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RESEARCH 》 Raspberry Pi as a Networking Device

Raspberry Pi is often used as a single board computer for applications such as IoT, hobby projects, DIY, education aid, research and prototyping device. But apart from these applications Raspberry Pi can be used for real-world applications such as in making a full-fledged networking devices. Raspberry Pi is a single board ARM based hardware which is why it is also classified as ARM based SoC (System on Chip) computer. Since it is ARM based it is highly efficient, tiny form-factor and lower in power consumption with moderate computational power. This will allow it to work several hours on emergency battery backup power supply such as low-cost domestic UPS and or some renewable energy source, which is a prerequisite for a typical networking device. As we know quite often these need to be switched on 24/7 and reliable.

ARM based SoC boards are already quite often being used as Networking devices. Here are some examples:

NAS Product: NETGEAR - ReadyNAS 102, ReadyNAS 104 series NAS products uses Marvell® Armada 370 1.2GHz SoC
Datasheet: http://www.marvell.com/embedded-processors/armada-300/assets/Marvell_ARMADA_370_SoC.pdf
Hardware Specifications: http://www.marvell.com/embedded-processors/armada-300/assets/ARMADA370-datasheet.pdf

Wi-Fi Gigabit Router: Kasda KA1900, TP-LINK Archer C9, TP-LINK Touch P5 - BCM4709 - ARM Cortex A9 1 GHz SoC
For more details to find entire series of Broadcom ARM processor: https://wikidevi.com/wiki/Broadcom

NAS Product: Xiaomi MiWiFi 802.11ac NAS Powered by Broadcom BCM4709 SoC
Read more about this product: Xiaomi MiWiFi 802.11ac NAS

Now let us compare with Raspberry Pi hardware:

Raspberry Pi 2 Model B - Broadcom BCM2836 900 MHz quad-core ARM Cortex A7
Official Raspberry Pi website: https://www.raspberrypi.org/products/raspberry-pi-2-model-b/

This shows even a Raspberry Pi is an excellent platform for building customized networking devices such as Home routers, Firewall devices, network gateways, IDS/IPS devices, Network monitoring, VOIP device, WAN Optimization devices, etc. So with a specific software meant for specific use-case any Raspberry Pi device can morph into a tiny desktop, or into a serious Network Device. Now let us explore various Raspberry Pi based software projects each with a specific use-case.

Wi-Fi access point:
Here is a list of few projects (or software solutions) with which you can turn your existing Raspberry Pi device into a quick dedicated Wi-Fi access point.

Project: The Pi-Point Raspberry Pi Wireless Access Point
Project website: http://www.pi-point.co.uk
Pi-Point is one of the top ten projects on TechRepublic. With Pi-Point you can extend your existing WiFi Network, create an access point, and so on. In other words you can make a Raspberry Pi device into a networking device and not only that you can also learn/debug/hack the network packets/data.

Project: Raspberry Pi WAN Emulator with TOFFEE-Mocha
Project URL: http://www.the-toffee-project.org/index.php/documentation/29-toffee-mocha-documentation-toffee-mocha-1-0-14-1-rpi2
TOFFEE-Mocha is an open-source WAN Emulation software which can be used to emulate (simulate) WAN networks. You can build test WAN networks and emulate WAN like behavior with TOFFEE-Mocha such as packet delays, random packet drops, packet corruption and so on. TOFFEE-Mocha can also be used as a tool to build TOFFEE WAN Optimization test setup at your lab. With the Raspberry Pi TOFFEE-Mocha release you can turn any Raspberry Pi2/3 into a dedicated WAN Emulator (network simulator) lab testing device.

