Google summer of Code 2012
Ninux.org community Google Summer of Code 2012 (GSoC 2012) page.
About the Google Summer of Code
From the Google Summer of Code 2012 webpage:
Google Summer of Code is a global program that offers student developers stipends to write code for various open source software projects. We have worked with several open source, free software, and technology-related groups to identify and fund several projects over a three month period. Since its inception in 2005, the program has brought together nearly 2500 successful student participants and 2500 mentors from 98 countries worldwide, all for the love of code. Through Google Summer of Code, accepted student applicants are paired with a mentor or mentors from the participating projects, thus gaining exposure to real-world software development scenarios and the opportunity for employment in areas related to their academic pursuits. In turn, the participating projects are able to more easily identify and bring in new developers. Best of all, more source code is created and released for the use and benefit of all.
- Google summer of Code 2012
- About the Google Summer of Code
GSoC Project Ideas 2012
- Mapserver Improvements
- DNS Management App for wireless communities
- Distributed node monitoring and management application
- Robust OpenWrt based firmware
- Filesharing suitable for Community Networks
- Videoconferencing suitable for Mobile Phone and Mesh Networks (MPMN )
- Collaborative Music Composition
- Improve the OLSRd mDNS plug-in
- Improve the ninuxoo search engine
- Event subscription support for Diaspora* Distributed Social Network
- Mobile application to do AR aided wireless device pointing suitable for Wireless Community Networks
- PGP cryptography plugin for Jitsi
- More Info
- Saverio Proto
- Lorenzo Bracciale
- Marco Giuntini
- Federico Capoano
- Gioacchino Mazzurco
- Vittorio Cuculo (student in 2011)
- Claudio Pisa (student in 2011)
- Angelo Giovinazzo (student in 2011)
- Raffaele Petteruti
- Mara Sorella
- Dario Salerno
More students want to join, we'll accept more if we will be accepted as a mentoring organization.
GSoC Project Ideas 2012
The goal of this task is to push forward the development of Nodeshot in order to make it mature, stable and more flexible. The final goal is to promote this software so other wireless communities around the world can start using it and participate in the development. At the moment this is only partially possible because the software is not very flexible and has been developed to satisfy our needs only.
- Integration with django's user management framework (django.contrib.auth.user) and permission system
- Easy registration and login
- Possibility for admins and users to login in the frontend and be able to perform different actions depending on their privileges (eg: some info might be configurable to be seen by a certain group of users only)
- Improve the graphical user interface
- Email app to ease the communication with node owners (possibility to send an email to all the nodes, possibility to send an email to only a group of nodes)
- Possibility to use placeholders for distance calculations on the fly
- New overviews with IP addresses
- Better DB abstraction, eg: differentiation between different types of devices (antennas, servers, others)
- Network usage graphs
- Elevation chart and Fresnel Zone calculation
- Better caching system
- History for all the changes in the database
- Mobile version
Integration with Layar - we already have a php script, we will just need to port it to python/django => Possibly find an open alternative to layar
- Better notifications, 2 examples:
- Possibility for non-admins to receive notifications when new potential nodes are added
- Possibility to be notified if new potential nodes are added in a specified distance range (eg: notify me if a new potential node is added in a range of 10km)
- Better SNMP monitoring (at the moment we support only Ubiquiti devices)
Visual traceroute & graphs
DNS Management App for wireless communities
We implemented our own DNS system in our community which is integrated with the map-server. At the moment the integration is more like a temporary hack and not a piece of good software. We would like to separate this functionality and make it an indipendent application that can be integrated easily into the map-server but also run in standalone mode. The Goal is to make a system which calculates the hostnames of the nodes automatically but also gives the possibility for community networkers to manage their own DNS records indipendently (each node owner should be able to change his/her hostnames or add new ones).
- Backend web interface for administration
- Frontend application in which each node owner can manage hostnames of his/her node
- Standalone mode
- Pluggable mode (integration with Nodeshot)
- Integration with Opensource DNS software (PowerDNS, myDNS, ecc)
Distributed node monitoring and management application
We use different monitoring systems but we are not completely satisfied with any of them.
