Governance, Risk Management, and Compliance are activities necessary for any organization with regulatory or contractual obligations.
Governance refers to management structure, policies, procedures, shareholder relations, etc.
Risk Management is a process to identify business and technical risks as well as means to mitigate those.
Compliance refers to processes necessary to meet applicable regulations and communicate to stakeholders about it.
Many organizations operate in multiple jurisdictions worldwide, each of which has its own and often overlapping laws and regulations. Organizational functions and information relating to risk management and compliance often tend to be managed in silos reflecting the multiple jurisdictions, scope, stakeholder diversity and historical basis. This leads to inefficiency.
The GGRC project intends to provide an open source solution for managing some of these common problems. The application provides a common system of record for information in this domain. It provides the ability to capture the relationships and to understand how the pieces fit together. It also provides workflow capability to manage processes in this domain.
The following software is required to stand up a GGRC-Core development environment:
Prerequisite | Description |
---|---|
Docker | Container management tool |
Docker compose | A tool for defining multi-container apps |
NOTE for Windows/OSX users: The easiest way of getting docker is by installing the docker toolbox.
Or alternatively with our legacy vagrant environment:
Prerequisite | Description |
---|---|
VirtualBox | Oracle VirtualBox Virtual Machine player |
Vagrant | Handy scriptable VM management |
Ansible | Provisioning and deployment tool |
Getting started with GGRC-Core development should be fast and easy once you have docker up and running. Here are the steps:
NOTE for Windows/OSX users: Make sure docker
is up and running by following the windows guide / osx guide.
-
clone the repo
-
cd to the project directory
-
run the following:
git submodule update --init docker-compose up -d docker exec -it ggrccore_dev_1 su vagrant make -B bower_components build_css build_assets db_reset
If you see download errors during the docker-compose up -d
stage, or if any subsequent
step fails, try running docker-compose build
(See Reprovisioning a Docker container below for more).
NOTE: Because docker shared volumes do not have permission mappings, you should run these commands as a user with UID 1000, to match the users inside the containers.
Alternative setup is using vagrant
-
clone the repo
-
cd to the project directory
-
make sure you use ansible version 1.9.X (if it's not in the repositories, you can install it via pip)
-
run the following:
git submodule update --init vagrant up vagrant ssh build_css build_assets db_reset
If you see download errors during the vagrant up
stage, or if any subsequent
step fails, try running vagrant provision
(See Provision a running Vagrant
VM below for more).
Now you're in the VM and ready to rock. Get to work!
Most development is done in a stand-alone flask. We strive to make getting up and running as simple as possible; to that end, launching the application is simple:
launch_ggrc
We strive to make getting up and running as simple as possible; to that end, launching the application in the Google App Engine SDK environment is simple:
launch_gae_ggrc
This requires src/app.yaml
and src/packages.zip
with settings. You can generate the yaml file with:
deploy_appengine extras/deploy_settings_local.sh
And the packages.zip file with:
make appengine_packages_zip
The application will be accessible via this URL: http://localhost:8080/
If you're running the Google App Engine SDK, the App Engine management console will be available via this URL: http://localhost:8000/. You can login as [email protected] with admin rights and setup other users later.
Tests are your friend! Keep them running, keep them updated.
run_karma # To run karma with PhantomJS
run_karma_chrome # To run karma in host browser (open http://localhost:9876)
run_karma
is the default way of running tests as it automatically
builds the javascript assets on file changes. Use run_karma_chrome
if you
need to debug an issue in the chrome browser. For performance reasons
run_karma_chrome
does not automatically build assets, so make sure you do it
manually by running build_assets
.
run_pytests
The script will run unit tests and integration tests.
For better usage of unit tests you can use sniffer inside the test/unit folder. This will run the tests on each file update.
cd test/unit; sniffer
You can drop into ipdb debugger on failures by running:
run_pytests --ipdb-failures
On the host machine in the root of the repository run:
./bin/jenkins/run_selenium
For selenium tests, you must use the docker environment. There are two containers needed for running seleium tests ggrccore_dev_1
and ggrccore_selenium_1
. Due to a bug in the selenium container, you must start the containers with:
docker-compose up -d --force-recreate
After that you can make sure that both containers are running with docker ps -a
.
To run the selenium tests, you must login into your dev container, and run the server:
docker exec -it ggrccore_dev_1 su vagrant
make bower_components
build_css
build_assets
db_reset
launch_ggrc
Then you can login into the selenium container and run the tests:
docker exec -it ggrccore_selenium_1 bash
python /selenium/src/run_selenium.py
You should also feel free to check how the ./bin/jenkins/run_selenium
script works.
NOTE: that the "ggrccore" part of the name is due to the repository parent folder name. if you have your repo in a different folder, change the first part accordingly.
