Development =========== Get the sources --------------- Anonymous: :: git clone https://pagure.io/pagure.git Contributors: :: git clone ssh://git@pagure.io/pagure.git Dependencies ------------ Install the build dependencies of pagure: :: sudo dnf install git python-virtualenv libgit2-devel \ libjpeg-devel gcc libffi-devel redhat-rpm-config The python dependencies of pagure are listed in the file ``requirements.txt`` at the top level of the sources. :: virtualenv pagure_env source ./pagure_env/bin/activate pip install pygit2==.* # e.g. 0.23.* pip install -r requirements.txt .. note:: working in a `virtualenv `_ is tricky due to the dependency on `pygit2 `_ and thus on `libgit2 `_ but the pygit2 `documentation has a solution for this `_. How to run pagure ----------------- There are several options when it comes to a development environment. Vagrant will provide you with a virtual machine which you can develop on, you can use a container to run pagure or you can install it directly on your host machine. The README has detailed instructions for the different options. Run pagure for development -------------------------- Adjust the configuration file (secret key, database URL, admin group...) See :doc:`configuration` for more detailed information about the configuration. Create the database scheme:: ./createdb.py Create the folder that will receive the different git repositories: :: mkdir {repos,docs,forks,tickets,requests,remotes} Run the server: :: ./runserver.py If you want to change some configuration key you can create a file, place the configuration change in it and use it with :: ./runserver.py -c For example, create the file ``config`` with in it: :: from datetime import timedelta # Makes the admin session longer ADMIN_SESSION_LIFETIME = timedelta(minutes=20000000) # Use a postgresql database instead of sqlite DB_URL = 'postgresql://user:pass@localhost/pagure' # Change the OpenID endpoint FAS_OPENID_ENDPOINT = 'https://id.stg.fedoraproject.org' APP_URL = '*' EVENTSOURCE_SOURCE = 'http://localhost:8080' EVENTSOURCE_PORT = '8080' DOC_APP_URL = '*' # Avoid sending email when developing EMAIL_SEND = False and run the server with: :: ./runserver.py -c config To get some profiling information you can also run it as: :: ./runserver.py --profile You should be able to access the server at http://localhost:5000 Every time you save a file, the project will be automatically restarted so you can see your change immediately. Create a pull-request for testing ---------------------------------- When working on pagure, it is pretty often that one wanted to work on a feature or a bug related to pull-requests needs to create one. Making a pull-request for development purposes isn't hard, if you remember that since you're running a local instance, the git repos created in your pagure instance are also local. So here are in a few steps that one could perform to create a pull-request in a local pagure instance. * Create a project on your pagure instance, let's say it will be called ``test`` * Create a folder ``clones`` somewhere in your system (you probably do not want it in the ``repos`` folder created above, next to it is fine though):: mkdir clones * Clone the repo of the ``test`` project into this ``clones`` folder and move into it:: cd clones git clone ~/path/to/pagure/repos/test.git cd test * Add and commit some files:: echo "*~" > .gitignore git add .gitignore git commit -m "Add a .gitignore file" echo "BSD" > LICENSE git add LICENSE git commit -m "Add a LICENSE file" * Push these changes:: git push -u origin master * Create a new branch and add a commit in it:: git branch new_branch git checkout new_branch touch test git add test git commit -m "Add file: test" * Push this new branch:: git push -u origin new_branch Then go back to your pagure instance running in your web-browser, check the ``test`` project. You should see two branches: ``master`` and ``new_branch``. From there you should be able to open a new pull-request, either from the front page or via the ``File Pull Request`` button in the ``Pull Requests`` page. Coding standards ---------------- We are trying to make the code `PEP8-compliant `_. There is a `flake8 tool `_ that can automatically check your source. We run the source code through `black `_ as part of the tests, so you may have to do some adjustments or run it yourself (which is simple: ``black /path/to/pagure``). .. note:: flake8 and black are available in Fedora: :: dnf install python3-flake8 python3-black or :: yum install python3-flake8 python3-black Send patch ---------- The easiest way to work on pagure is to make your own branch in git, make your changes to this branch, commit whenever you want, rebase on master, whenever you need and when you are done, send the patch either by email, via the trac or a pull-request (using git or github). The workflow would therefore be something like: :: git branch git checkout git commit file1 file2 git commit file3 file4 git checkout master git pull git checkout git rebase master git format-patch -2 This will create two patch files that you can send by email to submit in a ticket on pagure, by email or after forking the project on pagure by submitting a pull-request (in which case the last step above ``git format-patch -2`` is not needed. .. note:: Though not required, it’s a good idea to begin the commit message with a single short (less than 50 character) line summarizing the change, followed by a blank line and then a more thorough description. The text up to the first blank line in a commit message is treated as the commit title, and that title is used throughout Git. For example, git-format-patch turns a commit into email, and it uses the title on the Subject line and the rest of the commit in the body. Pagure uses lines that contain only 'Fixes #number' as references to issues. If for example a commit message of a pagure patch has a line 'Fixes #3547' and a pullrequest (PR) gets created in pagure, this PR will be linked to from ``https://pagure.io/pagure/issue/3547`` Unit-tests ---------- Pagure has a number of unit-tests. We aim at having a full (100%) coverage of the whole code (including the Flask application) and of course a smart coverage as in we want to check that the functions work the way we want but also that they fail when we expect it and the way we expect it. Tests checking that function are failing when/how we want are as important as tests checking they work the way they are intended to. So here are a few steps that one could perform to run unit-tests in a local pagure instance. * Install the dependencies:: pip install -r requirements-testing.txt * Run it:: tox ./test/ If you want to run a single interpreter, cou can use:: tox -e py38 ./test/ Each unit-tests files (located under ``tests/``) can be called by alone, allowing easier debugging of the tests. For example: :: pytest-3 tests/test_pagure_lib.py .. note:: In order to have coverage information you might have to install ``python-coverage`` :: dnf install python3-pytest-cov To run the unit-tests, there is also a container available with all the dependencies needed. Use the following command to run the tests :: $ ./dev/run-tests-container.py This command will build a fedora based container and execute the test suite. You can also limit the tests to unit-test files or single tests similar to the options described above. You need set the environment variables REPO and BRANCH if the tests are not yet available in the upstream pagure master branch.