NullSection - An Anti-Reversing Tool That Applies A Technique That Overwrites The Section Header With Nullbytes

NullSection is an Anti-Reversing tool that applies a technique that overwrites the section header with nullbytes.

Install

git clone https://github.com/MatheuZSecurity/NullSection
cd NullSection
gcc nullsection.c -o nullsection
./nullsection

Advantage

When running nullsection on any ELF, it could be .ko rootkit, after that if you use Ghidra/IDA to parse ELF functions, nothing will appear no function to parse in the decompiler for example, even if you run readelf -S / path /to/ elf the following message will appear "There are no sections in this file."

Make good use of the tool!

Note

We are not responsible for any damage caused by this tool, use the tool intelligently and for educational purposes only.

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Linpmem - A Physical Memory Acquisition Tool For Linux

Like its Windows counterpart, Winpmem, this is not a traditional memory dumper. Linpmem offers an API for reading from any physical address, including reserved memory and memory holes, but it can also be used for normal memory dumping. Furthermore, the driver offers a variety of access modes to read physical memory, such as byte, word, dword, qword, and buffer access mode, where buffer access mode is appropriate in most standard cases. If reading requires an aligned byte/word/dword/qword read, Linpmem will do precisely that.

Currently, the Linpmem features:

1. Read from physical address (access mode byte, word, dword, qword, or buffer)
2. CR3 info service (specify target process by pid)
3. Virtual to physical address translation service

Cache Control is to be added in future for support of the specialized read access modes.

Building the kernel driver

At least for now, you must compile the Linpmem driver yourself. A method to load a precompiled Linpmem driver on other Linux systems is currently under work, but not finished yet. That said, compiling the Linpmem driver is not difficult, basically it's executing 'make'.

Step 1 - getting the right headers

You need make and a C compiler. (We recommend gcc, but clang should work as well).

Make sure that you have the linux-headers installed (using whatever package manager your target linux distro has). The exact package name may vary on your distribution. A quick (distro-independent) way to check if you have the package installed:

ls -l /usr/lib/modules/`uname -r`/

That's it, you can proceed to step 2.

Foreign system: Currently, if you want to compile the driver for another system, e.g., because you want to create a memory dump but can't compile on the target, you have to download the header package directly from the package repositories of that system's Linux distribution. Double-check that the package version exactly matches the release and kernel version running on the foreign system. In case the other system is using a self-compiled kernel you have to obtain a copy of that kernel's build directory. Then, place the location of either directory in the KDIR environment variable.

export KDIR=path/to/extracted/header/package/or/kernel/root

Step 2 - make

Compiling the driver is simple, just type:

make

This should produce linpmem.ko in the current working directory.

You might want to check precompiler.h before and chose whether to compile for release or debug (e.g., with debug printing). There aren't much other precompiler settings right now.

Loading The Driver

The linpmem.ko module can be loaded by using insmod path-to-linpmem.ko, and unloaded with rmmod path-to-linpmem.ko. (This will load the driver only for this uptime.) If you compiled for debug, also take a look at dmesg.

After loading, for talking to the driver, you need to create the device:

mknod /dev/linpmem c 42 0

If you can't talk to the driver, potentially check in dmesg log to verify that '42' was indeed the registered major:

[12827.900168] linpmem: registered chrdev with major 42

Though usually the kernel would try to really assign this number.

You can use chown on the device to give it to your user, if you do not want to have a root console open all the time. (Or just keep using it in a root console.)

• Watch dmesg output. Please report errors if you see any!
• Warning: if there is a dmesg error print from Linpmem telling to reboot, better do it immediately.
• Warning: this is an early version.

Usage

Demo Code

There is an example code demonstrating and explaining (in detail) how to interact with the driver. The user-space API reference can furthermore be found in ./userspace_interface/linpmem_shared.h.

1. cd demo
2. gcc -o test test.c
3. (sudo) ./test // <= you need sudo if you did not use chown on the device.

This code is important, if you want to understand how to directly interact with the driver instead of using a library. It can also be used as a short function test.

Command Line Interface Tool

There is an (optional) basic command line interface tool to Linpmem, the pmem CLI tool. It can be found here: https://github.com/vobst/linpmem-cli. Aside from the source code, there is also a precompiled CLI tool as well as the precompiled static library and headers that can be found here (signed). Note: this is a preliminary version, be sure to check for updates, as many additions and enhancements will follow soon.

