mirror of
https://github.com/fkie-cad/awesome-embedded-and-iot-security.git
synced 2024-10-01 05:45:37 -04:00
229 lines
18 KiB
Markdown
229 lines
18 KiB
Markdown
<div align="center">
|
||
<img width="500" height="350" src="iot_awesome_logo.svg" alt="Awesome">
|
||
<br />
|
||
</div>
|
||
|
||
# Awesome Embedded and IoT Security [![Awesome](https://awesome.re/badge.svg)](https://awesome.re)
|
||
|
||
> A curated list of awesome resources about embedded and IoT security. The list contains software and hardware tools, books, research papers and more.
|
||
|
||
Botnets like [Mirai](https://en.wikipedia.org/wiki/Mirai_(malware)) have proven that there is a need for more security in embedded and IoT devices. This list shall help beginners and experts to find helpful resources on the topic.
|
||
If you are a beginner, you should have a look at the [Books](#books) and [Case Studies](#case-studies) sections.
|
||
If you want to start right away with your own analysis, you should give the [Analysis Frameworks](#analysis-frameworks) a try.
|
||
They are easy to use and you do not need to be an expert to get first meaningful results.
|
||
|
||
> *Items marked with :euro: are comercial products.*
|
||
|
||
## Contents
|
||
|
||
- [Software Tools](#software-tools)
|
||
- [Analysis Frameworks](#analysis-frameworks)
|
||
- [Analysis Tools](#analysis-tools)
|
||
- [Extraction Tools](#extraction-tools)
|
||
- [Support Tools](#support-tools)
|
||
- [Misc Tools](#misc-tools)
|
||
- [Hardware Tools](#hardware-tools)
|
||
- [Bluetooth BLE Tools](#bluetooth-ble-tools)
|
||
- [ZigBee Tools](#zigbee-tools)
|
||
- [SDR Tools](#sdr-tools)
|
||
- [RFID NFC Tools](#rfid-nfc-tools)
|
||
- [Books](#books)
|
||
- [Research Papers](#research-papers)
|
||
- [Case Studies](#case-studies)
|
||
- [Free Training](#free-training)
|
||
- [Websites](#websites)
|
||
- [Blogs](#blogs)
|
||
- [Tutorials and Technical Background](#tutorials-and-technical-background)
|
||
- [Conferences](#conferences)
|
||
|
||
|
||
## Software Tools
|
||
Software tools for analyzing embedded/IoT devices and firmware.
|
||
|
||
### Analysis Frameworks
|
||
|
||
- [EXPLIoT](https://gitlab.com/expliot_framework/expliot) - Pentest framework like Metasploit but specialized for IoT.
|
||
- [FACT - The Firmware Analysis and Comparison Tool](https://fkie-cad.github.io/FACT_core/) - Full-featured static analysis framework including extraction of firmware, analysis utilizing different plug-ins and comparison of different firmware versions.
|
||
- [Improving your firmware security analysis process with FACT](https://passthesalt.ubicast.tv/videos/improving-your-firmware-security-analysis-process-with-fact/) - Conference talk about FACT :tv:.
|
||
- [FwAnalyzer](https://github.com/cruise-automation/fwanalyzer) - Analyze security of firmware based on customized rules. Intended as additional step in DevSecOps, similar to CI.
|
||
- [HAL – The Hardware Analyzer](https://github.com/emsec/hal) - A comprehensive reverse engineering and manipulation framework for gate-level netlists.
|
||
- [IoTSecFuzz](https://gitlab.com/invuls/iot-projects/iotsecfuzz) - Framework for automatisation of IoT layers security analysis: hardware, software and communication.
|
||
- [Killerbee](https://github.com/riverloopsec/killerbee) - Framework for Testing & Auditing ZigBee and IEEE 802.15.4 Networks.
|
||
- [PRET](https://github.com/RUB-NDS/PRET) - Printer Exploitation Toolkit.
