- Please sign one of the contributor license agreements below.
- Fork the repo, develop and test your code changes, add docs.
- Make sure that your commit messages clearly describe the changes.
- Send a pull request.
Here are some guidelines for hacking on gcloud-python
.
You'll have to create a development environment to hack on gcloud-python
,
using a Git checkout:
While logged into your GitHub account, navigate to the
gcloud-python
repo on GitHub.Fork and clone the
gcloud-python
repository to your GitHub account by clicking the "Fork" button.Clone your fork of
gcloud-python
from your GitHub account to your local computer, substituting your account username and specifying the destination as "hack-on-gcloud". E.g.:$ cd ~ $ git clone [email protected]:USERNAME/gcloud-python.git hack-on-gcloud $ cd hack-on-gcloud # Configure remotes such that you can pull changes from the gcloud-python # repository into your local repository. $ git remote add upstream https://github.com:GoogleCloudPlatform/gcloud-python # fetch and merge changes from upstream into master $ git fetch upstream $ git merge upstream/master
Now your local repo is set up such that you will push changes to your GitHub repo, from which you can submit a pull request.
Create a virtualenv in which to install
gcloud-python
:$ cd ~/hack-on-gcloud $ virtualenv --python python2.7 env
Note that very old versions of virtualenv (virtualenv versions below, say, 1.10 or thereabouts) require you to pass a
--no-site-packages
flag to get a completely isolated environment.You can choose which Python version you want to use by passing a
--python
flag tovirtualenv
. For example,virtualenv --python python2.7
chooses the Python 2.7 interpreter to be installed.From here on in within these instructions, the
~/hack-on-gcloud/env
virtual environment you created above will be referred to as$VENV
. To use the instructions in the steps that follow literally, use theexport VENV=~/hack-on-gcloud/env
command.Install
gcloud-python
from the checkout into the virtualenv usingsetup.py develop
. Runningsetup.py develop
must be done while the current working directory is thegcloud-python
checkout directory:$ cd ~/hack-on-gcloud $ $VENV/bin/python setup.py develop
If the error mentions Python.h
not being found,
install python-dev
and try again.
On Debian/Ubuntu:
$ sudo apt-get install python-dev
In order to add a feature to gcloud-python
:
- The feature must be documented in both the API and narrative
documentation (in
docs/
). - The feature must work fully on the following CPython versions: 2.6, and 2.7 on both UNIX and Windows.
- The feature must not add unnecessary dependencies (where "unnecessary" is of course subjective, but new dependencies should be discussed).
PEP8 compliance, with exceptions defined in
tox.ini
. If you havetox
installed, you can test that you have not introduced any non-compliant code via:$ tox -e lint
In order to make
tox -e lint
run faster, you can set some environment variables:export GCLOUD_REMOTE_FOR_LINT="upstream" export GCLOUD_BRANCH_FOR_LINT="master"
By doing this, you are specifying the location of the most up-to-date version of
gcloud-python
. The the suggested remote nameupstream
should point to the officialGoogleCloudPlatform
checkout and the the branch should be the main branch on that remote (master
).
Exceptions to PEP8:
- Many unit tests use a helper method,
_callFUT
("FUT" is short for "Function-Under-Test"), which is PEP8-incompliant, but more readable. Some also use a local variable,MUT
(short for "Module-Under-Test").
To run all tests for
gcloud-python
on a single Python version, runnosetests
from your development virtualenv (See Using a Development Checkout above).To run the full set of
gcloud-python
tests on all platforms, installtox
(https://testrun.org/tox/) into a system Python. Thetox
console script will be installed into the scripts location for that Python. Whilecd
'ed to thegcloud-python
checkout root directory (it containstox.ini
), invoke thetox
console script. This will read thetox.ini
file and execute the tests on multiple Python versions and platforms; while it runs, it creates a virtualenv for each version/platform combination. For example:$ sudo /usr/bin/pip install tox $ cd ~/hack-on-gcloud/ $ /usr/bin/tox
To run system tests you can execute:
$ tox -e system-tests
or run only system tests for a particular package via:
$ python system_tests/run_system_test.py --package {package}
This alone will not run the tests. You'll need to change some local auth settings and change some configuration in your project to run all the tests.
System tests will be run against an actual project and so you'll need to provide some environment variables to facilitate authentication to your project:
GCLOUD_TESTS_PROJECT_ID
: Developers Console project ID (e.g. bamboo-shift-455).GOOGLE_APPLICATION_CREDENTIALS
: The path to a JSON key file; seesystem_tests/app_credentials.json.sample
as an example. Such a file can be downloaded directly from the developer's console by clicking "Generate new JSON key". See private key docs for more details.
