Media Summary: Take a Step Further: Understanding Page Spray in Aravind Machiry, Chad Spensky, Jake Corina, Nick Stephens, Christopher Kruegel, and Giovanni Vigna, UC Santa Barbara While ... KEPLER: Facilitating Control-flow Hijacking Primitive Evaluation for

Usenix Security 23 No Linux - Detailed Analysis & Overview

Take a Step Further: Understanding Page Spray in Aravind Machiry, Chad Spensky, Jake Corina, Nick Stephens, Christopher Kruegel, and Giovanni Vigna, UC Santa Barbara While ... KEPLER: Facilitating Control-flow Hijacking Primitive Evaluation for

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USENIX Security '23 - No Linux, No Problem: Fast and Correct Windows Binary Fuzzing via...
USENIX Security '23 - Mitigating Security Risks in Linux with KLAUS: A Method for Evaluating...
USENIX Security '23 - Greenhouse: Single-Service Rehosting of Linux-Based Firmware Binaries in...
USENIX Security '23 - DDRace: Finding Concurrency UAF Vulnerabilities in Linux Drivers with...
USENIX Security '23 - FirmSolo: Enabling dynamic analysis of binary Linux-based IoT kernel modules
USENIX Security '24 - Take a Step Further: Understanding Page Spray in Linux Kernel Exploitation
USENIX Security '23 - PET: Prevent Discovered Errors from Being Triggered in the Linux Kerne
USENIX Security '23 - PUMM: Preventing Use-After-Free Using Execution Unit Partitioning
USENIX Security '23 - Device Tracking via Linux’s New TCP Source Port Selection Algorithm
USENIX Security '24 - Pandawan: Quantifying Progress in Linux-based Firmware Rehosting
USENIX Security '23 - Lost at C: A User Study on the Security Implications of Large Language Model..
USENIX Security '17 - DR. CHECKER: A Soundy Analysis for Linux Kernel Drivers
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USENIX Security '23 - No Linux, No Problem: Fast and Correct Windows Binary Fuzzing via...

USENIX Security '23 - No Linux, No Problem: Fast and Correct Windows Binary Fuzzing via...

USENIX Security

USENIX Security '23 - Mitigating Security Risks in Linux with KLAUS: A Method for Evaluating...

USENIX Security '23 - Mitigating Security Risks in Linux with KLAUS: A Method for Evaluating...

USENIX Security

USENIX Security '23 - Greenhouse: Single-Service Rehosting of Linux-Based Firmware Binaries in...

USENIX Security '23 - Greenhouse: Single-Service Rehosting of Linux-Based Firmware Binaries in...

USENIX Security

USENIX Security '23 - DDRace: Finding Concurrency UAF Vulnerabilities in Linux Drivers with...

USENIX Security '23 - DDRace: Finding Concurrency UAF Vulnerabilities in Linux Drivers with...

USENIX Security

USENIX Security '23 - FirmSolo: Enabling dynamic analysis of binary Linux-based IoT kernel modules

USENIX Security '23 - FirmSolo: Enabling dynamic analysis of binary Linux-based IoT kernel modules

USENIX Security

USENIX Security '24 - Take a Step Further: Understanding Page Spray in Linux Kernel Exploitation

USENIX Security '24 - Take a Step Further: Understanding Page Spray in Linux Kernel Exploitation

Take a Step Further: Understanding Page Spray in

USENIX Security '23 - PET: Prevent Discovered Errors from Being Triggered in the Linux Kerne

USENIX Security '23 - PET: Prevent Discovered Errors from Being Triggered in the Linux Kerne

USENIX Security

USENIX Security '23 - PUMM: Preventing Use-After-Free Using Execution Unit Partitioning

USENIX Security '23 - PUMM: Preventing Use-After-Free Using Execution Unit Partitioning

USENIX Security

USENIX Security '23 - Device Tracking via Linux’s New TCP Source Port Selection Algorithm

USENIX Security '23 - Device Tracking via Linux’s New TCP Source Port Selection Algorithm

USENIX Security

USENIX Security '24 - Pandawan: Quantifying Progress in Linux-based Firmware Rehosting

USENIX Security '24 - Pandawan: Quantifying Progress in Linux-based Firmware Rehosting

Pandawan: Quantifying Progress in

USENIX Security '23 - Lost at C: A User Study on the Security Implications of Large Language Model..

USENIX Security '23 - Lost at C: A User Study on the Security Implications of Large Language Model..

USENIX Security

USENIX Security '17 - DR. CHECKER: A Soundy Analysis for Linux Kernel Drivers

USENIX Security '17 - DR. CHECKER: A Soundy Analysis for Linux Kernel Drivers

Aravind Machiry, Chad Spensky, Jake Corina, Nick Stephens, Christopher Kruegel, and Giovanni Vigna, UC Santa Barbara While ...

USENIX Security '19 - KEPLER: Facilitating Control-flow Hijacking Primitive Evaluation for Linux

USENIX Security '19 - KEPLER: Facilitating Control-flow Hijacking Primitive Evaluation for Linux

KEPLER: Facilitating Control-flow Hijacking Primitive Evaluation for