|
||
- [Routersploit](https://github.com/threat9/routersploit) - Framework dedicated to exploit embedded devices.
|
||
|
||
### Analysis Tools
|
||
|
||
- [Binwalk](https://github.com/ReFirmLabs/binwalk) - Searches a binary for "interesting" stuff.
|
||
- [Firmadyne](https://github.com/firmadyne/firmadyne) - Tries to emulate and pentest a firmware.
|
||
- [Firmwalker](https://github.com/craigz28/firmwalker) - Searches extracted firmware images for interesting files and information.
|
||
- [Firmware Slap](https://github.com/ChrisTheCoolHut/Firmware_Slap) - Discovering vulnerabilities in firmware through concolic analysis and function clustering.
|
||
- [Ghidra](https://ghidra-sre.org/) - Software Reverse Engineering suite; handles arbitrary binaries, if you provide CPU architecture and endianness of the binary.
|
||
- [Radare2](https://github.com/radare/radare2) - Software Reverse Engineering framework, also handles popular formats and arbitrary binaries, has an extensive command line toolset.
|
||
- [Trommel](https://github.com/CERTCC/trommel) - Searches extracted firmware images for interesting files and information.
|
||
|
||
### Extraction Tools
|
||
|
||
- [Binwalk](https://github.com/ReFirmLabs/binwalk) - Extracts arbitrary files utilizing a carving approach.
|
||
- [FACT Extractor](https://github.com/fkie-cad/fact_extractor) - Detects container format automatically and executes the corresponding extraction tool.
|
||
- [Firmware Mod Kit](https://github.com/rampageX/firmware-mod-kit/wiki) - Extraction tools for several container formats.
|
||
- [The SRecord package](http://srecord.sourceforge.net/) - Collection of tools for manipulating EPROM files (can convert lots of binary formats).
|
||
|
||
### Support Tools
|
||
|
||
- [JTAGenum](https://github.com/cyphunk/JTAGenum) - Add JTAG capabilities to an Arduino.
|
||
- [OpenOCD](http://openocd.org/) - Free and Open On-Chip Debugging, In-System Programming and Boundary-Scan Testing.
|
||
|
||
### Misc Tools
|
||
|
||
- [Samsung Firmware Magic](https://github.com/chrivers/samsung-firmware-magic) - Decrypt Samsung SSD firmware updates.
|
||
|
||
## Hardware Tools
|
||
|
||
- [Bus Blaster](http://dangerousprototypes.com/docs/Bus_Blaster) - Detects and interacts with hardware debug ports like [UART](https://en.wikipedia.org/wiki/Universal_asynchronous_receiver-transmitter) and [JTAG](https://en.wikipedia.org/wiki/JTAG).
|
||
- [Bus Pirate](http://dangerousprototypes.com/docs/Bus_Pirate) - Detects and interacts with hardware debug ports like UART and JTAG.
|
||
- [Shikra](https://int3.cc/products/the-shikra) - Detects and interacts with hardware debug ports like UART and JTAG. Among other protocols.
|
||
- [JTAGULATOR](http://www.grandideastudio.com/jtagulator/) - Detects JTAG Pinouts fast.
|
||
- [Saleae](https://www.saleae.com/) - Easy to use Logic Analyzer that support many protocols :euro:.
|
||
- [Ikalogic](https://www.ikalogic.com/pages/logic-analyzer-sp-series-sp209) - Alternative to Saleae logic analyzers :euro:.
|
||
- [HydraBus](https://hydrabus.com/hydrabus-1-0-specifications/) - Open source multi-tool hardware similar to the BusPirate but with NFC capabilities.
|
||
- [ChipWhisperer](https://newae.com/chipwhisperer/) - Detects Glitch/Side-channel attacks.
|
||
- [Glasgow](https://github.com/GlasgowEmbedded/Glasgow) - Tool for exploring and debugging different digital interfaces.
|
||
- [J-Link](https://www.segger.com/products/debug-probes/j-link/models/model-overview/) - J-Link offers USB powered JTAG debug probes for multiple different CPU cores :euro:.
