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Committer: teddy at bsnet
Date: 2011-03-15 19:15:24 UTC
Revision ID: teddy@fukt.bsnet.se-20110315191524-jc3ajgqu2za7dcly

* mandos: Use the new argparse library instead of optparse.
* debian/control (mandos): Depend on python (<=2.7) | python-argparse

files added:
initramfs-tools-hook-conf

files removed:
bugs.xml

debian/mandos-client.examples

debian/mandos-client.templates

debian/mandos.templates

debian/po/POTFILES.in

debian/po/de.po

debian/po/en_US.po

debian/po/fr.po

debian/po/nl.po

debian/po/pt.po

debian/po/sv.po

debian/po/templates.pot

debian/source/lintian-overrides

debian/source/local-options

debian/tests

debian/tests/control

debian/upstream

debian/upstream/metadata

debian/upstream/signing-key.asc

dracut-module

dracut-module/ask-password-mandos.path

dracut-module/ask-password-mandos.service

dracut-module/cmdline-mandos.sh

dracut-module/module-setup.sh

dracut-module/password-agent.c

dracut-module/password-agent.xml

initramfs-tools-conf

initramfs-tools-conf-hook

initramfs-tools-script-stop

initramfs-unpack

intro.xml

mandos-to-cryptroot-unlock

mandos.service

network-hooks.d

network-hooks.d/bridge

network-hooks.d/bridge.conf

network-hooks.d/openvpn

network-hooks.d/openvpn.conf

network-hooks.d/wireless

network-hooks.d/wireless.conf

plugin-helpers

plugin-helpers/mandos-client-iprouteadddel.c

sysusers.d-mandos.conf

tmpfiles.d-mandos.conf

files modified:
.bzrignore

DBUS-API

INSTALL

Makefile

NEWS

README

TODO

clients.conf

common.ent

dbus-mandos.conf

debian/changelog

debian/compat

debian/control

debian/copyright

debian/mandos-client.README.Debian

debian/mandos-client.dirs

debian/mandos-client.lintian-overrides

debian/mandos-client.postinst

debian/mandos-client.postrm

debian/mandos.README.Debian

debian/mandos.dirs

debian/mandos.lintian-overrides

debian/mandos.postinst

debian/mandos.prerm

debian/rules

debian/watch

init.d-mandos

initramfs-tools-hook

initramfs-tools-script

legalnotice.xml

mandos

mandos-clients.conf.xml

mandos-ctl

mandos-ctl.xml

mandos-keygen

mandos-keygen.xml

mandos-monitor

mandos-monitor.xml

mandos-options.xml

mandos.conf

mandos.conf.xml

mandos.lsm

mandos.xml

overview.xml

plugin-runner.c

plugin-runner.xml

plugins.d/askpass-fifo.c

plugins.d/askpass-fifo.xml

plugins.d/mandos-client.c

plugins.d/mandos-client.xml

plugins.d/password-prompt.c

plugins.d/password-prompt.xml

plugins.d/plymouth.c

plugins.d/plymouth.xml

plugins.d/splashy.c

plugins.d/splashy.xml

plugins.d/usplash.c

plugins.d/usplash.xml

Show diffs side-by-side

added added

removed removed

mandos.xml

<!DOCTYPE refentry PUBLIC "-//OASIS//DTD DocBook XML V4.5//EN"

"http://www.oasis-open.org/docbook/xml/4.5/docbookx.dtd" [

<!ENTITY COMMANDNAME "mandos">

<!ENTITY TIMESTAMP "2019-07-24">

<!ENTITY TIMESTAMP "2011-02-27">

<!ENTITY % common SYSTEM "common.ent">

%common;

<firstname>Björn</firstname>

<surname>Påhlsson</surname>

<email>belorn@recompile.se</email>

<email>belorn@fukt.bsnet.se</email>

</address>

</author>

<firstname>Teddy</firstname>

<surname>Hogeborn</surname>

<email>teddy@recompile.se</email>

<email>teddy@fukt.bsnet.se</email>

</address>

</author>

</authorgroup>

<holder>Teddy Hogeborn</holder>

<holder>Björn Påhlsson</holder>

</copyright>

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<sbr/>

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<sbr/>

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<arg><option>--no-restore</option></arg>

