== Hardware == # Which hardware do we want to integrate? (Routers, Rasberri Pis, Smartphones, Laptops, Redlight transmitter, self built antennas, ukw sender/receiver, satellite uplink, Wifi enabled TVs also known as "Smart"TVs, [?]) # Which extra hardware is required? (wether resistant cases, cables, adapter, power supply) #* What are the costs for the required parts? #* For which hardware do we want to test EDN? that has been found so far: * openwrt supported Open Hardware Router: Linksys WRT54G, 4MB Flash, 16MB RAM, akutell Neukauf: 42€ ** openwrt supported Raspberry Pis sind A,B (Ethernet 10/100) und B+ (ca. 30€ + 10€ Hülle) mit 256-512 MB RAM,CPU 700Mhz keinen Flashspeicher, Raspberry Pi 2 ist noch nicht bekannt, ob openwrt-fähig, bietet mehr Leistung zu gleichem Preis. 900MHz quad-core ARM Cortex-A7 CPU supported by 1GB LPDDR2 SDRAM ** Banana Pi Board 1GB RAM, Gigabit Ethernet, ARMv7 Processor, 40€ ohne Extras wie Hülle, Stromversorgungskabel, externer Datenträger == Software == #'' Which OSs and Systems do we want to put on the hardware?'' '''Openwrt''' ([http://wiki.openwrt.org/toh/start start], [http://wiki.openwrt.org/doc/howto/build build]), dd-wrt, tomato, CyanogenMod, Replicant, Debian, [http://gluon.readthedocs.org/en/v2014.3/ Gluon](openwrt-based Freifunk Firmware)
OpenWRT/linux-wireless support for running adhoc mode on DFS channels in 5GHz by [http://battlemesh.org/BattleMeshV7/Agenda?action=AttachFile&do=get&target=2014-05-17_wbmv7_DFS.pdf Simon Wunderlich] #'' How many nodes do we want to install at least to have a realistic test field?'' # ''What exactly do we want to test?'' #'' Which Tools could be useful for testing?'' * '''Wibed''' ([https://github.com/battlemesh/wibed github], [http://wiki.confine-project.eu/wibed:start project confine], [http://wiki.confine-project.eu/_media/wibed:wibed-7pages.pdf pdf])
"The Wireless testBed is a platform based on OpenWRT Linux to the easy and quick deployment of infrastructures to perform experiments (such as WiFi or routing). Among many other features WiBed allows: ** The deployment of a testbed without ethernet cables ** Use very cheap commodity hardware (AR71xx recomended such as TL-4300) **Perform experiments and manage the nodes from a central controller ** Perform multiple experiments in paralel"(citation from github repository) * [https://github.com/openwrt/luci '''Luci'''] (web interface) * [http://aircrack-ng.org/ '''Aircrack''' ]("In fact, Aircrack-ng is a set of tools for auditing wireless networks.") * [https://github.com/interop-dev/json-for-networks '''Json'''] * '''?''' #'' Where do we want to test?'' # ''How to manage the test infrastructure?(updating, setting parameters)'' # ''Under which criteria do we put the management of the testing infrastructure?'' #'' Which projects do we want to include?'' * CJDNS, GNUnet, BALL, Freenet....
-> limitation by ressources, starting with sequential testing according to the project's status, assistance by developers extremely helpful
# ''What does '''BattleMesh''' already test by which means?'' * http://battlemesh.org/BattleMeshV7/Tests * http://battlemesh.org/BattleMeshV6/ActualTests * http://downloads.battlemesh.org/WBMv6/test_data/ * http://battlemesh.org/BattleMeshV3.1416/SpeedTest == Testing Objectives == Which of these [https://wiki.c3d2.de/Echt_Dezentrales_Netz/en#Primary_Criteria criteria] are measurable? # '''Performance''' #* Several Routing protocols for messaging. #* ... for telephone # ? # '''Pentesting''' (anonymity, encryption, ...see [https://wiki.c3d2.de/Echt_Dezentrales_Netz/AttackScenarios attack scenarios]) # '''Usability''' of the Gui(s) # Proving that the implementation covers the formal specifications # Testing of all components (unit test) # Testing of the overall system (audit)