|
||
|
||
### Bluetooth BLE Tools
|
||
- [UberTooth One](https://greatscottgadgets.com/ubertoothone/) - Open source 2.4 GHz wireless development platform suitable for Bluetooth experimentation.
|
||
- [Bluefruit LE Sniffer](https://www.adafruit.com/product/2269) - Easy to use Bluetooth Low Energy sniffer.
|
||
|
||
### ZigBee Tools
|
||
|
||
- [ApiMote](http://apimote.com) - ZigBee security research hardware for learning about and evaluating the security of IEEE 802.15.4/ZigBee systems. Killerbee compatible.
|
||
- Atmel RZUSBstick - Discontinued product. Lucky if you have one! - Tool for development, debugging and demonstration of a wide range of low power wireless applications including IEEE 802.15.4, 6LoWPAN, and ZigBee networks. Killerbee compatible.
|
||
- [Freakduino](https://freaklabsstore.com/index.php?main_page=product_info&cPath=22&products_id=219&zenid=fpmu2kuuk4abjf6aurt3bjnfk4) - Low Cost Battery Operated Wireless Arduino Board that can be turned into a IEEE 802.15.4 protocol sniffer.
|
||
|
||
### SDR Tools
|
||
- [HackRF One](https://greatscottgadgets.com/hackrf/) - Software Defined Radio peripheral capable of transmission or reception of radio signals from 1 MHz to 6 GHz (half-duplex).
|
||
- [YardStick One](https://greatscottgadgets.com/yardstickone/) - Half-duplex sub-1 GHz wireless transceiver.
|
||
- [LimeSDR](https://www.crowdsupply.com/lime-micro/limesdr) - Software Defined Radio peripheral capable of transmission or reception of radio signals from 100 KHz to 3.8 GHz (full-duplex).
|
||
- [BladeRF 2.0](https://www.nuand.com/bladerf-2-0-micro/) - Software Defined Radio peripheral capable of transmission or reception of radio signals from 47 MHz to 6 GHz (full-duplex).
|
||
- [USRP B Series](https://www.ettus.com/product-categories/usrp-bus-series/) - Software Defined Radio peripheral capable of transmission or reception of radio signals from 70 MHz to 6 GHz (full-duplex).
|
||
|
||
### RFID NFC Tools
|
||
- [Proxmark 3 RDV4](https://www.proxmark.com/) - Powerful general purpose RFID tool. From Low Frequency (125kHz) to High Frequency (13.56MHz) tags.
|
||
- [ChamaleonMini](http://chameleontiny.com/) - Programmable, portable tool for NFC security analysis.
|
||
- [HydraNFC](https://hydrabus.com/hydranfc-1-0-specifications/) - Powerful 13.56MHz RFID / NFC platform. Read / write / crack / sniff / emulate.