Problems we face:
- Different monitoring systems are hard to maintain. When we change anything in our network we have to remember to change also the information in all the systems we use
- One of the systems is proprietary, closed source and it works only with a very limited set of devices
- We need to be able to diagnose problems quickly with a cross check on different protocols (SNMP, OLSR, BATMAN)
- We need more flexibility
- We need a decentralized system
- We want it Open Source
- Develop a new pluggable distributed app for the map-server which can be deployed in different parts of the network which automatize the synchronization of the operations and eases our pain in the management of our network.
Type of Work: Coding
Level 5 Professional
Robust OpenWrt based firmware
To build our community network we use a lot of embedded devices, they often have closed source firmware that offer good performance and services but they are done in a way that put us in a vendor look in.
To avoid that vendor look in we want to use OpenWrt but it miss some necessary features that we want to implement
Make it manageable trough NodeShot distributed management plug in
- Improve monitoring support ( more information trough SNMP like links dBm, rate, traffic...)
Make remote configuration easy ( It will use SSH, but the manager will see only interesting option on NodeShot management interface )
- Make it modular so we can eventually support more routing scheme and plug in
- Make it completely auto-configuring in case of missing management
Type of Work: Coding
Level 5 Professional
Filesharing suitable for Community Networks
Many people want to share files in our community network but they step into some problems:
- Existent major P2P solutions depend on the Internet ( like emule or torrent )
- Most of major existent P2P solutions doesn't support ipv6
- Folder sharing like samba doesn't provide efficient file search
- People prefer to share depending on relationships, for example you want share some photos with your school companion but not with your headmaster.
- Internet bandwidth on our network is going towards exhaustion
RetroShare cover just a part of our needs
To solve these issues we need to:
Add group support to RetroShare
- File access policy is strongly based on users groups.
Add ipV6 support to RetroShare
Type of Work: Coding
Level 4 Semi-Professional
Videoconferencing suitable for Mobile Phone and Mesh Networks (MPMN )
Many people want to use VOIP in our mesh network but they step into some problems:
- Existent major videoconferencing solutions depend on the Internet ( like skype or gtalk )
- Most of major existent videoconferencing solutions have not a good mobile phone integration ( like skype )
- Most of major existent videoconferencing solutions don't have support for ipv6 ( our network is primarily ipv6 )
- Internet bandwidth on our network is going towards exhaustion
- They doen't want to learn to use another VOIP app
To solve these issues we decided to implement Videoconferencing suitable for Mobile Phone and Mesh Networks:
- Create a good app, fully integrated in android/iphone/(other?) addressbook ( call someone trough MMPN must me simple as call him with phone number without learn to use other apps or have different gui).
- Separate MMPN backend from addressbook integration ( like telepathy framework do on desktop ).
- Make the backend extensible for newer protocols
- Offer good privacy with encryption
- Preferable completely serverless protocol such as retroshare
Type of Work: Coding Level 4 Semi-Professional
Collaborative Music Composition
This project aims to realize a web-based social application for music composition.
It will allow the creation of jam session (non real-time) in this way: users will upload tracks (e.g. piano track) and then they can merge them with other tracks (e.g. bass track) put in the system by other users. Users can play a bunch of selected tracks creating a composition (e.g. bass+piano+vocal).
Using the linux audio plugin and a proper backend engine, they can also apply effects on tracks.
Conversely, if a user doesn't like an instrument track of a song, she can create her version by substituting it with her own track.
It will use a web framework such as Django to manage users, file upload and dynamic content.
On the backend it will handle files using linux programs. It could add effects (such as reverb or delay) on tracks by interfacing with a LADSA compatible command line script. In this way we will reuse the tons of linux audio plugin.
- Every track is under a kind version control (git or whatever) so to keep track of branches and merges.