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<sbr/>

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<arg><option>--statedir

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<replaceable>DIRECTORY</replaceable></option></arg>

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<sbr/>

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<arg><option>--socket

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<sbr/>

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<arg><option>--foreground</option></arg>

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<sbr/>

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<arg><option>--no-zeroconf</option></arg>

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</cmdsynopsis>

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<command>&COMMANDNAME;</command>

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<para>

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<command>&COMMANDNAME;</command> is a server daemon which

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handles incoming request for passwords for a pre-defined list of

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client host computers. For an introduction, see

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<citerefentry><refentrytitle>intro</refentrytitle>

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<manvolnum>8mandos</manvolnum></citerefentry>. The Mandos server

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uses Zeroconf to announce itself on the local network, and uses

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TLS to communicate securely with and to authenticate the

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clients. The Mandos server uses IPv6 to allow Mandos clients to

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use IPv6 link-local addresses, since the clients will probably

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not have any other addresses configured (see <xref

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linkend="overview"/>). Any authenticated client is then given

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the stored pre-encrypted password for that specific client.

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client host computers. The Mandos server uses Zeroconf to

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announce itself on the local network, and uses TLS to

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communicate securely with and to authenticate the clients. The

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Mandos server uses IPv6 to allow Mandos clients to use IPv6

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link-local addresses, since the clients will probably not have

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any other addresses configured (see <xref linkend="overview"/>).

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Any authenticated client is then given the stored pre-encrypted

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password for that specific client.

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</para>

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</refsect1>

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<xi:include href="mandos-options.xml" xpointer="ipv6"/>

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</listitem>

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</varlistentry>

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<term><option>--no-restore</option></term>

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<xi:include href="mandos-options.xml" xpointer="restore"/>

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<para>

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See also <xref linkend="persistent_state"/>.

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</para>

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</listitem>

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</varlistentry>

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<term><option>--statedir

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<replaceable>DIRECTORY</replaceable></option></term>

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<xi:include href="mandos-options.xml" xpointer="statedir"/>

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</listitem>

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</varlistentry>

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<term><option>--socket

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<xi:include href="mandos-options.xml" xpointer="socket"/>

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</listitem>

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</varlistentry>

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<term><option>--foreground</option></term>

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<xi:include href="mandos-options.xml"

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xpointer="foreground"/>

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</listitem>

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</varlistentry>

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<term><option>--no-zeroconf</option></term>

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<xi:include href="mandos-options.xml" xpointer="zeroconf"/>

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</listitem>

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</varlistentry>

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</variablelist>

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</refsect1>

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start a TLS protocol handshake with a slight quirk: the Mandos

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server program acts as a TLS <quote>client</quote> while the

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connecting Mandos client acts as a TLS <quote>server</quote>.

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The Mandos client must supply a TLS public key, and the key ID

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of this public key is used by the Mandos server to look up (in a

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list read from <filename>clients.conf</filename> at start time)

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which binary blob to give the client. No other authentication

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or authorization is done by the server.

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The Mandos client must supply an OpenPGP certificate, and the

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fingerprint of this certificate is used by the Mandos server to

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look up (in a list read from <filename>clients.conf</filename>

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at start time) which binary blob to give the client. No other

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authentication or authorization is done by the server.

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</para>

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<table>

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<title>Mandos Protocol (Version 1)</title><tgroup cols="3"><thead>

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</emphasis></entry>

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</row>

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<row>

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<entry>Public key (part of TLS handshake)</entry>

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<entry>OpenPGP public key (part of TLS handshake)</entry>

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</row>

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<row>

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for some time, the client is assumed to be compromised and is no

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longer eligible to receive the encrypted password. (Manual

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intervention is required to re-enable a client.) The timeout,

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extended timeout, checker program, and interval between checks

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can be configured both globally and per client; see

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<citerefentry><refentrytitle>mandos-clients.conf</refentrytitle>

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<manvolnum>5</manvolnum></citerefentry>.