The pmem CLI tool can be used for testing the various functions of Linpmem in a (relatively) safe and convenient manner. Linpmem can also be loaded by this tool instead of using insmod/rmmod, with some extra options in future. This also has the advantage that pmem auto-creates the right device for you for immediate use. It is extremely portable and runs on any Linux system (and, in fact, has been tested even on a Linux 2.6).

$ ./pmem -h
Command-line client for the linpmem driver

Usage: pmem [OPTIONS] [COMMAND]

Commands:
  insmod  Load the linpmem driver
  help    Print this message or the help of the given subcommand(s)

Options:
  -a, --address <ADDRESS>            Address for physical read operations
  -v, --virt-address <VIRT_ADDRESS>  Translate address in target process' address space (default: current process)
  -s, --size <SIZE>                  Size of buffer read operations
  -m, --mode <MODE>                  Access mode for read operations [possible values: byte, word, dword, qword, buffer]
  -p, --pid <PID>                    Target process for cr3 info and virtual-to-physical translations
      --cr3                          Query cr3 value of target process (default: current process)
      --verbose                      Display debug output
  -h, --help                            Print help (see more with '--help')
  -V, --version                      Print version

If you want to compile the cli tool yourself, change to its directory and follow the instructions in the (cli) Readme to build it. Otherwise, just download the prebuilt program, it should work on any Linux. To load the kernel driver with the cli tool:

# pmem insmod path/to/linpmem.ko

The advantage of using the pmem tool to load the driver is that you do not have to create the device file yourself, and it will offer (on next releases) to choose who owns the linpmem device.

Libraries

The pmem command line interface is only a thin wrapper around a small Rust library that exposes an API for interfacing with the driver. More advanced users can also use this library. The library is automatically compiled (as static portable library) along with the pmem cli tool when compiling from https://github.com/vobst/linpmem-cli, but also included (precompiled) here (signed). Note: this is a preliminary version, more to follow soon.

If you do not want to use the usermode library and prefer to interface with the driver directly on your own, you can find its user-space API/interface and documentation in ./userspace_interface/linpmem_shared.h. We also provide example code in demo/test.c that explains how to use the driver directly.

Memdumping tool

Not implemented yet.

Tested Linux Distributions

• Debian, self-compiled 6.4.X, Qemu/KVM, not paravirtualized.
  • PTI: off/on
• Debian 12, Qemu/KVM, fully paravirtualized.
  • PTI: on
• Ubuntu server, Qemu/KVM, not paravirtualized.
  • PTI: on
• Fedora 38, Qemu/KVM, fully paravirtualized.
  • PTI: on
• Baremetal Linux test, AMI BIOS: Linux 6.4.4
  • PTI: on
• Baremetal Linux test, HP: Linux 6.4.4
  • PTI: on
• Baremetal, Arch[-hardened], Dell BIOS, Linux 6.4.X
• Baremetal, Debian, 6.1.X
• Baremetal, Ubuntu 20.04 with Secure Boot on. Works, but sign driver first.
• Baremetal, Ubuntu 22.04, Linux 6.2.X

Handling Secure Boot

If the system reports the following error message when loading the module, it might be because of secure boot:

$ sudo insmod linpmem.ko
insmod: ERROR: could not insert module linpmem.ko: Operation not permitted

There are different ways to still load the module. The obvious one is to disable secure boot in your UEFI settings.

If your distribution supports it, a more elegant solution would be to sign the module before using it. This can be done using the following steps (tested on Ubuntu 20.04).

1. Install mokutil:

   $ sudo apt install mokutil
   

2. Create the singing key material:

   $ openssl req -new -newkey rsa:4096 -keyout mok-signing.key -out mok-signing.crt -outform DER -days 365 -nodes -subj "/CN=Some descriptive name/"
   

   Make sure to adjust the options to your needs. Especially, consider the key length (-newkey), the validity (-days), the option to set a key pass phrase (-nodes; leave it out, if you want to set a pass phrase), and the common name to include into the certificate (-subj).
3. Register the new MOK:

   $ sudo mokutil --import mok-signing.crt
   

   You will be asked for a password, which is required in the following step. Consider using a password, which you can type on a US keyboard layout.
4. Reboot the system. It will enter a MOK enrollment menu. Follow the instructions to enroll your new key.
5. Sign the module Once the MOK is enrolled, you can sign your module.