|
||
|
||
## Books
|
||
|
||
- 2020, Fotios Chantzis, Evangel Deirme, Ioannis Stais, Paulino Calderon, Beau Woods: [Practical IoT Hacking](https://www.amazon.com/Fotios-Chantzis-ebook/dp/B085BVVSN6/)
|
||
- 2020, Jasper van Woudenberg, Colin O'Flynn: [The Hardware Hacking Handbook: Breaking Embedded Security with Hardware Attacks](https://nostarch.com/hardwarehacking)
|
||
- 2019, Yago Hansen: [The Hacker's Hardware Toolkit: The best collection of hardware gadgets for Red Team hackers, Pentesters and security researchers](https://github.com/yadox666/The-Hackers-Hardware-Toolkit/blob/master/TheHackersHardwareToolkit.pdf)
|
||
- 2019, Aditya Gupta: [The IoT Hacker's Handbook: A Practical Guide to Hacking the Internet of Things](https://www.apress.com/us/book/9781484242995)
|
||
- 2018, Mark Swarup Tehranipoor: [Hardware Security: A Hands-on Learning Approach](https://www.elsevier.com/books/hardware-security/bhunia/978-0-12-812477-2)
|
||
- 2018, Mark Carney: [Pentesting Hardware - A Practical Handbook (DRAFT)](https://github.com/unprovable/PentestHardware)
|
||
- 2018, Qing Yang, Lin Huang [Inside Radio: An Attack and Defense Guide](https://link.springer.com/book/10.1007/978-981-10-8447-8)
|
||
- 2017, Aditya Gupta, Aaron Guzman: [IoT Penetration Testing Cookbook](https://www.packtpub.com/networking-and-servers/iot-penetration-testing-cookbook)
|
||
- 2017, Andrew Huang: [The Hardware Hacker: Adventures in Making and Breaking Hardware](https://nostarch.com/hardwarehackerpaperback)
|
||
- 2016, Craig Smith: [The Car Hacker's Handbook: A Guide for the Penetration Tester](https://nostarch.com/carhacking)
|
||
- 2015, Keng Tiong Ng: [The Art of PCB Reverse Engineering](https://visio-for-engineers.blogspot.com/p/order.html)
|
||
- 2015, Nitesh Dhanjan: [Abusing the Internet of Things: Blackouts, Freakouts, and Stakeouts](https://shop.oreilly.com/product/0636920033547.do)
|
||
- 2015, Joshua Wright , Johnny Cache: [Hacking Wireless Exposed](https://www.mhprofessional.com/9780071827638-usa-hacking-exposed-wireless-third-edition-group)
|
||
- 2014, Debdeep Mukhopadhyay: [Hardware Security: Design, Threats, and Safeguards](https://www.taylorfrancis.com/books/9780429066900)
|
||
- 2014, Jack Ganssle: [The Firmware Handbook (Embedded Technology)](https://www.elsevier.com/books/the-firmware-handbook/ganssle/978-0-7506-7606-9)
|
||
- 2013, Andrew Huang: [Hacking the XBOX](https://nostarch.com/xboxfree)
|
||
|
||
## Research Papers
|
||
<!--lint ignore match-punctuation-->
|
||
- 2019, Almakhdhub et al: [BenchIoT: A Security Benchmark for the Internet of Things](https://nebelwelt.net/publications/files/19DSN.pdf)
|
||
- 2019, Alrawi et al: [SoK: Security Evaluation of Home-Based IoT Deployments](https://alrawi.github.io/static/papers/alrawi_sok_sp19.pdf)
|
||
- 2019, Abbasi et al: [Challenges in Designing Exploit Mitigations for Deeply Embedded Systems](https://ieeexplore.ieee.org/abstract/document/8806725)
|
||
- 2019, Song et al: [PeriScope: An Effective Probing and Fuzzing Framework for the Hardware-OS Boundary](https://www.ndss-symposium.org/wp-content/uploads/2019/02/ndss2019_04A-1_Song_paper.pdf)
|
||
- 2018, Muench et al: [What You Corrupt Is Not What You Crash: Challenges in Fuzzing Embedded Devices](http://www.eurecom.fr/en/publication/5417/download/sec-publi-5417.pdf)
|
||
- 2017, O'Meara et al: [Embedded Device Vulnerability Analysis Case Study Using Trommel](https://resources.sei.cmu.edu/library/asset-view.cfm?assetid=509271)
|
||
- 2017, Jacob et al: [How to Break Secure Boot on FPGA SoCs through Malicious Hardware](https://eprint.iacr.org/2017/625.pdf)
|
||