NAS Micro Storage device:
You can build a DIY NAS server with Raspberry Pi. The idea here is to create a shared file-system resource at your home, so that you can access these common files from any device, such as mobile phones, smart TVs, share/upload pictures and videos from your camera for your family members and lot more interesting things. So there are various DIY Raspberry Pi NAS server build guides you can refer and build your own device at home. Here are some of my interesting links on this DIY:
http://elinux.org/R-Pi_NAS
http://pimylifeup.com/raspberry-pi-nas/
http://lifehacker.com/5988835/turn-a-raspberry-pi-into-a-low-power-nas
https://www.stewright.me/2013/05/turn-a-raspberry-pi-into-a-nas-network-attached-storage-server/

Benchmark Raspberry Pi and other embedded SoC with TrueBench:
TrueBench is an unique open-source benchmarking system in which the core system performance and efficiency parameters are measured at extreme high resolution in the order of several million/billion µ-seconds for a given specific task. TrueBench is a part of The TOFFEE Project research. With TrueBench Raspberry Pi 3, Raspberry Pi 2B and Raspberry Pi 2 are benchmarked and you can do a comparative analysis with standard mainstream x86 devices. For more details: visit TrueBench

Off-Grid Solar Power System for Raspberry Pi:
When you choose to use your Raspberry Pi device as your IoT based remote weather station or if you are building Linux kernel (like kernel compilation) within the same, you need a good uninterrupted power source (UPS). But if you are using it on site or in some research camping location you can choose to power your Raspberry Pi device with your custom off-grid solar power source. Kindly read my complete article about the same HERE.
Off-Grid Solar Power System for Raspberry Pi

Custom Linux Kernel compilation in Raspberry Pi:
At any case if you are interested learning Linux Kernel internals with Raspberry Pi and want to custom inject your code in Linux Kernel and or build your network stack for a networking device you can refer my video:

💎 TOFFEE-MOCHA new bootable ISO: Download
💎 TOFFEE Data-Center Big picture and Overview: Download PDF


Temas recomendados:

Tracking Live TCP Sessions (connections) - WAN Optimization Device ↗
Saturday' 13-Mar-2021

Introducing TOFFEE-Butterscotch - Save and Optimize your Internet/WAN bandwidth ↗
Saturday' 13-Mar-2021
TOFFEE-Butterscotch yet another variant of TOFFEE can be used to save and optimize your Home/SOHO Internet/WAN bandwidth. Unlike TOFFEE (and TOFFEE-DataCenter) TOFFEE-Butterscotch is a non peer-to-peer (and asymmetric) network optimization solution. This makes TOFFEE-Butterscotch an ideal tool for all Home and SOHO users.

TOFFEE-Mocha WAN Emulation software development - Update: 20-Oct-2016 ↗
Saturday' 13-Mar-2021
I was doing some specific tests in my TOFFEE and TOFFEE-DataCenter (WAN optimization) scenarios such as variable upload and download speeds. And I was also doing some experiments with speedtest.net and I did some of these tests with TOFFEE-Mocha. I realized there is a case that I can introduce asymmetric constant delays so that you can get different download speed and a different upload speed. And in some cases much faster download speeds and relatively slower upload speeds.

Building my own CDN - Finally Completed - Update: 17-Dec-2017 ↗
Saturday' 13-Mar-2021
Today I finally completed building my own private CDN. As I discussed so far in my earlier topics (Building my own CDN), I want to custom build the same step-by-step from scratch. And I don't want to for now use/buy third-party CDN subscriptions from Akamai, CloudFlare, Limelight, etc as I discussed earlier.

Streaming CDN Types ↗
Saturday' 13-Mar-2021

Bitcoin Mining - Blockchain Technology - Network Optimization via TOFFEE Data-Center WAN Optimization ↗
Saturday' 13-Mar-2021
Bitcoin Mining - Blockchain Technology - Network Optimization via TOFFEE Data-Center WAN Optimization

Watch on Youtube - [466//1] 158 VLOG - TOFFEE WAN Optimization Software Development live update - 6-Nov-2016 ↗


TOFFEE-Butterscotch Bandwidth saver software development - Update: 28-Oct-2016 ↗
Saturday' 13-Mar-2021
Here is my first software development update of TOFFEE-Butterscotch. In my first TOFFEE-Butterscotch news update I have introduced about TOFFEE-Butterscotch research, project specifications, use-cases, etc. Introducing TOFFEE-Butterscotch Alerts: These are simple packet counters which corresponds to the filter type. For example if the incoming TCP-SYN packets are blocked then its corresponding alert counter will increment whenever such a packet arrives and gets filtered (dropped).