Improve the OLSRd mDNS plug-in
The OLSRd mDNS plug-in allows the distribution of mDNS (multicast DNS i.e. avahi/bonjour/zeroconf) messages over an OLSR network. This is substantially achieved by sniffing for mDNS packets on the final users' networks (usually HNA networks), encapsulating them inside OLSR protocol messages, exploiting OLSR native message transfer mechanisms, and decapsulating the mDNS packets at all the other end users' networks.
The plug-in has been developed by ninux.org members, however we would like to address some important issues that have arised during deployment:
loops. If two mDNS plug-in enabled OLSR routers are attached to the same HNA network, then mDNS packets will loop back and forth between the two, also flooding the whole OLSR network. For the moment the temporary solution to this problem is to enable the plug-in on one router at a time on the same HNA. A real solution to the problem would be the following:
- usually mDNS packets have a TTL != 1, so:
- capture only mDNS packets with TTL != 1
- when decapsulating mDNS packets, set TTL = 1
- where TTL is the IP Time-to-live field
capture rate. mDNS packets are incapsulated into OLSR messages, which in turn are contained in OLSR packets that are sent at the wireless basic rate (i.e. 1 or 2 Mbps) over the whole network. Thus a big amount of mDNS captured packets in a small time can slow down the whole network. A solution to this is to add a plug-in configuration option to set the maximum packet capture rate.
Improve the ninuxoo search engine
We have started the development of a community-network-wide open-source search engine called ninuxoo. Written in Python, it is formed by a samba and ftp share crawler and of a cgi-based website, with a common database. We would like to enhance it by adding some features:
- show results whith a number of hops distance, based on the IP address of the user that is performing the search. This needs to interact with the routing daemon (i.e. olsrd in our case) by periodically retrieving the graph of the community network (through the txtinfo or dot olsrd plugins) and running standard graph search algorithms (e.g. Dijkstra's)
add a "what's new" web page that shows the newest files found by the crawler. This needs changes to the database schema
- reengineer the ftp crawling code
Event subscription support for Diaspora* Distributed Social Network
Diaspora is a free and open source personal web server implementing a distributed social networking service which is made out of “pods”, that in contrast with the centralized approach can be run directly from the users which can have full control of their online identity thus allowing information not to be controlled by a single party. Furthermore communications and content sharing between users are secured by using PGP ( <- are we sure? I remember it was salmon not PGP ) encryption.
The project is still inching towards a first beta release and at the moment lacks event managing (“topic subscription”) capabilities.
This project aims at introducing support for the creation and invitation of users to events in Diaspora* by allowing them to publish information and comments together with the possibility to indicate their will to participate in the event.
( maybe Vittorio Cuculo is better to mentor this than Gioacchino )
Mobile application to do AR aided wireless device pointing suitable for Wireless Community Networks
Description: A new user that wants to join a Wireless Community Network is required to install a wireless device on his roof and to detect near stations to connect to. This can be arbitrarily difficult in a big city environment due to line of sight problems and lack of precise information about geography. In this scenario we want to develop an iPhone application that helps, gathering information (coordinates, direction,..) from GPS and compass hardware present in almost every mobile system and the information gathered from a mapserver system containing the database of all the nodes, to easily find and then point a node where we want to connect all in an augmented reality system. To do so the application will exchange information with a mapserver both to obtain information of the nodes and also to insert his own position in to the database.
Objective-C, Google Maps API, MySQL, SOAP
PGP cryptography plugin for Jitsi
http://jitsi.org/ is a promising IM software with builtin support for audio/video calls and conferences, desktop share, remote control and OTR cryptography.
We already use PGP to encrypt sensitive emails that contain login information to critical parts of our network, we developed a good web of trust and for this reason we would prefer PGP to OTR for our sensitive communications.
Since Jitsi is pluggable, this feature could be added as an additional plugin.
Technologies Java, OpenPGP
About GSOC 2012: http://www.google-melange.com/
Info about ninux participation in previous years:
If you are a student interested in one (of more) of these projects please write to
contatti [AT] ninux [DOT] org