USENIX Security ’23 - Uncontained: Uncovering Container Confusion in the Linux Kernel

Authors/Presenters: Jakob Koschel, Pietro Borrello, Daniele Cono D'Elia, Herbert Bos. Cristiano Giuffrida

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - KextFuzz: Fuzzing macOS Kernel EXTensions on Apple Silicon via Exploiting Mitigations

Authors/Presenters: Tingting Yin, Zicong Gao, Zhenghang Xiao, Zheyu Ma, Min Zheng, Chao Zhang

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - FirmSolo: Enabling Dynamic Analysis Of Binary Linux-Based IoT Kernel Modules

Authors/Presenters:Ioannis Angelakopoulos, Gianluca Stringhini, Manuel Egele

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - ACTOR: Action-Guided Kernel Fuzzing

Authors/Presenters:Marius Fleischer, Dipanjan Das, Priyanka Bose, Weiheng Bai, Kangjie Lu, Mathias Payer, Christopher Kruegel, Giovanni Vigna

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - BoKASAN: Binary-only Kernel Address Sanitizer for Effective Kernel Fuzzing

Authors/Presenters:Mingi Cho, Dohyeon An, Hoyong Jin, Taekyoung Kwon

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - AIFORE: Smart Fuzzing Based on Automatic Input Format Reverse Engineering

Authors/Presenters:Ji Shi, Zhun Wang, Zhiyao Feng, Yang Lan, Shisong Qin, Wei You, Wei Zou, Mathias Payer, Chao Zhang

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - DynSQL: Stateful Fuzzing for Database Management Systems with Complex and Valid SQL Query Generation

Authors/Presenters:Zu-Ming Jiang, Jia-Ju Bai, Zhendong Su

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - DAFL: Directed Grey-box Fuzzing guided by Data Dependency

Authors/Presenters:Tae Eun Kim, Jaeseung Choi, Kihong Heo, Sang Kil Cha

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - No Linux, No Problem: Fast and Correct Windows Binary Fuzzing via Target-embedded Snapshotting

Authors/Presenters:Leo Stone, Rishi Ranjan, Stefan Nagy, Matthew Hicks

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Extended Hell(o): A Comprehensive Large-Scale Study on Email Confidentiality and Integrity Mechanisms in the Wild

Authors/Presenters:Birk Blechschmidt, Ben Stock

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - We Really Need to Talk About Session Tickets: A Large-Scale Analysis of Cryptographic Dangers with TLS Session Tickets

Authors/Presenters:Sven Hebrok, Simon Nachtigall, Marcel Maehren, Nurullah Erinola, Robert Merget, Juraj Somorovsky, Jörg Schwenk

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Exploring the Unknown DTLS Universe: Analysis of the DTLS Server Ecosystem on the Internet

Authors/Presenters:Nurullah Erinola, Marcel Maehren, Robert Merget, Juraj Somorovsky, Jörg Schwenk

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Keep Your Friends Close, but Your Routeservers Closer: Insights into RPKI Validation in the Internet

Authors/Presenters:Tomas Hlavacek, Haya Shulman, Niklas Vogel, Michael Waidner

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - HOLMES: Efficient Distribution Testing for Secure Collaborative Learning

Authors/Presenters:Ian Chang, Katerina Sotiraki, Weikeng Chen, Murat Kantarcioglu, Raluca Popa

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.