Deploying IBM Spectrum Accelerate on Cloud
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Test-Beds and Guidelines for Securing Iot Products and for Secure Set-Up Production Environments
IoT4CPS – Trustworthy IoT for CPS FFG - ICT of the Future Project No. 863129 Deliverable D7.4 Test-beds and guidelines for securing IoT products and for secure set-up production environments The IoT4CPS Consortium: AIT – Austrian Institute of Technology GmbH AVL – AVL List GmbH DUK – Donau-Universit t Krems I!AT – In"neon Technologies Austria AG #KU – JK Universit t Lin$ / Institute for &ervasive 'om(uting #) – Joanneum )esearch !orschungsgesellschaft mbH *+KIA – No,ia -olutions an. Net/or,s 0sterreich GmbH *1& – *1& -emicon.uctors Austria GmbH -2A – -2A )esearch GmbH -)!G – -al$burg )esearch !orschungsgesellschaft -''H – -oft/are 'om(etence 'enter Hagenberg GmbH -AG0 – -iemens AG 0sterreich TTTech – TTTech 'om(utertechni, AG IAIK – TU Gra$ / Institute for A((lie. Information &rocessing an. 'ommunications ITI – TU Gra$ / Institute for Technical Informatics TU3 – TU 3ien / Institute of 'om(uter 4ngineering 1*4T – 1-Net -ervices GmbH © Copyright 2020, the Members of the IoT4CPS Consortium !or more information on this .ocument or the IoT5'&- (ro6ect, (lease contact8 9ario Drobics7 AIT Austrian Institute of Technology7 mario:.robics@ait:ac:at IoT4C&- – <=>?@A Test-be.s an. guidelines for securing IoT (ro.ucts an. for secure set-up (ro.uction environments Dissemination level8 &U2LI' Document Control Title8 Test-be.s an. gui.elines for securing IoT (ro.ucts an. for secure set-u( (ro.uction environments Ty(e8 &ublic 4.itorBsC8 Katharina Kloiber 4-mail8 ,,;D-net:at AuthorBsC8 Katharina Kloiber, Ni,olaus DEr,, -ilvio -tern )evie/erBsC8 -te(hanie von )E.en, Violeta Dam6anovic, Leo Ha((-2otler Doc ID8 DF:5 Amendment History Version Date Author Description/Comments VG:? ?>:G?:@G@G -ilvio -tern Technology Analysis VG:@ ?G:G>:@G@G -ilvio -tern &ossible )esearch !iel.s for the -2I--ystem VG:> >?:G<:@G@G Katharina Kloiber Initial version (re(are. -
Github: a Case Study of Linux/BSD Perceptions from Microsoft's
1 FLOSS != GitHub: A Case Study of Linux/BSD Perceptions from Microsoft’s Acquisition of GitHub Raula Gaikovina Kula∗, Hideki Hata∗, Kenichi Matsumoto∗ ∗Nara Institute of Science and Technology, Japan {raula-k, hata, matumoto}@is.naist.jp Abstract—In 2018, the software industry giants Microsoft made has had its share of disagreements with Microsoft [6], [7], a move into the Open Source world by completing the acquisition [8], [9], the only reported negative opinion of free software of mega Open Source platform, GitHub. This acquisition was not community has different attitudes towards GitHub is the idea without controversy, as it is well-known that the free software communities includes not only the ability to use software freely, of ‘forking’ so far, as it it is considered as a danger to FLOSS but also the libre nature in Open Source Software. In this study, development [10]. our aim is to explore these perceptions in FLOSS developers. We In this paper, we report on how external events such as conducted a survey that covered traditional FLOSS source Linux, acquisition of the open source platform by a closed source and BSD communities and received 246 developer responses. organization triggers a FLOSS developers such the Linux/ The results of the survey confirm that the free community did trigger some communities to move away from GitHub and raised BSD Free Software communities. discussions into free and open software on the GitHub platform. The study reminds us that although GitHub is influential and II. TARGET SUBJECTS AND SURVEY DESIGN trendy, it does not representative all FLOSS communities. -
Sintesi Catalogo Competenze 2