The quickstart above gives a glimpse into the GGRC development environment. It's worth noting where there is automation in GGRC, and where there isn't. Often the lack of automation support for a step is intentional. Let's explore each step in detail.
GGRC makes use of some external tools for Sass templates and JavaScript form handling. In order to have the relevant repositories checked out as Git submodules the following command must be issued in the project directory:
git submodule update --init
GGRC-Core provides both a Vagrantfile
and an Ansible playbook to make
standing up a development environment simple and repeatable thanks to the magic
of Vagrant and Ansible. Vagrant enables developers to use a consistent and
shared VM configuration to perform application testing while allowing
developers to use the source code editing environment of their choice.
The application is run in a virtual machine environment that can be repeatably, consistently, and reliably constructed thanks to Vagrant. In order to use Vagrant to create and manage the development virtual machine environment, it must first be created by issuing the following command from the project directory:
vagrant up
This results in the creation of the virtual machine and the provisioning of required software to support the development and execution of GGRC.
There are several ways to update the provisioning of a Vagrant VM when changes have been made to the cookbooks or other dependency management mechanisms in GGRC.
To run provisioning on a running Vagrant VM, simply run the following in the project directory:
vagrant provision
If you have halted your Vagrant VM via vagrant halt
, simply vagrant up
in the project directory to have provisioning run and update your development
environment.
To create a clean slate environment in your Vagrant VM you can either reload or recreate the environment. To reload the environment issue the following command in the project directory:
vagrant reload
To completely recreate the environment issue the following command in the project directory:
vagrant destroy
vagrant up
To reprovision a docker container run the following:
Remove files that are not in the repository e.g. python cache:
git clean -df
Start reprovisioning:
docker-compose build --pull --no-cache
Because docker provisioning is done with Dockerfile which can not modify content of a shared volume, you need to enter the container and run one more step to finish the provisioning
docker-compose up -d --force-recreate
docker exec -it ggrccore_dev_1 su vagrant
make bower_components
Since GGRC uses Sass for CSS templating, the templates need to be compiled. This has been automated via a script available in $PATH in the virtual machine:
build_css
To have a process watch the Sass resources and compile them as they are changed you could use this command:
watch_css
For other asset bundling required, there is the following command:
build_assets
As for CSS, there is an asset builder that can watch for changes and update files as they change:
watch_assets
Example test data can be loaded with the following command:
db_reset backup-file.sql
After sync'ing your local clone of GGRC-Core you may experience a failure when trying to run the application due to a change (usually an addition) to the prerequisites.
There are three primary classes of requirements for GGRC-Core: Submodules, Python requirements and other provision steps
There are two pip requirements files: a runtime requirements file,
src/requirements.txt
, for application package dependencies and a
development requirements file, src/requirements-dev.txt
, for additional
development-time package dependencies. The runtime requirements are deployed
with the application while the development requirements are only used in the
development environment (largely for testing purposes).
Most requirements changes should be in either src/requirements.txt
or
src/requirements-dev.txt
and would manifest as module import failures.
GGRC_SETTINGS_MODULE:
GGRC uses this environment variable to define which module(s) within
ggrc.settings
to use during the bootstrap phase. The value can be one
or more space-separated module names, which will be applied in the same
order they are specified. source bin/init_env
will set this value to
development
.
vagrant provision
installs several Debian packages globally within the
VM. All other project data is contained within two directories, specified by
environment variables (and defined in /home/vagrant/.bashrc
).
PREFIX:
Points at root directory of the Git repository, and is automatically detected if not present.
DEV_PREFIX:
Points at a directory containing tmp
and opt
directories. If not
defined, DEV_PREFIX
defaults to the value of PREFIX
. (In the VM,
it is defined to /vagrant-dev
to avoid slowdown caused by the shared
filesystem at /vagrant
.)
The first thing to try to resolve issues due to missing prerequisites is to run the following command from within the project directory in the host operating system:
vagrant provision
or if you're using docker:
docker-compose build
This will prompt vagrant to run the Ansible provisioner or docker to rebuild the containers. The result of this command should be an update Python virtualenv containing the Python packages required by the application as well as any new development package requirements.
To Manually update the requirements, you can login to vagrant or docker virtual machine and run
pip install -r src/requirements-dev.txt
pip install --no-deps -r src/requirements.txt
Note that if you're using launch_gae_ggrc
, then changes to
src/requirements.txt
will require rebuilding the src/packages.zip
via
make appengine_packages_zip
A change in the git submodules required by the project could also lead to errors, particularly in the front-end HTML portion of the application. The solution is to update the submodules:
git submodule update
Given that Sass and Javascript related projects are included in the submodule requirements of GGRC, it may also be necessary to rebuild the Sass and other web assets:
build_css
build_assets
Copyright (C) 2013-2017 Google Inc., authors, and contributors (see the AUTHORS file). Licensed under the Apache 2.0 license (see the LICENSE file).