   $ /usr/src/linux-headers-$(uname -r)/scripts/sign-file sha256 path/to/mok-singing/MOK.key path/to//MOK.cert path/to/linpmem.ko
   

After that, you should be able to load the module.

Note that from a forensic-readiness perspective, you should prepare a signed module before you need it, as the system will reboot twice during the process described above, destroying most of your volatile data in memory.

Known Issues

• Huge page read is not implemented. Linpmem recognizes a huge page and rejects the read, for now.
• Reading from mapped io and DMA space will be done with CPU caching enabled.
• No locks are taken during the page table walk. This might lead to funny results when concurrent modifications are going on. This is a general and (mostly unsolvable) problem of live RAM reading, without halting the entire OS to full stop.
• Secure Boot (Ubuntu): please sign your driver prior to using.
• Any CPU-powered memory encryption, e.g., AMD SME, Intel SGX/TDX, ...
• Pluton chips?

(Please report potential issues if you encounter anything.)

Under work

• Loading precompiled driver on any Linux.
• Processor cache control. Example: for uncached reading of mapped I/O and DMA space.

Future work

• Arm/Mips support. (far future work)
• Legacy kernels (such as 2.6), unix-based kernels

Acknowledgements

Linpmem, as well as Winpmem, would not exist without the work of our predecessors of the (now retired) REKALL project: https://github.com/google/rekall.

• We would like to thank Mike Cohen and Johannes Stüttgen for their pioneer work and open source contribution on PTE remapping, a technique which is still in use 10 years later.

Our open source contributors:

• Viviane Zwanger
• Valentin Obst

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Fhex - A Full-Featured HexEditor

This project is born with the aim to develop a lightweight, but useful tool. The reason is that the existing hex editors have some different limitations (e.g. too many dependencies, missing hex coloring features, etc.).

This project is based on qhexedit2, capstone and keystone engines. New features could be added in the future, PRs are welcomed.

Features

• Chunks loader - Used to load only a portion of large files without exhaust the memory (use alt + left/right arrows to move among chunks). Please note that in chunk mode, all the operations (e.g. search) applies only to the current chunk except for file save (the entire file is saved). However, each time you edit a chunk, save it before to move to another chunk, otherwise you will lose your changes.
• Search and replace (UTF-8, HEX, regex, reverse search supported) [CTRL + F]
• Colored output (white spaces, ASCII characters, 0xFF, UTF-8 and NULL bytes have different colors)
• Interpret selected bytes as integer, long, unsigned long [CTRL + B]
• Copy & Paste [CTRL + C and CTRL + V]
• Copy selected unicode characters [CTRL + Space]
• Zeroing all the selected bytes [Delete or CTRL + D]
• Undo & Redo [CTRL + Z and CTRL + Y]
• Drag & Drop (Hint: Drag&Drop two files to diff them)
• Overwrite the same file or create a new one [CTRL + S]
• Goto offset [CTRL + G]
• Insert mode supported in order to insert new bytes instead to overwrite the existing one [INS]
• Create new instances [CTRL + N]
• Basic text viewer for the selected text [CTRL + T]
• Reload the current file [F5]
• Compare two different files at byte level
• Browsable Binary Chart (see later for details) [F1]
• Hex - Dec number converter [F2]
• Hex String escaper (e.g from 010203 to \x01\x02\x03) [F3]
• Pattern Matching Engine (see later for details)
• Disassebler based on Capstone Engine [F4]
• Assembler based on Keystone Engine [F4]
• Zoom-Out/Zoom-In bytes view (CTRL + Up/Down or CTRL + -/+)
• Shortcuts for all these features

Pattern Matching Engine

Fhex can load at startup a configuration file (from ~/fhex/config.json) in JSON format with a list of strings or bytes to highlight and a comment/label to add close to the matches.

Examples:

{
    "PatternMatching":
    [
        {
            "string" : "://www.",
            "color" : "rgba(250,200,200,50)",
            "message" : "Found url"
        },
        {
            "bytes" : "414243",
            "color" : "rgba(250,200,200,50)",
            "message" : "Found ABC"
        }
    ]
}

To activate pattern matching press CTRL + P At the end, Fhex will show also an offset list with all the result references. Note: Labels with comments are added only if the window is maximized, if labels are not displayed correctly please try to run pattern matching again.