Internet of Things Competenze Campi di applicazione • Progettazione e sviluppo di firmware su micro • Monitoraggio ambientale meteorologico di para- controllori a basso e bassissimo consumo quali ad metri climatici e parametri della qualità dell’aria, esempio Arduino, Microchip, NXP, Texas Instru- anche in mobilità ments e Freescale • Monitoraggio ambientale distribuito per l’agricol- • Sviluppo su PC embedded basati su processori tura di precisione ARM e sistema operativo Linux quali ad esempio • Monitoraggio della qualità dell’acqua e dei parame- Portux, Odroid, RaspberryPI ed Nvidia Jetson tri di rischio ambientale (alluvioni, frane, ecc.) • Progettazione e sviluppo di Wired e Wireless Sen- • Monitoraggio di ambienti indoor (scuole, bibliote- sor Networks basate su standard quali ZigBee, che, uffici pubblici, ecc) SimpliciTI, 6LoWPAN, 802.15.4 e Modbus • Smart building: efficienza energetica, comfort am- • Progettazione e sviluppo di sistemi ad alimentazio- bientale e sicurezza ne autonoma e soluzioni di Energy harvesting • Utilizzo di piattaforme microUAV per misure distri- • Ottimizzazione di software e protocolli wireless buite, per applicazioni di fotogrammetria, teleme- per l’uso efficiente dell’energia all’interno di nodi tria e cartografia, per sistemi di navigazione auto- ad alimentazione autonoma matica basata su sensoristica e image processing, • Design e prototipazione (con strumenti CAD, pianificazione e gestione delle missioni stampante 3D, ecc) di circuiti elettronici per l’inte- • Smart Grid locale per l’ottimizzazione -
Vyos Documentation Release Current
VyOS Documentation Release current VyOS maintainers and contributors Jun 04, 2019 Contents: 1 Installation 3 1.1 Verify digital signatures.........................................5 2 Command-Line Interface 7 3 Quick Start Guide 9 3.1 Basic QoS................................................ 11 4 Configuration Overview 13 5 Network Interfaces 17 5.1 Interface Addresses........................................... 18 5.2 Dummy Interfaces............................................ 20 5.3 Ethernet Interfaces............................................ 20 5.4 L2TPv3 Interfaces............................................ 21 5.5 PPPoE.................................................. 23 5.6 Wireless Interfaces............................................ 25 5.7 Bridging................................................. 26 5.8 Bonding................................................. 27 5.9 Tunnel Interfaces............................................. 28 5.10 VLAN Sub-Interfaces (802.1Q)..................................... 31 5.11 QinQ................................................... 32 5.12 VXLAN................................................. 33 5.13 WireGuard VPN Interface........................................ 37 6 Routing 41 6.1 Static................................................... 41 6.2 RIP.................................................... 41 6.3 OSPF................................................... 42 6.4 BGP................................................... 43 6.5 ARP................................................... 45 7 -
Virtual Router Performance
SOFTWARE DEFINED NETWORKING: VIRTUAL ROUTER PERFORMANCE Bachelor Degree Project in Network and System Administration Level ECTS Spring term 2016 Björn Svantesson Supervisor: Jianguo Ding Examiner: Manfred Jeusfeld Table of Contents 1Introduction..........................................................................................................................................1 2Background...........................................................................................................................................2 2.1Virtualization................................................................................................................................2 2.2Hypervisors...................................................................................................................................2 2.3VMware ESXi................................................................................................................................2 2.4Software defined networking.......................................................................................................3 2.5The split of the data and control plane........................................................................................3 2.6Centralization of network control................................................................................................4 2.7Network virtualization..................................................................................................................4 2.8Software routers..........................................................................................................................6 -
