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Files from Teddy

Mandos Encrypted File System Unattended Reboot Utility 1.3.0

Posted Mar 8, 2011

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: Server and utilities have been updated for Python 2.6. Client bugfixes - the password-prompt plugin does not conflict with Plymouth. initramfs is also updated when purging a package.

tags | remote, root

systems | linux, unix

SHA-256 | bb2b506dabbf44526c7a55763a6d78f9c99344fde7b3dcd1de0cb29464834c53

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Mandos Encrypted File System Unattended Reboot Utility 1.2.3

Posted Oct 12, 2010

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: This release has a server bugfix: it also exposes the D-Bus API in non-debug mode.

tags | remote, root

systems | linux

SHA-256 | edb7f54b239b0a5bd2d6cf5227c7913a21132b6dc3a7e426785522e582b812ee

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Mandos Encrypted File System Unattended Reboot Utility 1.2.2

Posted Oct 8, 2010

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: This is a minor release to fix compilation of the client with non-Linux kernels.

tags | remote, root

systems | linux

SHA-256 | f3245eea6c63f8271309ec0e19713906d8cbec8278a5dd9bc25b21e63493ae10

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Mandos Encrypted File System Unattended Reboot Utility 1.2

Posted Sep 30, 2010

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: The client has a new "plymouth" plugin to ask for a password using the Plymouth graphical boot system. The server uses a new D-Bus API. The following new control utilities were added using the new D-Bus API: mandos-ctl, a command-line based utility; and mandos-monitor, a text-based GUI interface.

tags | remote, root

systems | linux

SHA-256 | 613bbea92805f0314db542c8a50cbbea4a828c393ff09b3fed41d3e8adb72e05

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Mandos Encrypted File System Unattended Reboot Utility 1.0.14

Posted Oct 27, 2009

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: This release enables building without -pie and -fPIE if BROKEN_PIE is set.

tags | remote, root

systems | linux

SHA-256 | 11c29fabf08ae4daa09a057ae1fa390aba9f0849c7c159c81902263c3415d832

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Mandos Encrypted File System Unattended Reboot Utility 1.0.13

Posted Oct 23, 2009

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: This release has a client security bugfix.

tags | remote, root

systems | linux

SHA-256 | 671fc9e9e240bd4431760c018fdb3a0dae96313e552ddfd51b265831013cefdd

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Mandos Encrypted Root File System

Posted Sep 19, 2009

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: In the client, network interface renaming by "udev" is allowed. User-supplied plugins are now installed correctly. If usplash was used but the password was instead provided by the Mandos server, the usplash daemon used to ignore the first command passed to it. This has been fixed. The "--userid" and "--groupid" options in "plugin-runner.conf" now work. In the server, the LSB header in the init.d script has been fixed to make dependency-based booting work. A client receiving its password now also counts as if a checker was run successfully (i.e. the timeout timer is reset).

tags | remote, root

systems | linux

SHA-256 | 303bf98e0f591d6f709a970bdf9bd33719dfae48984e1ea32cd38ac777639434

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Mandos Encrypted Root File System

Posted May 19, 2009

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: This is a security bugfix release.

tags | remote, root

systems | linux

SHA-256 | 01fea516e262cb224fa1eb0371c0967f6c7d0d944e408e9d2118fce18b9d98ed

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Mandos Encrypted File System Unattended Reboot Utility

Posted Feb 25, 2009

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: Bug fix release.

tags | remote, root

systems | linux

SHA-256 | e80b5d0eb3331fc5a2b7bc3a0206cbfc52e68b0ae09ad7d5789d5655275a662c

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Mandos Encrypted Filesystem Remote Reboot

Posted Feb 25, 2009

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: Bug fix release.

tags | remote, root

systems | linux

SHA-256 | 53c34cba5b945d668a3b9f520f2e7a4716f9cb0a7f48ffe15851454032cc03bb

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Mandos Encrypted File System Unattended Reboot Utility

Posted Jan 7, 2009

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

Changes: Now tries to change to user and group "_mandos" before falling back to trying the old values "mandos", "nobody:nogroup", and "65534". Does not abort on startup even if no clients are defined in clients.conf. Other improvements and changes.

tags | remote, root

systems | linux

SHA-256 | 3ddfd63687c1c9b617f2d29e57e312f5f8a39b9163539a30fe13d12a8bac172b

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mandos_1.0.2.orig.tar.gz

Posted Oct 18, 2008

Authored by Teddy | Site fukt.bsnet.se

The Mandos system allows computers to have encrypted root file systems and at the same time be capable of remote or unattended reboots. The computers run a small client program in the initial RAM disk environment which will communicate with a server over a network. All network communication is encrypted using TLS. The clients are identified by the server using an OpenPGP key that is unique to each client. The server sends the clients an encrypted password. The encrypted password is decrypted by the clients using the same OpenPGP key, and the password is then used to unlock the root file system.

tags | remote, root

systems | linux

SHA-256 | a30f9e9137406dca6f81de3bba364325f77d49c8058f214bb1bb61677af0da9d

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