Binary Chart

Fhex has the feature to chart the loaded binary file (Note: In order to compile the project, now you need also qt5-charts installed on the system). The y-axis range is between 0 and 255 (in hex 0x0 and 0xff, i.e. the byte values). The x-axis range is between 0 and the filesize.

The chart plots the byte values of the binary file and let you focus only on the relevant sections. For example, if in a binary file there is an area full of null bytes, you can easily detect it from the chart.

License

GPL-3

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AzureHunter - A Cloud Forensics Powershell Module To Run Threat Hunting Playbooks On Data From Azure And O365

A Powershell module to run threat hunting playbooks on data from Azure and O365 for Cloud Forensics purposes.

Getting Started

1. Check that you have the right O365 Permissions

The following roles are required in Exchange Online, in order to be able to have read only access to the UnifiedAuditLog: View-Only Audit Logs or Audit Logs.

These roles are assigned by default to the Compliance Management role group in Exchange Admin Center.

NOTE: if you are a security analyst, incident responder or threat hunter and your organization is NOT giving you read-only access to these audit logs, you need to seriously question what their detection and response strategy is!

More information:

• How to search the Audit Log using the GUI
• Manage role groups in Exchange Online
• How to enable the UnifiedAuditLog

NOTE: your admin can verify these requirements by running Get-ManagementRoleEntry "*\Search-UnifiedAuditLog" in your Azure tenancy cloud shell or local powershell instance connected to Azure.

2. Ensure ExchangeOnlineManagement v2 PowerShell Module is installed

Please make sure you have ExchangeOnlineManagement (EXOv2) installed. You can find instructions on the web or go directly to my little KB on how to do it at the soc analyst scrolls

3. Either Clone the Repo or Install AzureHunter from the PSGallery

3.1 Cloning the Repo

1. Clone this repository
2. Import the module Import-Module .\source\AzureHunter.psd1

3.2 Install AzureHunter from the PSGallery

All you need to do is:

Install-Module AzureHunter -Scope CurrentUser
Import-Module AzureHunter

What is the UnifiedAuditLog?

The unified audit log contains user, group, application, domain, and directory activities performed in the Microsoft 365 admin center or in the Azure management portal. For a complete list of Azure AD events, see the list of RecordTypes.

The UnifiedAuditLog is a great source of cloud forensic information since it contains a wealth of data on multiple types of cloud operations like ExchangeItems, SharePoint, Azure AD, OneDrive, Data Governance, Data Loss Prevention, Windows Defender Alerts and Quarantine events, Threat intelligence events in Microsoft Defender for Office 365 and the list goes on and on!

AzureHunter Data Consistency Checks

AzureHunter implements some useful logic to ensure that the highest log density is mined and exported from Azure & O365 Audit Logs. In order to do this, we run two different operations for each cycle (batch):

1. Automatic Window Time Reduction: this check ensures that the time interval is reduced to the optimal interval based on the ResultSizeUpperThreshold parameter which by default is 20k. This means, if the amounts of logs returned within your designated TimeInterval is higher than ResultSizeUpperThreshold, then an automatic adjustment will take place.
2. Sequential Data Check: are returned Record Indexes sequentially valid?

Usage

Ensure you connect to ExchangeOnline

It's recommended that you run Connect-ExchangeOnline before running any AzureHunter commands. The program checks for an active remote session and attempts to connect but some versions of Powershell don't allow this and you need to do it yourself regardless.

Run AzureHunter

AzureHunter has two main commands: Search-AzureCloudUnifiedLog and Invoke-HuntAzureAuditLogs.

The purpose of Search-AzureCloudUnifiedLog is to implement a complex logic to ensure that the highest percentage of UnifiedAuditLog records are mined from Azure. By default, it will export extracted and deduplicated records to a CSV file.

The purpose of Invoke-HuntAzureAuditLogs is to provide a flexible interface into hunting playbooks stored in the playbooks folder. These playbooks are designed so that anyone can contribute with their own analytics and ideas. So far, only two very simple playbooks have been developed: AzHunter.Playbook.Exporter and AzHunter.Playbook.LogonAnalyser. The Exporter takes care of exporting records after applying de-duplication and sorting operations to the data. The LogonAnalyser is in beta mode and extracts events where the Operations property is UserLoggedIn. It is an example of what can be done with the playbooks and how easy it is to construct one.