Bab 1 Pendahuluan
BAB 1 PENDAHULUAN 1.1 Latar Belakang Network Function Virtualization atau biasa yang disebut NFV merupakan sebuah konsep baru dalam mendesain, menyebarkan, dan mengelola sebuah layanan jaringan dengan cara pembuatan virtual sebuah perangkat jaringan dari yang sebelumnya berbentuk fisik atau perangkat keras sehingga dapat dipakai dan dipindahkan di berbagai lokasi jaringan yang diperlukan tanpa harus melakukan pemasangan alat baru. NFV memungkinkan beberapa perangkat jaringan dapat berjalan pada satu komputer. Perangkat – perangkat jaringan yang divirtualkan pada NFV disebut sebagai VNF (Virtual Network Function). Untuk menjalankan VNF dibutuhkan sebuah hypervisor yang mengatur manajemen hardware yang digunakan. Hypervisor atau yang dikenal sebagai virtual machine management dibagi menjadi 2 tipe, yaitu bare-metal hypervisor dan hosted hypervisor. Bare-metal hypevisor dapat berjalan langsung pada perangkat keras komputer sedangkan hosted hypervisor memerlukan operating system environment (OSE) untuk menjalankannya [1]. Salah satu contoh bare- metal hypervisor adalah XEN. Xen ProjectTM adalah platform virtualisasi open source yang mendukung beberapa cloud terbesar dalam produksi saat ini. Amazon Web Services, Aliyun, Rackspace Cloud Umum, Verizon Cloud dan banyak layanan hosting menggunakan software Xen [2]. Salah satu contoh VNF adalah virtual firewall. Kelebihan virtual firewall dibandingkan firewall fisik adalah mudah dikelola, dapat dipakai sesuai kebutuhan, dan efektivitas biaya [3]. Pada tugas akhir ini virtual firewall yang digunakan adalah OPNsense, pfSense, dan IPFire karena ketiga firewall tersebut bisa didapatkan secara gratis dan bersifat open source serta ketiga firewall tersebut dapat dikonfigurasi melalui web. pfSense merupakan firewall berbasis FreeBSD yang sangat populer untuk solusi keamanan serta user dapat melakukan modifikasi dan mudah dalam instalasi [4]. IPFire adalah sebuah distribusi Linux yang berfokus pada setup yang mudah, penanganan yang yang baik, dan tingkat keamanan yang tinggi [5]. -
Wifi Open Firmware
Wifi open firmware click here to download Instead of trying to create a single, static firmware, OpenWrt provides a fully Like any open source project, OpenWrt thrives on the efforts of its users and. Wonder what are the advantages of open source router firmware? Learn the basics on the What is Open Source Firmware page. Wireless network cards for computers require control software to make them function (firmware, .. iwm · Intel Wireless WiFi Link ac/ ac/ ac, Integrated (since ), No, BSD, Antti Kantee, Stefan Sperling, Based on iwn, and iwlwifi. a mentorship program that aims to bring pre-university students into Open Source . Google Code-In. If you are a GCI student read our GCI quick-start!. Open FirmWare for WiFi networks: a UniBS NTW group project To understand how it works and to have access to patches and firmware for supporting The firmware (the main piece) allow simple deployment of auto-configurable, yet It is open, so anyone can connect to it if physically possible networks is by installing our own firmware to the devices (usually WiFi routers). Atheros has been more friendly towards Linux customers in recent years with open-source WiFi/network Linux drivers. Atheros has even been. Installing a custom firmware on your Wi-Fi router is like God Mode for your home network. You can see everything going on, boost your Wi-Fi. Linux and open source rule the wireless hotspot world, and Eric wanting to give away or charge your visitors for the wireless Internet, you. PacketFence is a fully supported, trusted, Free and Open Source network access control (NAC) solution. -
Distributed Automatic Configuration of Complex Ipsec