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checker program, and interval between checks can be configured

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both globally and per client; see <citerefentry>

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<refentrytitle>mandos-clients.conf</refentrytitle>

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<manvolnum>5</manvolnum></citerefentry>. A client successfully

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receiving its password will also be treated as a successful

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checker run.

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</para>

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</refsect1>

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<title>LOGGING</title>

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<para>

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The server will send log message with various severity levels to

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<filename class="devicefile">/dev/log</filename>. With the

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<filename>/dev/log</filename>. With the

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<option>--debug</option> option, it will log even more messages,

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and also show them on the console.

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</para>

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</refsect1>

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<title>PERSISTENT STATE</title>

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<para>

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Client settings, initially read from

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<filename>clients.conf</filename>, are persistent across

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restarts, and run-time changes will override settings in

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<filename>clients.conf</filename>. However, if a setting is

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<emphasis>changed</emphasis> (or a client added, or removed) in

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<filename>clients.conf</filename>, this will take precedence.

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</para>

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</refsect1>

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<title>D-BUS INTERFACE</title>

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<para>

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</listitem>

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</varlistentry>

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<term><filename>/run/mandos.pid</filename></term>

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<term><filename>/var/run/mandos.pid</filename></term>

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<para>

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The file containing the process id of the

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<command>&COMMANDNAME;</command> process started last.

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<emphasis >Note:</emphasis> If the <filename

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class="directory">/run</filename> directory does not

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exist, <filename>/var/run/mandos.pid</filename> will be

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used instead.

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</para>

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</listitem>

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</varlistentry>

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<term><filename

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class="directory">/var/lib/mandos</filename></term>

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<para>

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Directory where persistent state will be saved. Change

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this with the <option>--statedir</option> option. See

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also the <option>--no-restore</option> option.

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</para>

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</listitem>

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</varlistentry>

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</para>

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</listitem>

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</varlistentry>

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<para>

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The Unix domain socket to where local syslog messages are

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backtrace. This could be considered a feature.

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</para>

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<para>

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Currently, if a client is disabled due to having timed out, the

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server does not record this fact onto permanent storage. This

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has some security implications, see <xref linkend="clients"/>.

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</para>

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<para>

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There is no fine-grained control over logging and debug output.

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</para>

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<xi:include href="bugs.xml"/>

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<para>

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Debug mode is conflated with running in the foreground.

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</para>

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<para>

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The console log messages do not show a time stamp.

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</para>

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<para>

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This server does not check the expire time of clients’ OpenPGP

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keys.

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</para>

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</refsect1>

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<para>

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Run the server in debug mode, read configuration files from

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the <filename class="directory">~/mandos</filename> directory,

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and use the Zeroconf service name <quote>Test</quote> to not

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collide with any other official Mandos server on this host:

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the <filename>~/mandos</filename> directory, and use the

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Zeroconf service name <quote>Test</quote> to not collide with

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any other official Mandos server on this host:

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</para>

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<para>

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<title>CLIENTS</title>

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<para>

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The server only gives out its stored data to clients which

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does have the correct key ID of the stored key ID. This is

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guaranteed by the fact that the client sends its public key in

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the TLS handshake; this ensures it to be genuine. The server

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computes the key ID of the key itself and looks up the key ID

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in its list of clients. The <filename>clients.conf</filename>

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file (see

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does have the OpenPGP key of the stored fingerprint. This is

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guaranteed by the fact that the client sends its OpenPGP

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public key in the TLS handshake; this ensures it to be

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genuine. The server computes the fingerprint of the key

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itself and looks up the fingerprint in its list of

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clients. The <filename>clients.conf</filename> file (see

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<citerefentry><refentrytitle>mandos-clients.conf</refentrytitle>

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<manvolnum>5</manvolnum></citerefentry>)

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<emphasis>must</emphasis> be made non-readable by anyone

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compromised if they are gone for too long.