When running Search-AzureCloudUnifiedLog, you can pass in a list of playbooks to run per log batch. Search-AzureCloudUnifiedLog will pass on the batch to the playbooks via Invoke-HuntAzureAuditLogs.

Finally Invoke-HuntAzureAuditLogs can, be used standalone. If you have an export of UnifiedAuditLog records, you can load them into a Powershell Array and pass them on to this command and specify the relevant playbooks.

Example 1 | Run search on Azure UnifiedAuditLog and extract records to CSV file (default behaviour)

Search-AzureCloudUnifiedLog -StartDate "2020-03-06T10:00:00" -EndDate "2020-06-09T12:40:00" -TimeInterval 12 -AggregatedResultsFlushSize 5000 -Verbose

This command will:

• Search data between the dates in StartDate and EndDate
• Implement a window of 12 hours between these dates, which will be used to sweep the entire length of the time interval (StartDate --> EndDate). This window will be automatically reduced and adjusted to provide the maximum amount of records within the window, thus ensuring higher quality of output. The time window slides sequentially until reaching the EndDate.
• The AggregatedResultsFlushSize parameter speficies the batches of records that will be processed by downstream playbooks. We are telling AzureHunter here to process the batch of records once the total amount reaches 5000. This way, you can get results on the fly, without having to wait for hours until a huge span of records is exported to CSV files.

Example 2 | Run Hunting Playbooks on CSV File

We assume that you have exported UnifiedAuditLog records to a CSV file, if so you can then do:

$RecordArray = Import-Csv .\my-exported-records.csv
Invoke-HuntAzureAuditLogs -Records $RecordArray -Playbooks 'AzHunter.Playbook.LogonAnalyser'

You can run more than one playbook by separating them via commas, they will run sequentially:

$RecordArray = Import-Csv .\my-exported-records.csv
Invoke-HuntAzureAuditLogs -Records $RecordArray -Playbooks 'AzHunter.Playbook.Exporter', 'AzHunter.Playbook.LogonAnalyser'

Why?

Since the aftermath of the SolarWinds Supply Chain Compromise many tools have emerged out of deep forges of cyberforensicators, carefully developed by cyber blacksmith ninjas. These tools usually help you perform cloud forensics in Azure. My intention with AzureHunter is not to bring more noise to this crowded space, however, I found myself in the need to address some gaps that I have observed in some of the tools in the space (I might be wrong though, since there is a proliferation of tools out there and I don't know them all...):

1. Azure cloud forensic tools don't usually address the complications of the Powershell API for the UnifiedAuditLog. This API is very unstable and inconsistent when exporting large quantities of data. I wanted to develop an interface that is fault tolerant (enough) to address some of these issues focusing solely on the UnifiedAuditLog since this is the Azure artefact that contains the most relevant and detailed activity logs for users, applications and services.
2. Azure cloud forensic tools don't usually put focus on developing extensible Playbooks. I wanted to come up with a simple framework that would help the community create and share new playbooks to extract different types of meaning off the same data.

If, however, you are looking for a more feature rich and mature application for Azure Cloud Forensics I would suggest you check out the excellent work performed by the cyber security experts that created the following applications:

• CISA's Sparrow
• HAWK
• CrowdStrike Reporting Tool for Azure CRT

I'm sure there is a more extensive list of tools, but these are the ones I could come up with. Feel free to suggest some more.

Why Powershell?

1. I didn't want to re-invent the wheel
2. Yes the Powershell interface to Azure's UnifiedAuditLog is unstable, but in terms of time-to-production it would have taken me an insane amount of hours to achieve the same thing writing a whole new interface in languages such as .NET, Golang or Python to achieve the same objectives. In the meanwhile, the world of Cyber Defense and Response does not wait!