J Netw Syst Manage (2010) 18:300–326 DOI 10.1007/s10922-010-9168-7 Distributed Automatic Configuration of Complex IPsec-Infrastructures Michael Rossberg • Guenter Schaefer • Thorsten Strufe Published online: 30 May 2010 Ó Springer Science+Business Media, LLC 2010 Abstract The Internet Protocol Security Architecture IPsec is hard to deploy in large, nested, or dynamic scenarios. The major reason for this is the need for manual configuration of the cryptographic tunnels, which grows quadratically with the total amount of IPsec gateways. This way of configuration is error-prone, cost-intensive and rather static. When private addresses are used in the protected subnetworks, the problem becomes even worse as the routing cannot rely on public infrastructures. In this article, we present a fully automated approach for the distributed configuration of IPsec domains. Utilizing peer-to-peer technology, our approach scales well with respect to the number of managed IPsec gateways, reacts robust to network failures, and supports the configuration of nested networks with private address spaces. We analyze the security requirements and further desirable properties of IPsec policy negotiation, and show that the distribution of security policy configuration does not impair security of transmitted user data in the resulting virtual private network (VPN). Results of a prototype implementation and simulation study reveal that the approach offers good characteristics for example with respect to quick reconfigu- ration of all gateways after a central power failure (robustness), or after insertion of new gateways (scalability and agility). M. Rossberg (&) Á G. Schaefer Technische Universita¨t Ilmenau, Telematics and Computer Networks Group, Postfach 100565, 98684 Ilmenau, Germany e-mail: [email protected] G. -
Virtuaalikone Ja -Verkkoympäristön Hyödyntäminen Tietoverkkotekniikan Tutkimus- Ja Opetusympäristöjen Rakentamisessa
Iikka Jaakkola Virtuaalikone ja -verkkoympäristön hyödyntäminen tietoverkkotekniikan tutkimus- ja opetusympäristöjen rakentamisessa Elektroniikan, tietoliikenteen ja automaation tiedekunta Diplomityö, joka on jätetty opinnäytteenä tarkastettavaksi diplomi-insinöörin tutkintoa varten Espoossa 10.5.2010 Työn valvoja: Prof. Jukka Manner Työn ohjaaja: TkL Markus Peuhkuri i AALTO-YLIOPISTO DIPLOMITYÖN TEKNILLINEN KORKEAKOULU TIIVISTELMÄ Tekijä: Iikka Jaakkola Työn nimi: Virtuaalikone ja -verkkoympäristön hyödyntäminen tietoverkkotekniikan tutkimus- ja opetusympäristöjen rakentamisessa Päivämäärä: 10.5.2010 Kieli: suomi Sivumäärä:55+26 Elektroniikan, tietoliikenteen ja automaation tiedekunta Tietoliikenne- ja tietoverkkotekniikan laitos Professuuri: Tietoverkot Koodi: S-38 Valvoja: Prof. Jukka Manner Ohjaaja: TkL Markus Peuhkuri Työn tavoitteena oli selvittää virtuaalisen tutkimusverkkoyhteyden tarvetta, vaatimuk- sia ja toteutuskelpoista tuomista tutkijoiden ja muiden tahojen, kuten opiskelijoiden, käyttöön. Virtuaalinen ympäristö oli tarkoitus rakentaa maksutta saatavilla olevien vir- tuaalikone- ja VPN-asiakasyhteysohjelmistojen varaan ja sen tulisi olla mahdollista asentaa tutkijoiden keskitetysti hallittuihin työasemiin. Lisäksi tutkittiin ratkaisun käyt- tökohteita, joista tärkeimpänä oli testiverkkoihin yhdistäminen. Ratkaisulle asetettavia vaatimuksia selvitettiin tietoturvapolitiikan, loppukäyttäjien, tietojärjestelmien ylläpi- don ja laitteistovaatimusten kannalta. Käyttäjien ja ylläpidon näkemyksiä kyseltiin haastatteluin ja kyselyin. -
February 2020 Slides .Pdf Format
Cybersecurity Critical Path How to Fast Track your Security Operations About ⚫ Matt Morton, CISM, CGEIT, CISSP ⚫ Consultant, Vantage Technology Consulting Group ⚫ CISO and experienced IT leader Current State ⚫ Survey Microsoft/Marsh ⚫ NASCIO - #1 IT Issue 2015-2019 ⚫ CIO Magazine - #1 Issue for CIO’s 2019, 2018 ⚫ Also top investment priority in same time period ⚫ EDUCAUSE – Cybersecurity #1 IT Issue 2019-2016, 2008 ⚫ Society of Information Management Professionals (SIM) 2018 - Cyber at the top of survey results Declining Confidence in Results Microsoft/Marsh 2019 • 79% of respondents ranked cyber risk as a top five concern for their organization, up from 62% in 2017. • Those saying they had “no confidence” increased: • From 9% to 18% for understanding and assessing cyber risks. • From 12% to 19% for preventing cyber threats. • From 15% to 22% for responding to and recovering from cyber events. Rising Incidents • Two-thirds of cyberattacks affect businesses with fewer than 1000 employees • 2018 Verizon Data Breach Report • The average cost of these cyber incidents is 1.43 million • Ponemon Institute 2018 State of Cybersecurity in SMBs 2018 • Only 17% of these businesses have a cybersecurity incident response plan • Better Business Bureau “State of Cybersecurity” Report 2017 Annual Spend Market Segment 2017 2018 2019 Application Security 2,434 2,742 3,003 Cloud Security 185 304 459 Data Security 2,563 3,063 3,524 Identity Access Management 8,823 9,768 10,578 Infrastructure Protection 12,583 14,106 15,337 Integrated Risk Management 3,949 -