- 2017, Costin et al: [Towards Automated Classification of Firmware Images and Identification of Embedded Devices](http://s3.eurecom.fr/docs/ifip17_costin.pdf)
|
||
- 2016, Kammerstetter et al: [Embedded Security Testing with Peripheral Device Caching and Runtime Program State Approximation](https://www.thinkmind.org/download.php?articleid=securware_2016_2_10_30082)
|
||
- 2016, Chen et al: [Towards Automated Dynamic Analysis for Linux-based Embedded Firmware](https://www.dcddcc.com/docs/2016_paper_firmadyne.pdf)
|
||
- 2016, Costin et al: [Automated Dynamic Firmware Analysis at Scale: A Case Study on Embedded Web Interfaces](http://s3.eurecom.fr/docs/asiaccs16_costin.pdf)
|
||
- 2015, Shoshitaishvili et al:[Firmalice - Automatic Detection of Authentication Bypass Vulnerabilities in Binary Firmware](https://www.ndss-symposium.org/wp-content/uploads/2017/09/11_1_2.pdf)
|
||
- 2015, Papp et al: [Embedded Systems Security: Threats, Vulnerabilities, and Attack Taxonomy](http://www.cse.psu.edu/~pdm12/cse597g-f15/readings/cse597g-embedded_systems.pdf)
|
||
- 2014, Zaddach et al: [Avatar: A Framework to Support Dynamic Security Analysis of Embedded Systems' Firmwares](http://www.eurecom.fr/en/publication/4158/download/rs-publi-4158.pdf)
|
||
- 2014, Alimi et al: [Analysis of embedded applications by evolutionary fuzzing](http://ieeexplore.ieee.org/document/6903734/)
|
||
- 2014, Costin et al: [A Large-Scale Analysis of the Security of Embedded Firmware
|
||
s](http://www.s3.eurecom.fr/docs/usenixsec14_costin.pdf)
|
||
- 2013, Davidson et al: [FIE on Firmware: Finding Vulnerabilities in Embedded Systems using Symbolic Execution](https://www.usenix.org/system/files/conference/usenixsecurity13/sec13-paper_davidson.pdf)
|
||
|
||
## Case Studies
|
||
<!--lint ignore no-repeat-punctuation-->
|
||
- [Binary Hardening in IoT products](https://cyber-itl.org/2019/08/26/iot-data-writeup.html)
|
||
- [Cracking Linksys “Encryption”](http://www.devttys0.com/2014/02/cracking-linksys-crypto/)
|
||
- [Deadly Sins Of Development](https://youtu.be/nXyglaY9N9w) - Conference talk presenting several real world examples on real bad implementations :tv:.
|
||
- [Dumping firmware from a device's SPI flash with a buspirate](https://www.iotpentest.com/2019/06/dumping-firmware-from-device-using.html)
|
||
- [Hacking the DSP-W215, Again](http://www.devttys0.com/2014/05/hacking-the-dspw215-again/)
|
||
- [Hacking the PS4](https://cturt.github.io/ps4.html) - Introduction to PS4's security.
|
||
- [Multiple vulnerabilities found in the D-link DWR-932B](https://pierrekim.github.io/blog/2016-09-28-dlink-dwr-932b-lte-routers-vulnerabilities.html)
|
||
- [Pwning the Dlink 850L routers and abusing the MyDlink Cloud protocol](https://pierrekim.github.io/blog/2017-09-08-dlink-850l-mydlink-cloud-0days-vulnerabilities.html)
|
||
- [PWN Xerox Printers (...again)](https://www.fkie.fraunhofer.de/content/dam/fkie/de/documents/xerox_phaser_6700_white_paper.pdf)
|
||
- [Reversing Firmware With Radare](https://www.bored-nerds.com/reversing/radare/automotive/2019/07/07/reversing-firmware-with-radare.html)
|
||
- [Reversing the Huawei HG533](http://jcjc-dev.com/2016/04/08/reversing-huawei-router-1-find-uart/)
|
||
|
||
## Free Training
|
||
|
||
- [CSAW Embedded Security Challenge 2019](https://github.com/TrustworthyComputing/csaw_esc_2019) - CSAW 2019 Embedded Security Challenge (ESC).
|
||
- [Embedded Security CTF](https://microcorruption.com) - Microcorruption: Embedded Security CTF.
|
||
- [Hardware Hacking 101](https://github.com/rdomanski/hardware_hacking/tree/master/my_talks/Hardware_Hacking_101) - Workshop @ BSides Munich 2019.