TODO

• Specify standard playbook metadata attributes that need to be present so that AzureHunter can leverage them.
• Allow for playbooks to specify dependencies on other playbooks so that one needs to be run before the other. Playbook chaining could produce interesting results and avoid code duplication.
• Develop Pester tests and Coveralls results.
• Develop documentation in ReadTheDocs.
• Allow for the specification of playbooks in SIGMA rule standard (this might require some PR to the SIGMA repo)

More Information

For more information

• AzureHunter.readthedocs.io
• github.com/darkquasar/AzureHunter
• ThreatHunterz.com

Credits

• Icon made by itim2101 from www.flaticon.com

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Rastrea2R - Collecting & Hunting For IOCs With Gusto And Style

Ever wanted to turn your AV console into an Incident Response & Threat Hunting machine? Rastrea2r (pronounced "rastreador" - hunter- in Spanish) is a multi-platform open source tool that allows incident responders and SOC analysts to triage suspect systems and hunt for Indicators of Compromise (IOCs) across thousands of endpoints in minutes. To parse and collect artifacts of interest from remote systems (including memory dumps), rastrea2r can execute sysinternal, system commands and other 3rd party tools across multiples endpoints, saving the output to a centralized share for automated or manual analysis. By using a client/server RESTful API, rastrea2r can also hunt for IOCs on disk and memory across multiple systems using YARA rules. As a command line tool, rastrea2r can be easily integrated within McAfee ePO, as well as other AV consoles and orchestration tools, allowing incident responders and SOC analysts to collect forensic evidence and hunt for IOCs without the need for an additional agent, with 'gusto' and style!

Dependencies

• Python 2.7.x
• git
• bottle
• requests
• yara-python

Quickstart

• Clone the project to your local directory (or download the zip file of the project)

$git clone https://github.com/rastrea2r/rastrea2r.git
$cd rastrea2r

• All the dependencies necessary for the tool to run can be installed within a virtual environment via the provided makefile.

$make help
help                           - display this makefile's help information
venv                           - create a virtual environment for development
clean                          - clean all files using .gitignore rules
scrub                          - clean all files, even untracked files
test                           - run tests
test-verbose                   - run tests [verbosely]
check-coverage                 - perform test coverage checks
check-style                    - perform pep8 check
fix-style                      - perform check with autopep8 fixes
docs                           - generate project documentation
check-docs                     - quick check docs consistency
serve-docs                     - serve project html documentation
dist                           - create a wheel distribution package
dist-test                      - test a wheel distribution package
dist-upload                    - upload a wheel distribution package

• Create a virtual environment with all dependencies

$make venv
//Upon successful creation of the virtualenvironment, enter the virtualenvironment as instructed, for ex:
$source /Users/ssbhat/.venvs/rastrea2r/bin/activate

• Start the rastrea2r server by going to $PROJECT_HOME/src/rastrea2r/server folder

$cd src/rastrea2r/server/
$python rastrea2r_server_v0.3.py
Bottle v0.12.13 server starting up (using WSGIRefServer())...
Listening on http://0.0.0.0:8080/

• Now execute the client program, depending on which platform you are trying to scan choose the target python script appropriately. Currently Windows, Linux and Mac platforms are supported.

$python rastrea2r_osx_v0.3.py -h
usage: rastrea2r_osx_v0.3.py [-h] [-v] {yara-disk,yara-mem,triage} ...

Rastrea2r RESTful remote Yara/Triage tool for Incident Responders

positional arguments:  {yara-disk,yara-mem,triage}

modes of operation
 yara-disk           Yara scan for file/directory objects on disk
 yara-mem            Yara scan for running processes in memory
 triage              Collect triage information from endpoint

optional arguments:
 -h, --help            show this help message and exit
 -v, --version         show program's version number and exit


Further more, the available options under each command can be viewed by executing the help option. i,e

$python rastrea2r_osx_v0.3.py yara-disk -h
usage: rastrea2r_osx_v0.3.py yara-disk [-h] [-s] path server rule

positional arguments:
path          File or directory path to scan
server        rastrea2r REST server
rule          Yara rule on REST server

optional arguments:
-h, --help    show this help message and exit
-s, --silent  Suppresses standard output

• For ex, on a Mac or Unix system you would do:

$cd src/rastrea2r/osx/

$python rastrea2r_osx_v0.3.py yara-disk /opt http://127.0.0.1:8080/ test.yar

Executing rastrea2r on Windows

• Apart from the libraries specified in requirements.txt, we need to install the following libraries
  

  • PSutil for win64: https://github.com/giampaolo/psutil
  • WMI for win32: https://pypi.python.org/pypi/WMI/
  • Requests: pip install requests

• Compiling rastrea2r

  Make sure you have all the dependencies installed for the binary you are going to build on your Windows box. Then install:
  