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</para>

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<para>

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If a client is compromised, its downtime should be duly noted

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by the server which would therefore disable the client. But

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if the server was ever restarted, it would re-read its client

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list from its configuration file and again regard all clients

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therein as enabled, and hence eligible to receive their

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passwords. Therefore, be careful when restarting servers if

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it is suspected that a client has, in fact, been compromised

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by parties who may now be running a fake Mandos client with

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the keys from the non-encrypted initial <acronym>RAM</acronym>

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image of the client host. What should be done in that case

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(if restarting the server program really is necessary) is to

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stop the server program, edit the configuration file to omit

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any suspect clients, and restart the server program.

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</para>

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<para>

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For more details on client-side security, see

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<citerefentry><refentrytitle>mandos-client</refentrytitle>

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<manvolnum>8mandos</manvolnum></citerefentry>.

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<para>

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<citerefentry><refentrytitle>intro</refentrytitle>

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<manvolnum>8mandos</manvolnum></citerefentry>,

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<citerefentry><refentrytitle>mandos-clients.conf</refentrytitle>

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<manvolnum>5</manvolnum></citerefentry>,

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<citerefentry><refentrytitle>mandos.conf</refentrytitle>

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<manvolnum>5</manvolnum></citerefentry>,

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<citerefentry><refentrytitle>mandos-client</refentrytitle>

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<manvolnum>8mandos</manvolnum></citerefentry>,

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<refentrytitle>mandos-clients.conf</refentrytitle>

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<refentrytitle>mandos.conf</refentrytitle>

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<refentrytitle>mandos-client</refentrytitle>

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<manvolnum>8mandos</manvolnum></citerefentry>, <citerefentry>

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</citerefentry>

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</para>

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</varlistentry>

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<term>

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<ulink url="https://www.avahi.org/">Avahi</ulink>

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<ulink url="http://www.avahi.org/">Avahi</ulink>

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</term>

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<para>

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</varlistentry>

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<term>

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<ulink url="https://gnutls.org/">GnuTLS</ulink>

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<ulink url="http://www.gnu.org/software/gnutls/"

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>GnuTLS</ulink>

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</term>

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<para>

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GnuTLS is the library this server uses to implement TLS for

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communicating securely with the client, and at the same time

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confidently get the client’s public key.

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confidently get the client’s public OpenPGP key.

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</para>

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</listitem>

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</varlistentry>

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</varlistentry>

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<term>

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RFC 5246: <citetitle>The Transport Layer Security (TLS)

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Protocol Version 1.2</citetitle>

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RFC 4346: <citetitle>The Transport Layer Security (TLS)

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Protocol Version 1.1</citetitle>

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</term>

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<para>

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TLS 1.2 is the protocol implemented by GnuTLS.

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TLS 1.1 is the protocol implemented by GnuTLS.

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</para>

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</listitem>

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</varlistentry>

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</varlistentry>

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<term>

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RFC 7250: <citetitle>Using Raw Public Keys in Transport

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Layer Security (TLS) and Datagram Transport Layer Security

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(DTLS)</citetitle>

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</term>

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<para>

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This is implemented by GnuTLS version 3.6.6 and is, if

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present, used by this server so that raw public keys can be

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used.

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</para>

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</listitem>

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</varlistentry>

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<term>

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RFC 6091: <citetitle>Using OpenPGP Keys for Transport Layer

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Security (TLS) Authentication</citetitle>

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</term>

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<para>

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This is implemented by GnuTLS before version 3.6.0 and is,

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if present, used by this server so that OpenPGP keys can be

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used.

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RFC 5081: <citetitle>Using OpenPGP Keys for Transport Layer

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Security</citetitle>

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</term>

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<para>

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This is implemented by GnuTLS and used by this server so

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that OpenPGP keys can be used.

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</para>

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</listitem>

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</varlistentry>

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