some use cases for the different log levels:
error
- the CC received a malformed HTTP request, or a request for a non-existent dropletwarn
- the CC failed to delete a droplet, CC received a request with an invalid auth tokeninfo
- CC received a token from UAA, CC received a NATS requestdebug2
- CC created a service, updated a servicedebug
- CC syncs resource pool, CC uploaded a file
The Cloud Controller uses a YAML configuration file. For an example, see config/cloud_controller.yml
.