Examples of these can be found in
system_tests/local_test_setup.sample
. We recommend copying this tosystem_tests/local_test_setup
, editing the values and sourcing them into your environment:$ source system_tests/local_test_setup
For datastore tests, you'll need to create composite indexes with the
gcloud
command line tool:# Install the app (App Engine Command Line Interface) component. $ gcloud components update app # See https://cloud.google.com/sdk/crypto for details on PyOpenSSL and # http://stackoverflow.com/a/25067729/1068170 for why we must persist. $ export CLOUDSDK_PYTHON_SITEPACKAGES=1 # Authenticate the gcloud tool with your account. $ JSON_CREDENTIALS_FILE="path/to/app_credentials.json" $ gcloud auth activate-service-account --key-file=$JSON_CREDENTIALS_FILE # Create the indexes $ gcloud preview datastore create-indexes system_tests/data/index.yaml \ > --project=$GCLOUD_TESTS_PROJECT_ID # Restore your environment to its previous state. $ unset CLOUDSDK_PYTHON_SITEPACKAGES
For datastore query tests, you'll need stored data in your dataset. To populate this data, run:
$ python system_tests/populate_datastore.py
If you make a mistake during development (i.e. a failing test that prevents clean-up) you can clear all system test data from your datastore instance via:
$ python system_tests/clear_datastore.py
System tests can also be run against local emulators that mock the production services. To run the system tests with the
datastore
emulator:$ tox -e datastore-emulator
This also requires that the
gcloud
command line tool is installed. If you'd like to run them directly (outside of atox
environment), first start the emulator and take note of the process ID:$ gcloud beta emulators datastore start 2>&1 > log.txt & [1] 33333
then determine the environment variables needed to interact with the emulator:
$ gcloud beta emulators datastore env-init export DATASTORE_LOCAL_HOST=localhost:8417 export DATASTORE_HOST=http://localhost:8417 export DATASTORE_DATASET=gcloud-settings-app-id export DATASTORE_PROJECT_ID=gcloud-settings-app-id
using these environment variables run the emulator:
$ DATASTORE_HOST=http://localhost:8471 \ > DATASTORE_DATASET=gcloud-settings-app-id \ > GCLOUD_NO_PRINT=true \ > python system_tests/run_system_test.py \ > --package=datastore --ignore-requirements
and after completion stop the emulator and any child processes it spawned:
$ kill -- -33333
To run the system tests with the
pubsub
emulator:$ tox -e pubsub-emulator
If you'd like to run them directly (outside of a
tox
environment), first start the emulator and take note of the process ID:$ gcloud beta emulators pubsub start 2>&1 > log.txt & [1] 44444
then determine the environment variables needed to interact with the emulator:
$ gcloud beta emulators pubsub env-init export PUBSUB_EMULATOR_HOST=localhost:8897
using these environment variables run the emulator:
$ PUBSUB_EMULATOR_HOST=localhost:8897 \ > python system_tests/run_system_test.py \ > --package=pubsub
and after completion stop the emulator and any child processes it spawned:
$ kill -- -44444
The codebase must have 100% test statement coverage after each commit. You can test coverage via
tox -e coverage
, or alternately by installingnose
andcoverage
into your virtualenv, and runningsetup.py nosetests --with-coverage
. If you havetox
installed:$ tox -e cover
If you fix a bug, and the bug requires an API or behavior modification, all documentation in this package which references that API or behavior must be changed to reflect the bug fix, ideally in the same commit that fixes the bug or adds the feature.
To build and review docs (where $VENV
refers to the virtualenv you're
using to develop gcloud-python
):
After following the steps above in "Using a Development Checkout", install Sphinx and all development requirements in your virtualenv:
$ cd ~/hack-on-gcloud $ $VENV/bin/pip install Sphinx
Change into the
docs
directory within yourgcloud-python
checkout and execute themake
command with some flags:$ cd ~/hack-on-gcloud/gcloud-python/docs $ make clean html SPHINXBUILD=$VENV/bin/sphinx-build
The
SPHINXBUILD=...
argument tells Sphinx to use the virtualenv Python, which will have both Sphinx andgcloud-python
(for API documentation generation) installed.Open the
docs/_build/html/index.html
file to see the resulting HTML rendering.
As an alternative to 1. and 2. above, if you have tox
installed, you
can build the docs via:
$ tox -e docs
In addition, to build a preview of the readthedocs theme, you can build via:
$ tox -e docs-rtd
The description on PyPI for the project comes directly from the
README
. Due to the reStructuredText (rst
) parser used by
PyPI, relative links which will work on GitHub (e.g. CONTRIBUTING.rst
instead of
https://github.com/GoogleCloudPlatform/gcloud-python/blob/master/CONTRIBUTING.rst
)
may cause problems creating links or rendering the description.
All build scripts in the .travis.yml
configuration file which have
Python dependencies are specified in the tox.ini
configuration.
They are executed in the Travis build via tox -e {ENV}
where
{ENV}
is the environment being tested.
If new tox
environments are added to be run in a Travis build, they
should be listed in [tox].envlist
as a default environment.
We speed up builds by using the Travis caching feature.
We intentionally do not cache the .tox/
directory. Instead, we
allow the tox
environments to be re-built for every build. This
way, we'll always get the latest versions of our dependencies and any
caching or wheel optimization to be done will be handled automatically
by pip
.
We support:
Supported versions can be found in our tox.ini
config.
We explicitly decided not to support Python 2.5 due to decreased usage and lack of continuous integration support.
We may drop 2.6 as a supported version as well since Python 2.6 is no longer supported by the core development team.
We also explicitly decided to support Python 3 beginning with version 3.4. Reasons for this include:
- Encouraging use of newest versions of Python 3
- Taking the lead of prominent open-source projects
- Unicode literal support which allows for a cleaner codebase that works in both Python 2 and Python 3
This library follows Semantic Versioning.
It is currently in major version zero (0.y.z
), which means that anything
may change at any time and the public API should not be considered
stable.
Before we can accept your pull requests you'll need to sign a Contributor License Agreement (CLA):
- If you are an individual writing original source code and you own the intellectual property, then you'll need to sign an individual CLA.
- If you work for a company that wants to allow you to contribute your work, then you'll need to sign a corporate CLA.
You can sign these electronically (just scroll to the bottom). After that, we'll be able to accept your pull requests.