Oxygen Forensic Suite 2.1 adds support for more than 70 Motorola devices

New version contains major improvements, adds support for a number of new devices including more than 70 Motorola phones…Changes in version 2.1:

General. Added support for more than 70 Motorola phones via cable. The total amount of phone models supported by Oxygen Forensic Suite 2 overcomes 1350 barrier.
General. Added support for Symbian OS Series 60 smartphones (Samsung SGH-i8910 OMNIA HD, Nokia E75-1, Nokia 5630 XpressMusic), Nokia Series 40 phones (Nokia 6208 Classic, Nokia 6260 Slide, Nokia 6303 Classic, Nokia 7510 Supernova) and Sony Ericsson phones (Sony Ericsson C510, Sony Ericsson C905a, Sony Ericsson C905c, Sony Ericsson J132, Sony Ericsson J132a, Sony Ericsson K330, Sony Ericsson K330a).
General. Added support for Samsung and Sony Ericsson phones via Bluetooth.
General. Added saving devices’ database to archive that can be loaded back into the program on the same or another PC.
General. Preliminary support for Toshiba Bluetooth.
Phonebook. Added support for last names in Sony Ericsson phones.
Tasks. Added To-Do list/Tasks extraction for Nokia Series 40, Nokia Series 60 and UIQ phones.
Messages. Added extraction of E-mail and MMS attachments for Nokia Series 60 and UIQ Symbian smartphones (all Editions).
Messages. Added support of HTML E-Mail messages for Symbian 9 phones.
Messages. Added GMT and Time Zone shifting for modern Nokia Series 40 phones and smartphones.
Extras. Added support for reading of Web browser bookmarks for Nokia Series 40 phones and Series 60 phones (Third Edition Initial Release without Feature Packs and older Editions).
Extras. Added Export functionality for Web Browsers Cache Analyzer.
Extras. Web Cache. Added Unicode support for search in Hex Viewer.
General. Fixed BlueSoleil Bluetooth stack connection problem with Symbian OS smartphones.
Messages. Fixed error with SMS data reading from common Sony Ericsson phones.
Extras. Fixed various Extras Export issues.
File Browser, Extras. Fixed bug with non-web elements processing in a web view.
File Browser. Fixed flash-card detection problem in Windows Mobile devices.

Leave a Comment

Latest Videos

Quantifying Data Volatility for IoT Forensics With Examples From Contiki OS

Forensic Focus 22nd June 2022 5:00 am

File timestamps are used by forensics practitioners as a fundamental artifact. For example, the creation of user files can show traces of user activity, while system files, like configuration and log files, typically reveal when a program was run. 

Despite timestamps being ubiquitous, the understanding of their exact meaning is mostly overlooked in favor of fully-automated, correlation-based approaches. Existing work for practitioners aims at understanding Windows and is not directly applicable to Unix-like systems. 

In this paper, we review how each layer of the software stack (kernel, file system, libraries, application) influences MACB timestamps on Unix systems such as Linux, OpenBSD, FreeBSD and macOS.

We examine how POSIX specifies the timestamp behavior and propose a framework for automatically profiling OS kernels, user mode libraries and applications, including compliance checks against POSIX.

Our implementation covers four different operating systems, the GIO and Qt library, as well as several user mode applications and is released as open-source.

Based on 187 compliance tests and automated profiling covering common file operations, we found multiple unexpected and non-compliant behaviors, both on common operations and in edge cases.

Furthermore, we provide tables summarizing timestamp behavior aimed to be used by practitioners as a quick-reference.

Learn more: https://dfrws.org/presentation/a-systematic-approach-to-understanding-macb-timestamps-on-unixlike-systems/

File timestamps are used by forensics practitioners as a fundamental artifact. For example, the creation of user files can show traces of user activity, while system files, like configuration and log files, typically reveal when a program was run.

Despite timestamps being ubiquitous, the understanding of their exact meaning is mostly overlooked in favor of fully-automated, correlation-based approaches. Existing work for practitioners aims at understanding Windows and is not directly applicable to Unix-like systems.

In this paper, we review how each layer of the software stack (kernel, file system, libraries, application) influences MACB timestamps on Unix systems such as Linux, OpenBSD, FreeBSD and macOS.

We examine how POSIX specifies the timestamp behavior and propose a framework for automatically profiling OS kernels, user mode libraries and applications, including compliance checks against POSIX.

Our implementation covers four different operating systems, the GIO and Qt library, as well as several user mode applications and is released as open-source.

Based on 187 compliance tests and automated profiling covering common file operations, we found multiple unexpected and non-compliant behaviors, both on common operations and in edge cases.

Furthermore, we provide tables summarizing timestamp behavior aimed to be used by practitioners as a quick-reference.

Learn more: https://dfrws.org/presentation/a-systematic-approach-to-understanding-macb-timestamps-on-unixlike-systems/

YouTube Video UCQajlJPesqmyWJDN52AZI4Q_i0zd7HtluzY

A Systematic Approach to Understanding MACB Timestamps on Unixlike Systems

Forensic Focus 21st June 2022 5:00 am

This error message is only visible to WordPress admins

Important: No API Key Entered.

Many features are not available without adding an API Key. Please go to the YouTube Feed settings page to add an API key after following these instructions.

Latest Articles

Share to...