|
||
- [IoTGoat](https://github.com/scriptingxss/IoTGoat) - IoTGoat is a deliberately insecure firmware based on OpenWrt.
|
||
- [Rhme-2015](https://github.com/Riscure/RHme-2015) - First riscure Hack me hardware CTF challenge.
|
||
- [Rhme-2016](https://github.com/Riscure/Rhme-2016) - Riscure Hack me 2 is a low level hardware CTF challenge.
|
||
- [Rhme-2017/2018](https://github.com/Riscure/Rhme-2017) - Riscure Hack Me 3 embedded hardware CTF 2017-2018.
|
||
|
||
## Websites
|
||
|
||
- [Hacking Printers Wiki](http://hacking-printers.net/wiki/index.php/Main_Page) - All things printer.
|
||
- [OWASP Embedded Application Security Project](https://owasp.org/www-project-embedded-application-security/) - Development best practices and list of hardware and software tools.
|
||
- [OWASP Internet of Things Project](https://owasp.org/www-project-internet-of-things/) - IoT common vulnerabilities and attack surfaces.
|
||
- [Router Passwords](https://192-168-1-1ip.mobi/default-router-passwords-list/) - Default login credential database sorted by manufacturer.
|
||
- [Siliconpr0n](https://siliconpr0n.org/) - A Wiki/Archive of all things IC reversing.
|
||
|
||
### Blogs
|
||
<!--lint ignore no-repeat-punctuation-->
|
||
- [/dev/ttyS0's Embedded Device Hacking](http://www.devttys0.com/blog/)
|
||
- [Exploiteers](https://www.exploitee.rs/)
|
||
- [Hackaday](https://hackaday.com)
|
||
- [jcjc's Hack The World](https://jcjc-dev.com/)
|
||
- [Quarkslab](https://blog.quarkslab.com/)
|
||
- [wrong baud](https://wrongbaud.github.io/)
|
||
|
||
- [Firmware Security](https://firmwaresecurity.com/)
|
||
- [PenTestPartners](https://www.pentestpartners.com/internet-of-things/)
|
||
- [Attify](https://blog.attify.com/)
|
||
- [Patayu](https://payatu.com/blog)
|
||
- [GracefulSecurity - Hardware tag](https://gracefulsecurity.com/category/hardware/)
|
||
- [Black Hills - Hardware Hacking tag](https://www.blackhillsinfosec.com/tag/hardware-hacking/)
|
||
|
||
|
||
### Tutorials and Technical Background
|
||
- [Azeria Lab](https://azeria-labs.com/) - Miscellaneous ARM related Tutorials.
|
||
- [JTAG Explained](https://blog.senr.io/blog/jtag-explained#) - A walkthrough covering UART and JTAG bypassing a protected login shell.
|
||
- [Reverse Engineering Serial Ports](http://www.devttys0.com/2012/11/reverse-engineering-serial-ports/) - Detailed tutorial about how to spot debug pads on a PCB.
|
||
- [UART explained](https://www.mikroe.com/blog/uart-serial-communication) - An in depth explanation of the UART protocol.
|
||
|
||
|
||
## Conferences
|
||
Conferences focused on embedded and/or IoT security.
|
||
|
||
- [Hardwear.io](https://hardwear.io/) - The Hague, September.
|
||
- [Hardwear.io USA](https://hardwear.io/) - Santa Clara, June.
|
||
|
||
## Contribute
|
||
|
||
Contributions welcome! Read the [contribution guidelines](contributing.md) first.
|
||
|
||
## License
|
||
|
||
[![CC0](https://mirrors.creativecommons.org/presskit/buttons/88x31/svg/cc-zero.svg)](https://creativecommons.org/publicdomain/zero/1.0/)
|
||
|
||
To the extent possible under law, Fraunhofer FKIE has waived all copyright and
|
||
related or neighboring rights to this work.
|
||
|