OEP | OEP-5 |
Title | Pre-built Developer Environments |
Last Modified | 2016-08-04 |
Author | Calen Pennington <cale@edx.org> |
Arbiter | Jesse Zoldak <jzoldak@edx.org> |
Status | Accepted |
Type | Best Practice |
Created | 2016-06-28 |
Open edX is a large ecosystem of smaller services. In order to facilitate newcomers working in that system, each service will provide a pre-built environment that is packaged, published, and ready to be used for development.
Open edX and the edx-platform repository have gone through several iterations of developer setup instructions.
The first set of instructions detailed how to install edx-platform and all of its dependencies on your local workstation. As the number of developers and developer environments increased, so did the workload of maintaining instructions to work around all of the idiosyncrasies in those environments. These instructions weren’t useful for production installations, which were standardized on a particular release of the Ubuntu operating system.
The second, current, method of development is referred to as Devstack
. This
is a Vagrant image that comes prepackaged with installations of
edx-platform, forums, and an increasingly large number of other services, as
well as single shared instances of the databases that they all need to run.
This marked a significant improvement over the ad-hoc installation methods,
because it was able to use the infrastructure that was built out for installing
Open edX in production. However, there are several problems with the current
monolithic Vagrant image which we would like to address:
The primary developer interaction with the local development environment will
be through make
shortcuts in the repository containing the code for the
service being developed. For example, in order to work on an edx-platform
local development environment, a developer could run make dev.watch
from a
checked-out edx-platform repository.
The following targets will be standard:
make dev.watch # Start the local development environment services (if
# they aren't already) and display their logs on stdout.
make dev.shell # Start the local development environment services (if they
# aren't already) and access a shell on the primary
# container (as the user that owns the service, in the
# directory that has the service source code).
make dev.clean # Stop the local development environment services and
# remove any intermediate data that they stored in the
# .dev/ directory.
make dev.* # Start the local development environment services (if they
# aren't already) and run `make *` from the code directory
# of the primary service (as the service owner).
Third-party services like MySQL and MongoDB should be run using vendor provided official containers. If no reasonable alternative exists to customizing a provided container, the minimal changes should be applied as a layer on the provided container.
Rationale: We should be aiming to minimize the amount of work needed to support our development environments. Minimizing changes to third-party containers means we have less code/configuration that we need to update as third-party containers and applications change. Minimizing customization should also push us in the direction of making it easy to deploy our stack, because there will be fewer customizations needed by operators of Open edX in production.
Open edX containers must run all of their processes via supervisor to provide a single entry point even when the container has multiple processes (such as nginx and a Django service running under gunicorn).
Rationale: Docker imposes a single-entry-point constraint. Standardizing on supervisor means that we need to make fewer choices during development, and that we can combine the learnings and configurations across various Open edX projects.
Open edX services running in containers must log to stdout
and
stderr
.
Rationale: Logging to stdout
and stderr
makes it significantly
easier to develop the app in different environments, since those file handles
are available nearly everywhere. Supervisor captures both file handles and
logs their contents to disk, which means that we can display the logs to the
screen, and can search through old development logs.
Dependent services (such as databases) should be configured by default to
mount their storage directories inside .dev/
inside the source code
directory (this should be added to .gitignore and .dockerignore). This
location should be configurable via an environment variable.
Rationale: This will allow data from local development environment to persist across container executions. Locating the storage in the source code repository isolates the storage of third-party containers that are used in common between local development environments so that data doesn’t leak between them. Making the storage location configurable means that local development environments could share storage if desired.
The Open edX service must mount the source code directory from the host machine into the development container so that the local development environment is always running the version of code being edited.
Rationale: The development container should always run the latest source code that the developer is editing. Having it mount the local source code means that the developer can edit on their local machine and have their changes reflected immediately in the container.
The local development environment should be configured to auto-reload when source code is modified.
Rationale: Fast feedback loops are key to developer productivity. Having the application reflect changes made by the developer as soon as possible allows the developer to test and validate their changes quickly.
Open edX Service containers should be built during CI, and published so that any developer can download the latest container. They should also be tagged for each versioned release.
Rationale: Having a container that is up-to-date with both code and configuration makes it easier for developers to make their changes with confidence that those same changes will work once they are merged. Having containers for previous releases allows easier development for hot fixes.
The local development environment should be installed with all pre-requisites to allow tests to be run on them without additional developer input.
Rationale: Tests are an important part of the fast feedback loop for developers. Being able to run those tests immediately when the local development environment starts means that developers can have confidence that the environment is working correctly for development.
Development containers should be designed for development over production.
Rationale: The local development environment is intended to make it easy for new and existing developers to make changes to Open edX services. As such, they should be focussed first on development, and only secondarily on production-readiness or production-fidelity.
The prototype implementation was done using Docker for the containers, and Docker Compose to manage the networking between services.
Docker has a low per-service overhead, because it doesn’t allocate resources to particular containers.
Docker uses a layered file system, which, if used properly, should let us limit the amount of data that a developer needs to download to update from one version of the base image to the next.
This implementation supersedes and replaces use of Vagrant for the local development environment. However, nothing in the implementation should break the Vagrant-based local development environment during the development phase, and developers currently using Vagrant will be able to continue to use it. Long-term, the goal will be to deprecate and no longer support the Vagrant-based local development environment.
The course-discovery service uses a Docker-based local development environment, and was the prototype implementation of this OEP. However, it will need modification to fully meet the specifications of this OEP.