Installation of Kofa #################### These are generic installation instructions for the WAeUP_ ``Kofa`` student information portal and customized versions thereof. For specific aspects of this package please refer to the local README file. Please note, that **only Linux-based installs** are described and actively supported. We recommend use of Debian_ / Ubuntu_. .. note:: This means we do not actively support Windows(tm)! .. contents:: Prerequisites ************* The Kofa packages are based on `Grok`_, which is a Python_ framework for agile webapplication development. Grok_ itself is based on `Zope`_. Both, Grok_ and Zope_, are written in the `Python`_ programming language (with parts written in C). You therefore have to have `Python`_ installed (including `Python`_ headers). Preparing the System ==================== For a `Kofa` install we need of course `Python`_ installed as well as some standard developer tools like C compilers, C libraries, etc. What you need (Debian/Ubuntu package names in brackets): * Python 2.7 (``python2.7``) * Python 2.7 development files (``python2.7-dev``) * A C-Compiler with basic C developer libraries (``build-essential``) * A subversion client (``svn``) * enscript (``enscript``) [optional] This is only needed if you want test coverage reports. All these packages can be installed on Debian systems like this:: $ sudo apt-get install python2.7 python2.7-dev svn \ build-essential enscript Afterwards you should be able to enter:: $ python2.7 at the commandline and get a Python_ prompt. Quit the interpreter pressing . Installing `virtualenv` ======================= We strongly suggest use of `virtualenv`_ to create Python_ sandboxes where you can run your code without touching any other installations. `virtualenv`_ is also the only possibility to build a `Kofa` install without the need of superuser permissions. In short: `virtualenv`_ will make your life easier. Use it. Detailed install instructions for `virtualenv`_ can be found on http://www.virtualenv.org/en/latest/virtualenv.html#installation. The short way for a user install (no superuser perms required) is like this:: $ curl -O https://pypi.python.org/packages/source/v/virtualenv/virtualenv-1.11.4.tar.gz#md5=9accc2d3f0ec1da479ce2c3d1fdff06e $ tar xvfz virtualenv-1.11.4.tar.gz $ cd virtualenv-1.11.4 $ python virtualenv.py py27 Superusers can install `virtualenv`_ system-wide much easier. On `Debian`_/`Ubuntu`_ systems where you have superuser permissions, you can install `virtualenv`_ via:: $ sudo apt-get install python-virtualenv *Or*, if `pip` is installed already (superusers can install it via ``sudo apt-get install python-pip`` on `Debian`_/`Ubuntu`_):: $ sudo pip install virtualenv Creating a sandbox ================== After installing `virtualenv`_ you can install local sandboxes like this (if `virtualenv` is installed system-wide):: $ virtualenv --no-site-packages py27 *or* like this:: $ python /path/to/my/virtualenv.py --no-site-packages py27 where ``py27`` is a directory in the filesystem where your sandbox will be created. `virtualenv` will also create this directory for you. While you can pick any sandbox name you want, it is recommended to use a sandbox name that is short and at the same time reflects the Python version used (here: Python 2.7). By passing the ``no-site-packages`` switch we tell `virtualenv` to provide a clean environment without any extra-packages installed systemwide. More recent versions of `virtualenv`_ have this option set by default. Another often used option of `virtualenv`_ is ``-p``. With ``-p`` you can tell `virtualenv`_ which Python executable to use as base for the new sandbox. You now can activate the sandbox by doing:: $ source py27/bin/activate (py27)$ You will notice that the input prompt changes, indicating the name of the sandbox activated. To deactivate the sandbox at any time, enter:: (py27)$ deactivate and the prompt will be the same as before the activation. For the following steps make sure the sandbox is active. Get the Sources, Luke ===================== Now, as the sandbox is activated (see above, if not), we can fetch the sources for Kofa. As Kofa is currently available from the Subversion_ repository only, we use the Subversion_ client `svn` and checkout the main devel branch of the `waeup.kofa` package like this:: (py27)$ svn co https://svn.waeup.org/repos/main/waeup.kofa/trunk The command should fetch the Kofa base package sources for you and will put everything in a new directory ``trunk/``. Now enter the new directory:: (py27)$ cd trunk/ and you can start building the real package. .. note:: If you not want to work with the `waeup.kofa` package but a customized package (like ``waeup.aaue`` or similar), then you can use the above checkout command but with ``waeup.kofa`` replaced by the name of the customized package:: (py27)$ svn co https://svn.waeup.org/repos/main//trunk For the exact link, please refer to the README.txt file in your package. Part 1: Single Client Setup *************************** You can run ``Kofa`` with a single client (useful for evaluation, development, etc.) or with multiple clients running in parallel. The latter setup is useful in productive environments with many thousands users. We will cover both setup types. The first is covered here, the latter one is covered in Part 2. Preparing the build =================== In the sources directory (``kofa-trunk/``) you have to prepare the project to fetch needed components (eggs), compile C-code parts, etc. This steip will not touch any external projects:: (py27)$ python bootstrap.py This will generate some directories and the ``buildout`` script in ``bin/`` for us. This step must be executed only once for each instance. You can now deactivate the sandbox:: (py27)$ deactivate Now we can do the real build by triggering:: $ bin/buildout If this is your first install of some Grok-related project, this step will need some time as lots of sources have to be fetched, many components must be compiled, etc. This step must be redone whenever you change something in ``buildout.cfg`` or ``setup.py``. Note that if you