Pagure
======
:Author: Pierre-Yves Chibon <pingou@pingoured.fr>
Pagure is a git-centered forge, python based using pygit2.
With pagure you can host your project with its documentation, let your users
report issues or request enhancements using the ticketing system and build your
community of contributors by allowing them to fork your projects and contribute
to it via the now-popular pull-request mechanism.
Homepage: https://pagure.io/pagure
See it at work: https://pagure.io
Playground version: https://stg.pagure.io
If you have any questions or just would like to discuss about pagure,
feel free to drop by on IRC in the channel ``#pagure`` of the freenode server
About its name
==============
The name Pagure is taken from the French word 'pagure'. Pagure in French is used as the
common name for the crustaceans from the `Paguroidea <https://en.wikipedia.org/wiki/Hermit_crab>`_
superfamily, which is basically the family of the Hermit crabs.
Originating from French it is pronounced with a strong 'g' as you can hear
on `this recording <https://pagure.io/how-do-you-pronounce-pagure/raw/master/f/pingou.ogg>`_.
Get it running
==============
There are several options when it comes to a development environment.
They are: Docker Compose, Vagrant, and manual. Choose an option below.
Docker Compose
^^^^^^^^^^^^^^
Docker Compose will provide you with a container which you can develop on.
Install it `with these instructions <https://docs.docker.com/compose/install/>`_.
For more information about docker-compose cli, see: https://docs.docker.com/compose/reference/.
Once installed, create the folder that will receive the projects, forks, docs,
requests and tickets' git repo. Run this command exactly as it appears::
$ mkdir -p lcl/{repos,remotes,attachments,releases}
A docker compose environment is available to run pagure. First use the following
command to build the containers. ::
$ docker-compose -f dev/docker-compose.yml build
Once all the containers are built, run the following command to start the containers. ::
$ docker-compose -f dev/docker-compose.yml up
Once all the containers have started, you can access pagure on http://localhost:5000.
To stop the containers, press Ctrl+C.
To populate the container with test data and create a new account, run ::
$ docker-compose -f dev/docker-compose.yml exec web python dev-data.py --all
You can then login with any of the created users, by example:
- username: pingou
- password: testing123
Vagrant
^^^^^^^
For a more thorough introduction to Vagrant, see
https://fedoraproject.org/wiki/Vagrant.
An example Vagrantfile is provided as ``Vagrantfile.example``. To use it,
just copy it and install Vagrant. Instructions for Fedora::
$ cp dev/Vagrantfile.example Vagrantfile
$ sudo dnf install ansible libvirt vagrant-libvirt vagrant-sshfs vagrant-hostmanager
$ vagrant up
On Ubuntu, install Vagrant directly `from the website <https://www.vagrantup.com/downloads.html>`_
then run these commands instead::
$ cp dev/Vagrantfile.example Vagrantfile
$ sudo add-apt-repository ppa:ansible/ansible
$ sudo apt update
$ sudo apt install ansible libvirt0 openssh-server qemu libvirt-bin ebtables dnsmasq libxslt-dev libxml2-dev libvirt-dev zlib1g-dev ruby-dev
$ vagrant plugin install vagrant-libvirt vagrant-sshfs vagrant-hostmanager
If you get this error ``Block in synced_folders: Internal error. Invalid: sshfs``,
when you run ``vagrant up`` , you need to install vagrant sshfs plugin, which can be done by::
$ vagrant plugin install vagrant--sshfs
and then::
$ vagrant up
The default ``Vagrantfile`` forwards ports from the host to the guest,
so you can interact with the application as if it were running on your
host machine.
.. note::
``vagrant-hostmanager`` will automatically maintain /etc/hosts for you so you
can access the development environment from the host using its hostname, which
by default is ``pagure-dev.example.com``. You can choose not to use this
functionality by simply not installing the ``vagrant-hostmanager`` plugin, but
if you want Pagure to provide valid URLs in the UI for git repositories, you
will need to adjust Pagure's configuration found in ~/pagure.cfg on the guest.
When the vagrant VM is up and running, connect to it with::
$ vagrant ssh
This will log you into the VM as the user ``vagrant`` which has a couple of aliases
preconfigured::
$ pstart # Starts pagure, the workers and other tasks
$ pstop # Stops all those tasks again
$ pstatus # Shows pagure status
The Vagrant pagure doesn't have its own log file, use ``journalctl -f`` to
show the pagure output. The verbosity can be configured in the pagure config file
with the ``LOGGING`` parameter.
Running the unit-tests
**********************
To run the unit-tests, there is container available with all the dependencies needed.
First you will need to have podman installed on your workstation. ::
$ sudo dnf install podman
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.
If you wish to execute the test suite on a centos based container run the following command ::
$ ./dev/run-tests-container.py --centos
When the test container image has been built you can skip the building step to save time
and run directly the test suite. ::
$ ./dev/run-tests-container.py --skip-build
$ ./dev/run-tests-container.py --centos --skip-build
You can also run a single test case ::
$ ./dev/run-tests-container.py tests/test_pagure_flask_ui_priorities.py
Or a single test ::
$ ./dev/run-tests-container.py tests/test_pagure_flask_ui_priorities.py:PagureFlaskPrioritiestests.test_ticket_with_no_priority
You can also get `run-tests-container` help ::
$ ./dev/run-tests-container.py --help
Manually
^^^^^^^^
* Install the needed system libraries::
sudo dnf install git python3 python3-devel libgit2-devel redis \
libjpeg-devel gcc libffi-devel redhat-rpm-config
.. note:: Do note the version of libgit2 that you install, for example
in ``libgit2-0.23.4-1`` you need to keep in mind the ``0.23``
.. note:: On RHEL and derivative (CentOS, Scientific Linux) there is no
`python3` package. Just `python36` or `python34` available in
EPEL 7 (EPEL 6 only has `python34`). Choose the one you prefer
(3.6 is newer and generally a better choice).
* Retrieve the sources::
git clone https://pagure.io/pagure.git
cd pagure
* Install dependencies
* create the virtual environment (use `pytohn3.X` explicitly on EPEL)::
python3 -m venv pagure_env
source ./pagure_env/bin/activate
* Install the correct version of pygit2::
pip install pygit2==<version of libgit2 found>.*
So in our example::
pip install pygit2==0.23.*
* Install the rest of the dependencies::
pip install -r requirements.txt
* Create the folder that will receive the projects, forks, docs, requests and
tickets' git repo::
mkdir -p lcl/{repos,remotes,attachments,releases}
* Copy and edit the alembic.ini file (especially the ``script_location`` key)::
cp files/alembic.ini .
vim alembic.ini
* Set the ``script_location`` to ``alembic``, ie: the folder where the revisions
are stored, relative to the location of the ``alembic.ini`` file.
* Create the inital database scheme::
python createdb.py --initial alembic.ini
* Enable and start redis server::
sudo systemctl enable redis
sudo systemctl start redis
* Start a worker, in one terminal::
./runworker.py
* Run the application, in another terminal::
./runserver.py
* To get some profiling information you can also run it as::
./runserver.py --profile
This will launch the application at http://127.0.0.1:5000
* To run unit-tests on pagure
* Install the dependencies::
pip install -r requirements-testing.txt
* Run it::
python runtests.py run
You may use::
python runtests.py --help
to check other options supported or read the source code ;-)
.. note:: While testing for worker tasks, pagure uses celery in /usr/bin/
Celery then looks for eventlet (which we use for testing only) at
system level and not in virtual environment. You will need to
install eventlet outside of your virtual environment if you are
using one.