ClamFS is a FUSE-based user-space file system for Linux with
on-access anti-virus file scanning through clamd daemon
Features
- User-space file system
- Configuration stored in XML files
- FUSE used as file system back-end
- Scan files using ClamAV
- ScanCache speeds up file access
- Sends mail to administrator when detect virus
Knocker is a simple and easy to use TCP (no UDP yet) security port
scanner which is able to analyze hosts and all of the different
services started on them. (GTK+ version)
ClamTk is a GUI front-end for ClamAV using gtk2-perl. It is designed to
be an easy-to-use frontend for Unix systems.
ClusterSSH 通过单个图形的控制窗口来控制许多的 xterm 窗口,以便通过一个 ssh 连接
在多台服务器上交互地运行命令。
Ophcrack is a Windows password cracker based on a time-memory trade-off
using rainbow tables. This is a new variant of Hellman's original trade-off,
with better performance. It recovers 99.9% of alphanumeric passwords in
seconds. Features:
- Runs on Windows, GNU/Linux, FreeBSD, Mac OS X, etc.
- Cracks LM and NTLM hashes
- Free tables available for alphanumeric LM hashes
- Brute-force module for simple passwords
- Audit mode and CSV export
- Real-time graphs to analyze passwords (optional)
- Loads hashes from local and remote SAM
- Loads hashes from encrypted SAM recovered from a Windows partition,
Vista included
- Supports soon to be released XP flash and Vista eight XL tables
Seahorse is a Gnome front end for GnuPG - the Gnu Privacy Guard program.
It is a tool for secure communications and data storage.
Data encryption and digital signature creation can easily
be performed through a GUI and Key Management operations
can easily be carried out through an intuitive interface.
Libecc is an elliptic curve crypto library for C++ developers.
Knocker is a simple and easy to use TCP (no UDP yet) security port
scanner which is able to analyze hosts and all of the different
services started on them. (Console version)
Libkpass is a from-scratch C implementation of reading and writing
KeePass 1.x format password databases.
libsparkcrypto is a formally verified implementation of several widely used
symmetric cryptographic algorithms using the SPARK programming language and
toolset. For the complete library proofs of the absence of run-time errors
like type range violations, division by zero and numerical overflows are
available. Some of its subprograms include proofs of partial correctness.
The distribution contains test cases for all implemented algorithms and a
benchmark to compare its performance with the OpenSSL library. The achieved
speed has been found to be very close to the optimized C and Assembler
implementations of OpenSSL.