  • Pywin32: http://sourceforge.net/projects/pywin32/files/ ** Windows only
  • Pyinstaller: https://github.com/pyinstaller/pyinstaller/wiki

Currently Supported functionality

• yara-disk: Yara scan for file/directory objects on disk
• yara-mem: Yara scan for running processes in memory
• memdump: Acquires a memory dump from the endpoint ** Windows only
• triage: Collects triage information from the endpoint ** Windows only

Notes
For memdump and triage modules, SMB shares must be set up in this specific way:

• Binaries (sysinternals, batch files and others) must be located in a shared folder called TOOLS (read only)
  

  \path-to-share-foldertools

• Output is sent to a shared folder called DATA (write only)
  

  \path-to-share-folderdata

• For yara-mem and yara-disk scans, the yara rules must be in the same directory where the server is executed from.
  
• The RESTful API server stores data received in a file called results.txt in the same directory.
  

Contributing to rastrea2r project
The Developer Documentation provides complete information on how to contribute to rastrea2r project

Demo videos on Youtube

• Video 1: Incident Response / Triage with rastrea2r on the command line - https://youtu.be/uFIZxqWeSyQ
• Video 2: Remote Yara scans with rastrea2r on the command line - https://youtu.be/cnY1yEslirw
• Video 3: Using rastrea2r with McAfee ePO - Client Tasks & Execution - https://youtu.be/jB17uLtu45Y

Presentations

• rastrea2r at BlackHat Arsenal 2016 (check PDF for documentation on usage and examples) https://www.blackhat.com/us-16/arsenal.html#rastrea2r

  https://github.com/aboutsecurity/Talks-and-Presentations/blob/master/Ismael_Valenzuela-Hunting_for_IOCs_rastrea2r-BH_Arsenal_2016.pdf

• Recording of talk on rastrea2r at the SANS Threat Hunting Summit 2016

  https://www.youtube.com/watch?v=0PvBsL6KKfA&feature=youtu.be&a

Credits & References

• To Robert Gresham Jr. (@rwgresham) and Ryan O'Connor (@_remixed) for their contributions to the Triage module. Thanks folks!
• To Ricardo Dias for the idea of using a REST server and his great paper on how to use Python and Yara with McAfee ePO: http://www.sans.org/reading-room/whitepapers/forensics/intelligence-driven-incident-response-yara-35542

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Security Onion - Linux Distro For IDS, NSM, And Log Management

Security Onion is a free and open source Linux distribution for intrusion detection, enterprise security monitoring, and log management. It includes Elasticsearch, Logstash, Kibana, Snort, Suricata, Bro, OSSEC, Sguil, Squert, NetworkMiner, and many other security tools. The easy-to-use Setup wizard allows you to build an army of distributed sensors for your enterprise in minutes!

Security-onion project

This repo contains the ISO image, Wiki, and Roadmap for Security Onion.

Looking for documentation?

Please proceed to the Wiki.

Screenshots

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Detect And Bypass Web Application Firewalls And Protection Systems - WhatWaf

Features

• Ability to run on a single URL with the -u/--url flag
• Ability to run through a list of URL's with the -l/--list flag
• Ability to detect over 40 different firewalls
• Ability to try over 20 different tampering techniques
• Ability to pass your own payloads either from a file or from the terminal
• Payloads that are guaranteed to produce at least one WAF triggering
• Ability to bypass firewalls using both SQLi techniques and cross site scripting techniques
• Ability to run behind Tor
• Ability to run behind multiple proxy types (socks4, socks5, http, https)
• Ability to use a random user agent, personal user agent, or custom default user agent
• More to come...

Installation
Installing whatwaf is super easy, all you have to do is the following:
Have Python 2.7, Python 3.x compatibility is being implemented soon:

sudo -s << EOF
git clone https://github.com/ekultek/whatwaf.git
cd whatwaf
chmod +x whatwaf.py
pip2 install -r requirements.txt
./whatwaf.py --help

Proof of concept
First we'll run the website through WhatWaf and figure out which firewall protects it (if any):

Next we'll go to that website and see what the page looks like:

Hmm.. that doesn't really look like Cloudflare does it? Let's check what the HTTP headers server and cookies say:

And finally, lets try one of the bypasses that it tells us to try:

Demo vídeo

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Easy-To-Use Live Forensics Toolbox For Linux Endpoints - Linux Expl0rer

Easy-to-use live forensics toolbox for Linux endpoints written in Python & Flask.

