THE

SPRAWL

  •  
  •  
  •  
  • sprawlsimilar

    exploit exercises - protostar - final levels

    Exploit Exercises' Protostar wargame includes a number of carefully prepared exercises to help hone your basic exploitation skills. The final portion of the wargame combines Stack, Format String, Heap, and Network exploitation techniques into three excellent challenges to help solidify knowledge gained from previous exercises. Read more.

    exploit exercises - protostar - format string levels

    Exploit Exercises' Protostar wargame includes a number of carefully prepared exercises to help hone your basic exploitation skills. In this walkthrough I will go over the format string exploitation portion of the wargame. Read more.

    exploit exercises - protostar - stack levels

    Exploit Exercises' Protostar wargame includes a number of carefully prepared exercises to help hone your basic exploitation skills. In this walkthrough I will go over the stack exploitation portion of the wargame. Read more.

    exploit exercises - protostar - network levels

    Exploit Exercises' Protostar wargame includes a number of carefully prepared exercises to help hone your basic exploitation skills. In this walkthrough I will go over the network exploitation portion of the wargame. Read more.

    heap overflows for humans - 102 - exercise solution

    Heap Overflows For Humans is a series of articles by Steven Seeley that explore heap exploitation on Windows. In this article I will go over the exact reasoning and exploitation steps for an exercise created by Steven in the second article of the series. Read more.

    corelan - integer overflows - exercise solution

    A solution to the exercise in the Corelan article Root Cause Analysis - Integer Overflows on exploiting integer and heap overflows. The solution illustrates massaging the heap into a vulnerable state by corrupting the Windows front-end allocator and finally exploiting it to gain arbitrary code execution. Read more.

    open security training - introduction to software exploits - uninitialized variable overflow

    Open Security Training's Introduction to Software Exploits course has a number of vulnerability examples designed to illustrate unconventional exploitation techniques. One such example is an uninitialized variable condition which may be exploitable under certain conditions. The following walkthrough goes into the exact exploitation steps for this class of vulnerabilities. Read more.

    01 oct
    2014
    exodus - vuln-dev - master class

    A few weeks ago I had a great pleasure of studying at a week-long training taught by Exodus Intelligence. The Vulnerability Development - Master Class was taught by Aaron Portnoy, Zef Cekaj, and Peter Vreugdenhil. The class had an excellent presentation of two complementary yet unique subjects of vulnerability discovery and exploit development primarily under Windows environment. The instructors are truly masters of their field which was reflected in the great quality and depth of the material.

    While it is still fresh in my mind, I would like to share with you some of the notes on the covered subjects, the recommended prerequisites, and tips on how to get the most out of this very intensive training. Read more.

    ida sploiter

    Download idasploiter-1.0.zip
    Size 25.4 KB
    DateSeptember 14th, 2014
    Version1.0

    IDA Sploiter is a plugin for Hex-Ray's IDA Pro disassembler designed to enhance IDA's capabilities as an exploit development and vulnerability research tool. Some of the plugin's features include a powerful ROP gadgets search engine, semantic gadget analysis and filtering, interactive ROP chain builder, stack pivot analysis, writable function pointer search, cyclic memory pattern generation and offset analysis, detection of bad characters and memory holes, and many others. Read more.

    open security training - introduction to software exploits - off-by-one

    A walkthrough for the Off-by-One exploit in the Open Security Training - Introduction to Software Exploits class. Read more.



    π
    ///\oo/\\\