Vyos Platform | DATASHEET HOW YOU CAN USE Vyos
VyOS Platform the power of your environment VyOS is a network operating system which supports most of modern routing protocols and network security features. VyOS runs equally well on bare metal hardware and inside virtual machines, including common cloud platforms. OVERVIEW VyOS is a GNU/ Linux-based operating system which ties many popular open source applications under a single, unified command line interface. VyOS offers features that are inherent to the traditional hardware routers: commit and rollback functionality, built-in configuration versioning and archiving, scripting APIs. At the same time it provides VPN and firewalls options. One of the most popular use cases for VyOS is connecting an existing enterprise network to the cloud infrastructure or connecting networks that hosted at different cloud platform vendors to each other: Benefits: - Open and community-driven nature of development - Enterprise- and service provider networks oriented - Adaptable for any network - from a small office to a data center rack - Arise from the abandoned Vyatta Core system so you can upgrade old Vyatta Core systems to VyOS without reinstallation - Continues to be actively developed and improved by the community. Services offered: - Commercial support - Development services on demand - Private deployments design and configuration for small and medium-sized businesses (ISPs, MSPs and Enterprise users) - Trainings and workshops KEY FEATURES - Wide range of supported VPN technologies: GRE, IPSec, IPSec VTI, OpenVPN, WireGuard - API for working with configuration from shell, Python, and Perl scripts - Physical and virtual hardware supported equally - Command line interface in the style of JunOS - Wide range of COTS hardware and virtual platforms supported - One-step image build process: any users can build custom images for their needs - Support BGP, OSPF routing protocols - QoS for traffic prioritization and shaping - Safe and easy image-based upgrades. -
UWS Academic Portal Highly-Scalable Software Firewall
View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Research Repository and Portal - University of the West of Scotland UWS Academic Portal Highly-scalable software firewall supporting one million rules for 5G NB-IoT networks Matencio Escolar, Antonio; Alcaraz Calero, Jose M.; Wang, Qi Published in: ICC 2020 - 2020 IEEE International Conference on Communications (ICC) DOI: 10.1109/ICC40277.2020.9149152 Published: 27/07/2020 Document Version Peer reviewed version Link to publication on the UWS Academic Portal Citation for published version (APA): Matencio Escolar, A., Alcaraz Calero, J. M., & Wang, Q. (2020). Highly-scalable software firewall supporting one million rules for 5G NB-IoT networks. In ICC 2020 - 2020 IEEE International Conference on Communications (ICC) (IEEE Conference Proceedings). IEEE. https://doi.org/10.1109/ICC40277.2020.9149152 General rights Copyright and moral rights for the publications made accessible in the UWS Academic Portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. Take down policy If you believe that this document breaches copyright please contact [email protected] providing details, and we will remove access to the work immediately and investigate your claim. Download date: 30 Nov 2020 Matencio Escolar, A., Alcaraz Calero, J. M., & Wang, Q. (2020). Highly-scalable software firewall supporting one million rules for 5G NB-IoT networks. In ICC 2020 - 2020 IEEE International Conference on Communications (ICC) (IEEE Conference Proceedings). IEEE. https://doi.org/10.1109/ICC40277.2020.9149152 “© © 2020 IEEE.