# Fileserver

The fileserver is a simple frontend to a disk storage space that contains 
auxiliary files for assignments, files submitted by users and evaluation 
results. 

For a description of the communication protocol used by the frontend 
and workers, see the [Communication](#communication) chapter.


## Description

The storage is implemented in Python, using the Flask web framework. This 
particular implementation evolved from a simple mock fileserver we used in early
stages of development. It prooved to be very reliable, so we decided to keep fileserver
as separate component instead of integrating this functionality into main API.

### Internal storage structure

Fileserver stores its data in a configurable filesystem folder. This folder has 
the following subfolders:

- `./submissions/<id>` -- folders that contain files submitted by users 
  (student's solutions to assignments). `<id>` is an identifier received from 
  the ReCodEx API.
- `./submission_archives/<id>.zip` -- ZIP archives of all submissions. These are 
  created automatically when a submission is uploaded. `<id>` is an identifier 
  of the corresponding submission.
- `./tasks/<subkey>/<key>` -- supplementary task files (e.g. test inputs and 
  outputs). `<key>` is a hash of the file content (sha-1 is used) and `<subkey>` 
  is its first letter (this is an attempt to prevent creating a flat directory 
  structure).


## Installation

To install and use the fileserver, it is necessary to have Python3 with `pip` package manager installed. It is needed to install the dependencies. From clonned repository run the following command:

```
$ pip install -r requirements.txt
```

That is it. Fileserver does not need any special installation. It is possible to build and install _rpm_ package or install it without packaging the same way as monitor, but it is only optional. The installation would provide you with script `recodex-fileserver` in you `PATH`. No systemd unit files are provided, because of the configuration and usage of fileserver component is much different to our other Python parts.


## Configuration and usage

There are several ways of running the ReCodEx fileserver. We will cover two 
typical use cases.

### Running in development mode

For simple development usage, it is possible to run the fileserver in the command 
line. Allowed options are described below.

```
usage: fileserver.py [--directory WORKING_DIRECTORY]
                     {runserver,shell} ...
```

- **runserver** argument starts the Flask development server (i.e. `app.run()`). As additional argument can be given a port number.
- **shell** argument instructs Flask to run a Python shell inside application context.

Simple development server on port 9999 can be run as

```
$ python3 fileserver.py runserver 9999
```

When run like this command, the fileserver creates a temporary directory where it stores all the files and which is deleted when it exits.


### Running as WSGI script in a web server

If you need features such as HTTP authentication (recommended) or efficient serving of static 
files, it is recommended to run the app in a full-fledged web server (such as 
Apache or Nginx) using WSGI. Apache configuration can be generated by `mkconfig.py` script from the repository.

```
usage: mkconfig.py apache [-h] [--port PORT] --working-directory
                          WORKING_DIRECTORY [--htpasswd HTPASSWD]
                          [--user USER]
```

- **port** -- port where the fileserver should listen
- **working_directory** -- directory where the files should be stored
- **htpasswd** -- path to user file for HTTP Basic Authentication
- **user** -- user under which the server should be run

### Running using uWSGI

Another option is to run fileserver as a standalone app via uWSGI service. Setup is also quite simple, configuration file can be also generated by `mkconfig.py` script.

1. (Optional) Create a user for running the fileserver
2. Make sure that your user can access your clone of the repository
3. Run `mkconfig.py` script.
	```
	usage: mkconfig.py uwsgi [-h] [--user USER] [--port PORT]
	                         [--socket SOCKET]
                             --working-directory WORKING_DIRECTORY
	```

	- **user** -- user under which the server should be run
	- **port** -- port where the fileserver should listen
	- **socket** -- path to UNIX socket where the fileserver should listen
	- **working_directory** -- directory where the files should be stored
	
4. Save the configuration file generated by the script and run it with uWSGI, 
   either directly or using systemd. This depends heavily on your distribution.
5. To integrate this with another web server, see the [uWSGI 
   documentation](http://uwsgi-docs.readthedocs.io/en/latest/WebServers.html)

Note that the ways distributions package uWSGI can vary wildly. In Debian 8 it is 
necessary to convert the configuration file to XML and make sure that the 
python3 plugin is loaded instead of python. This plugin also uses Python 3.4, 
even though the rest of the system uses Python 3.5 - make sure to install 
dependencies for the correct version.