/mandos/release

To get this branch, use:
bzr branch http://bzr.recompile.se/loggerhead/mandos/release
185 by Teddy Hogeborn
* .bzr-builddeb/default.conf: New.
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Source: mandos
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Section: admin
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Priority: extra
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Maintainer: Mandos Maintainers <mandos@fukt.bsnet.se>
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Build-Depends: debhelper (>= 7), docbook-xsl, docbook (<5.0),
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	libavahi-core-dev, libgpgme11-dev, libgnutls-dev, xsltproc
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Standards-Version: 3.8.0
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Vcs-Bzr: ftp://anonymous@ftp.fukt.bsnet.se/pub/mandos/latest
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Homepage: http://www.fukt.bsnet.se/mandos
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Package: mandos
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Architecture: all
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Depends: ${shlibs:Depends}, ${misc:Depends}, python (>=2.5),
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	python-gnutls, python-dbus, python-avahi, avahi-daemon,
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	gnupg (< 2)
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Recommends: fping
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Description: a server giving encrypted passwords to Mandos clients
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 This is the server part of the Mandos system, which allows
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 computers to have encrypted root file systems and at the
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 same time be capable of remote and/or unattended reboots.
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 .
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 The computers run a small client program in the initial RAM
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 disk environment which will communicate with a server over a
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 network.  All network communication is encrypted using TLS.
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 The clients are identified by the server using an OpenPGP
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 key; each client has one unique to it.  The server sends the
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 clients an encrypted password.  The encrypted password is
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 decrypted by the clients using the same OpenPGP key, and the
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 password is then used to unlock the root file system,
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 whereupon the computers can continue booting normally.
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Package: mandos-client
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Architecture: any
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Depends: ${shlibs:Depends}, ${misc:Depends}
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Enhances: cryptsetup
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Description: do unattended reboots with an encrypted root file system
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 This is the client part of the Mandos system, which allows
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 computers to have encrypted root file systems and at the
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 same time be capable of remote and/or unattended reboots.
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 .
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 The computers run a small client program in the initial RAM
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 disk environment which will communicate with a server over a
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 network.  All network communication is encrypted using TLS.
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 The clients are identified by the server using an OpenPGP
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 key; each client has one unique to it.  The server sends the
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 clients an encrypted password.  The encrypted password is
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 decrypted by the clients using the same OpenPGP key, and the
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 password is then used to unlock the root file system,
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 whereupon the computers can continue booting normally.