The Mooltipass is an open hardware and open software, hardware password keeper in which users store their credentials for authenticating against web application, PAM session, and password protected applications...
The device can be used with any USB compatible system that supports HID class devices.
As a daily based user, one is able to interact directly with the device by using a clickable scroll-wheel or is free to use one of the available browser extension/application (AUR, AUR, AUR)
The team behind Mooltipass was faced with the great complexity of password based authentication which require a strict policy including:
- An unique password for every usage;
- An hardly-guessable password;
In order to combine security of such policy and usability people came with software password managers like. Unfortunately, such solution implies that all credentials remains in computer memory, so it could eventually be stolen by a malicious software.
Mooltipass is an external device, on which credential are stored encrypted using AES-CTR and a key of 256 bits stored on an pin-locked smartcard. When plugged, the Mooltipass emulates an HID device and will act like a keyboard to send your credentials information to the targeted application. Even if an attacker is able to sniff at some point the communication between the device and the host it is likely that he won't be able to gather all credentials nor to inject its own data.
The smartcard previously introduced is used to identify an user. Note that multiple user must have different smartcards, but can use the same mooltipass.
Credentials are stored on the device flash memory with the following information: domain, username, password, comments.
The following list limits of the storing capabilities:
- The flash memory is of 8Mb;
- One password can be up to 32 characters long;
The upgrade of the firmware is made with a signed bundle. Every device gets a dedicated AES key fused into the board by the main developer.
In addition, the mooltipass benefits from the ATMega32u4 and exposes a custom Random Number Generator that is used to generate random passwords.
AUR provide udev rules that allow access to the device for every classical user from a session or using libusb.
Mooltipass has been designed to be easy to use for everyone. The main way of interacting with it is through browser application and/or extension.
Chromium was the first target for Mooltipass, the team created one applicationAUR for easily managing the password database, backups and device settings.
Also there is an extension,AUR that detects login forms on web page and selects the right credential for you on the device. The user only has to check on the Mooltipass screen that the request is legitimate and to approve/deny using the hardware scroll-wheel.
Like Chromium, Firefox user could useAUR for easy interaction between web site and credentials stored on the device.
AUR is an effort to build a cross-platform application that could interact with the mooltipass outside of a browser. The application is based on C++/Qt and provide both a daemon that will handle every operation with the device and an GUI application, that could replace the chrome app.
For scripting purpose there isAUR which allow one to interact with the Mooltipass through moolticuted from the command line.
AUR benefit from the filesystem support of Mooltipass so users are able to store their (unencrypted) SSH keys. Moolticute_ssh-agent implement an SSH agent that allows to load the key from the device.
Last client implementation is mooltipy that implement both some CLI tools and an Python module that could be used for scripting.