Moon Base and Space Colonization - First we need fast InterPlanetary Internet ↗
Saturday' 13-Mar-2021

Demo TOFFEE-DataCenter WAN Optimization VM Test Setup ↗
Saturday' 13-Mar-2021

TOFFEE-Mocha Documentation :: TOFFEE-Mocha-1.0.32-1-x86_64 and TOFFEE-Mocha-1.0.32-1-i386 ↗
Saturday' 13-Mar-2021



Featured Educational Video:
Watch on Youtube - [1836//1] x257 tp-link UE300 Linux Kernel Realtek Driver Codewalk rtl8153a-3 r8152 USB 3.0 to Gigabit - Part1 ↗

TOFFEE-DataCenter WAN Optimization software development - Update: 13-Aug-2016 ↗
Saturday' 13-Mar-2021
Earlier the TOFFEE is intended to work on IoT devices, Satellite Networks, branch office/SOHO deployments. In most cases the users may deploy just one or couple of TOFFEE devices per site. But in the case of TOFFEE-DataCenter, users can scale-up deploying the same in multiple servers in a sort of distributed cluster computing scenario. Besides the core TOFFEE-DataCenter components (such as packet processing engine/framework), I need to do lot of changes in its Graphical User Interface (GUI) too to address these new requirements.

Tweaking Network Latency - Live Demo - via TOFFEE-DataCenter ↗
Saturday' 13-Mar-2021

First TOFFEE-Mocha Code Release ↗
Saturday' 13-Mar-2021
TOFFEE-Mocha is my dream project which I thought working on it since several years. I want to make a WAN emulation software which is straight forward and simple to use. I used tc scripts along with iptables for testing my TOFFEE (and TrafficSqueezer before TOFFEE) and I am not quite satisfied with the same. As one can understand these scripts are not meant for WAN emulation.

Introducing TOFFEE-DataCenter ↗
Saturday' 13-Mar-2021
TOFFEE TOFFEE Data-Center is specifically meant for Data Center, Cluster Computing, HPC applications. TOFFEE is built in Linux Kernel core. This makes it inflexible to adapt according to the hardware configuration. It does sequential packet processing and does not scale up well in large multi-core CPU based systems (such as Intel Xeon servers, Core i7 Extreme Desktop systems,etc). Apart from this since it is kernel based, if there is an issue in kernel, it may crash entire system. This becomes a challenge for any carrier grade equipment (CGE) hardware build.



Watch on Youtube - [889//1] 280 WAN Optimization - Animated demo of Packet Optimization in TOFFEE-DataCenter ↗

TOFFEE-Mocha Documentation :: TOFFEE-Mocha-1.0.32-1-x86_64 and TOFFEE-Mocha-1.0.32-1-i386 ↗
Saturday' 13-Mar-2021



Research :: Optimization of network data (WAN Optimization) at various levels:
Network File level network data WAN Optimization


Learn Linux Systems Software and Kernel Programming:
Linux, Kernel, Networking and Systems-Software online classes [CDN]


Hardware Compression and Decompression Accelerator Cards:
TOFFEE Architecture with Compression and Decompression Accelerator Card


TOFFEE-DataCenter on a Dell Server - Intel Xeon E5645 CPU:
TOFFEE-DataCenter screenshots on a Dual CPU - Intel(R) Xeon(R) CPU E5645 @ 2.40GHz - Dell Server