have more than one sandbox for a Zope-based web application, it will probably make sense to share the eggs between the different sandboxes. You can tell ``zc.buildout`` to use a central eggs directory by creating ``~/.buildout/default.cfg`` with the following contents:: [buildout] eggs-directory = /home/bruno/buildout-eggs Start the instance ================== You should be able now to start the created instance by doing:: $ bin/zopectl fg Alternatively you can do:: $ bin/paster serve parts/etc/deploy.ini The port numbers where Kofa is running on your server are defined in buildout.cfg under [kofa_params]. If you now point a browser to the right port on your server, for example :: localhost:8080 you should get a login pop-up, where you can login as superuser with ``grok`` and ``grok`` as username/password (Kofa base package only!). You can stop the instance by pressing . If you are connected and logged in, you should be able to add the grok-based applications (such as ``University``) from the menu. Add an instance of ``University`` and click on the link next to the then visible entry in the list of installed applications. Running the tests ================= The tests are easily run by executing the test runner that's installed in the ``bin`` directory:: $ bin/test Part 2: Deploying Kofa as ZEO install ************************************* Each ZEO install consists of at least one ZEO server and normally two or more ZEO clients. While the ZEO server is meant to manage the ZODB database for clients, the clients connect to the outside world, listen for request and do the real dataprocessing. We prepared a `buildout` configuration that sets up one server configuration and two client configs. This configuration is in ``buildout-zeo.cfg``. Generating the ZEO setup ======================== To install Kofa ZEO-based you can run `buildout` with the given (or your own) configuration file like this:: $ ./bin/buildout -c buildout-zeo.cfg This should generate all scripts necessary to run servers, clients, etc. Starting ZEO servers and clients ================================ First start the server:: $ ./bin/zeo_server start Clients can be started by doing:: $ ./bin/zeo_client1 start $ ./bin/zeo_client2 start This will start both clients in daemon mode. Instead of ``start`` you can, as usually, start an instance in foreground (``fg``), etc. You know the drill. Manually starting ZEO clients ============================= This is normally not neccessary. ``zeo_clientN`` scripts are basically wrappers around calls to ``bin/paster``. You can bypass this wrapper and start a client 'manually' like this:: $ ./bin/paster serve --pid-file var/zeo1.pid --daemon \ pars/etc/zeo1.ini It is important to give a pid-file as paster otherwise can not start different clients (they would all refer to the same pid file `paster.pid` and refuse to start after the first client was started). Setup (paramters, ports, etc.) ============================== By default the server will listen on port 8100 for requests from localhost (not: from the outside world). You can change ZEO server settings in the ``[zeo_server]`` section of ``buildout-zeo.conf``. Run `buildout` afterwards. The clients will listen on port 8081 and 8082. You can change settings in ``etc/zeo1.ini.in`` and ``etc/zeo2.ini.in`` respectively. Run buildout after any change. If you want to change the paster wrapper for any zeo client, you can edit ``etc/zeo1.conf`` and/or ``etc/zeo2.conf``. Run buildout afterwards. Creating new clients ==================== You want more clients to be created by buildout? Easy. Three steps are neccessary. 1. Create config files in etc/ ------------------------------ Each client needs two configuration files: - ``etc/zeoN.conf`` configuring the paster wrapper - ``etc/zeoN.ini`` configuring the runtime config, ports, etc. Just copy over these files from the already existing zeo1/zeo2 files and replace ``zeo1`` or ``zeo2`` with your new name. 2. Update buildout-zeo.cfg -------------------------- Here, inside ``buildourt-zeo.cfg`` also three steps are needed. * 2.1. Create new .ini and .conf entries The .conf and .ini files in etc/ are only templates that have to be generated in their really used final location. In buildout-zeo.cfg you can care for this by creating a new ``[zeoN_ini]`` and ``[zeoN_conf]`` option (replacing ``N`` with a number, of course). Just copy over existing entries and replace the mentions of ``zeo1`` or ``zeo2`` by your ``zeoN``. * 2.2. Create a new ``zeo_clientN`` entry Then you have to create an entry that will generate the ``zeo_clientN`` script. Again, just copy over an existing ``[zeo_client1]`` entry and replace ``1`` withg your client number. * 2.3. Register the new sections in ``[buildout]`` section When done with the above: add the new section in ``[buildout]``:: [buildout] ... ... zope_conf_zeo_5 zeo5_ini zeo_client5 depending on how you named your new sections. 3. Rerun ``buildout`` --------------------- When adding or removing client/server instances, make sure to stop all running servers/clients before rerunning buildout. To activate the new setup, rerun buildout:: $ bin/buildout -c buildout-zeo.cfg This should generate any new clients and remove older ones or just update configuration files. Considerations ============== There are some things in the current buildout-zeo.cfg we might do not want. It extends the regular ``buildout.cfg`` so that we do not have to repeat most sections but the ``parts`` in ``[buildout]`` have to be listed. We need, however, not everything with a ZEO-deploy that is listed in a default buildout. We might do not need docs, no profiling, etc. Also a regular non-ZEO kofactl might not make to much sense. Therefore all this might be subject to changes. .. _Debian: http://www.debian.org/ .. _Grok: http://grok.zope.org/ .. _Python: http://www.python.org/ .. _Subversion: http://subversion.apache.org/ .. _Ubuntu: http://www.ubuntu.com/ .. _virtualenv: http://www.virtualenv.org/en/latest/ .. _WAeUP: https://www.waeup.org/ .. _Zope: http://www.zope.org/ .. _zc.buildout: http://cheeseshop.python.org/pypi/zc.buildout