Capabilities

ps

• View full process list
• Inspect process memory map & fetch memory strings easly
• Dump process memory in one click
• Automaticly search hash in public services
  • VirusTotal
  • AlienVault OTX

users

• users list

find

• Search for suspicious files by name/regex

netstat

• Whois

logs

• syslog
• auth.log(user authentication log)
• ufw.log(firewall log)
• bash history

anti-rootkit

• chkrootkit

yara

• Scan a file or directory using YARA signatures by @Neo23x0
• Scan a running process memory address space
• Upload your own YARA signature

Requirements

• Python 2.7
• YARA
• chkrootkit

Installation

1. Clone repository

git clone https://github.com/intezer/linux_expl0rer

2. Install required packages

pip install -r requirements.txt

3. Setup VT/OTX api keys

nano config.py

Edit following lines:

VT_APIKEY = '<key>'
OTX_APIKEY = '<key>'

4. Install YARA

sudo apt-get install yara

5. Install chkrootkit

sudo apt-get install chkrootkit

Start Linux Expl0rer server

sudo python linux_explorer.py

Usage

1. Start your browser

firefox http://127.0.0.1:8080

2. do stuff

Notes

• We recommend using NGINX reverse proxy with basic http auth & ssl for secure remote access
• Tested with Ubuntu 16.04

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Linux Memory Cryptographic Keys Extractor - CryKeX

CryKeX - Linux Memory Cryptographic Keys Extractor

Properties:

• Cross-platform
• Minimalism
• Simplicity
• Interactivity
• Compatibility/Portability
• Application Independable
• Process Wrapping
• Process Injection

Dependencies:

• Unix - should work on any Unix-based OS
  • BASH - the whole script
  • root privileges (optional)

Limitations:

• AES and RSA keys only
• Fails most of the time for Firefox browser
• Won't work for disk encryption (LUKS) and PGP/GPG
• Needs proper user privileges and memory authorizations

How it works
Some work has been already published regarding the subject of cryptograhic keys security within DRAM. Basically, we need to find something that looks like a key (entropic and specific length) and then confirm its nature by analyzing the memory structure around it (C data types).
The idea is to dump live memory of a process and use those techniques in order to find probable keys since, memory mapping doesn't change. Thanks-fully, tools exist for that purpose.
The script is not only capable of injecting into already running processes, but also wrapping new ones, by launching them separately and injecting shortly afterwards. This makes it capable of dumping keys from almost any process/binary on the system.
Of course, accessing a memory is limited by kernel, which means that you will still require privileges for a process.
Linux disk ecnryption (LUKS) uses anti-forensic technique in order to mitigate such issue, however, extracting keys from a whole memory is still possible.
Firefox browser uses somehow similar memory management, thus seems not to be affected.
Same goes for PGP/GPG.

HowTo
Installing dependencies:

sudo apt install gdb aeskeyfind rsakeyfind || echo 'have you heard about source compiling?'

An interactive example for OpenSSL AES keys:

openssl aes-128-ecb -nosalt -out testAES.enc

Enter a password twice, then some text and before terminating:

CryKeX.sh openssl

Finally, press Ctrl+D 3 times and check the result.
OpenSSL RSA keys:

openssl genrsa -des3 -out testRSA.pem 2048

When prompted for passphrase:

CryKeX.sh openssl

Verify:

openssl rsa -noout -text -in testRSA.pem

Let's extract keys from SSH:

echo 'Ciphers [email protected]' >> /etc/ssh/sshd_config
ssh [email protected]
CryKeX.sh ssh

From OpenVPN:

echo 'cipher AES-256-CBC' >> /etc/openvpn/server.conf
openvpn yourConf.ovpn
sudo CryKeX.sh openvpn

TrueCrypt/VeraCrypt is also affected: Select "veracrypt" file in VeraCrypt, mount with password "pass" and:

sudo CryKeX.sh veracrypt

Chromium-based browsers (thanks Google):

CryKeX.sh chromium
CryKeX.sh google-chrome

Despite Firefox not being explicitly affected, Tor Browser Bundle is still susceptible due to tunneling:

CryKeX.sh tor

As said, you can also wrap processes:

apt install libssl-dev
gcc -lcrypto cipher.c -o cipher
CryKeX.sh cipher
 wrap
 cipher

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