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Committer: Teddy Hogeborn
Date: 2015-07-20 03:03:33 UTC
Revision ID: teddy@recompile.se-20150720030333-203m2aeblypcsfte

Bug fix for GnuTLS 3: be compatible with old 2048-bit DSA keys.

The mandos-keygen program in Mandos version 1.6.0 and older generated
2048-bit DSA keys, and when GnuTLS uses these it has trouble
connecting using the Mandos default priority string.  This was
previously fixed in Mandos 1.6.2, but the bug reappeared when using
GnuTLS 3, so the default priority string has to change again; this
time also the Mandos client has to change its default, so now the
server and the client should use the same default priority string:

SECURE256:!CTYPE-X.509:+CTYPE-OPENPGP:!RSA:+SIGN-DSA-SHA256

* mandos (main/server_defaults): Changed default priority string.
* mandos-options.xml (/section/para[id="priority_compat"]): Removed.
  (/section/para[id="priority"]): Changed default priority string.
* mandos.conf ([DEFAULT]/priority): - '' -
* mandos.conf.xml (OPTIONS/priority): Refer to the id "priority"
                                      instead of "priority_compat".
* mandos.xml (OPTIONS/--priority): - '' -
* plugins.d/mandos-client.c (main): Changed default priority string.

files added:
initramfs-tools-hook-conf

files removed:
bugs.xml

initramfs-tools-conf

initramfs-tools-script-stop

mandos-to-cryptroot-unlock

tmpfiles.d-mandos.conf

files modified:
DBUS-API

INSTALL

Makefile

NEWS

README

TODO

clients.conf

common.ent

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.dirs

debian/mandos.lintian-overrides

debian/mandos.postinst

debian/rules

debian/watch

init.d-mandos

initramfs-tools-hook

initramfs-tools-script

initramfs-unpack

intro.xml

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.xml

mandos.lsm

mandos.service

mandos.xml

network-hooks.d/bridge

network-hooks.d/openvpn

network-hooks.d/wireless

overview.xml

plugin-helpers/mandos-client-iprouteadddel.c

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

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added added

removed removed

plugins.d/mandos-client.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-client">

<!ENTITY TIMESTAMP "2019-02-09">

<!ENTITY TIMESTAMP "2015-07-08">

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

%common;

<holder>Teddy Hogeborn</holder>

<holder>Björn Påhlsson</holder>

</copyright>

</group>

<sbr/>

<group>

<arg choice="plain"><option>--tls-privkey

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<arg choice="plain"><option>-t

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</group>

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<sbr/>

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<group>

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<arg choice="plain"><option>--tls-pubkey

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<arg choice="plain"><option>-T

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</group>

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<sbr/>

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<arg>

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<option>--priority <replaceable>STRING</replaceable></option>

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</arg>

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brings up network interfaces, uses the interfaces’ IPv6

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link-local addresses to get network connectivity, uses Zeroconf

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to find servers on the local network, and communicates with

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servers using TLS with a raw public key to ensure authenticity

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and confidentiality. This client program keeps running, trying

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all servers on the network, until it receives a satisfactory

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reply or a TERM signal. After all servers have been tried, all

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servers using TLS with an OpenPGP key to ensure authenticity and

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confidentiality. This client program keeps running, trying all

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servers on the network, until it receives a satisfactory reply

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or a TERM signal. After all servers have been tried, all

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servers are periodically retried. If no servers are found it

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will wait indefinitely for new servers to appear.

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</para>

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</varlistentry>

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<term><option>--tls-pubkey=<replaceable

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>FILE</replaceable></option></term>

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<term><option>-T

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<para>

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TLS raw public key file name. The default name is

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<quote><filename>/conf/conf.d/mandos/tls-pubkey.pem</filename

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></quote>.

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</para>

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</listitem>

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</varlistentry>

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<term><option>--tls-privkey=<replaceable

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>FILE</replaceable></option></term>

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<term><option>-t

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<para>

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TLS secret key file name. The default name is

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<quote><filename>/conf/conf.d/mandos/tls-privkey.pem</filename

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></quote>.

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</para>

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</listitem>

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</varlistentry>

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<term><option>--priority=<replaceable

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>STRING</replaceable></option></term>

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<para>

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Sets the number of bits to use for the prime number in the

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TLS Diffie-Hellman key exchange. The default value is

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selected automatically based on the GnuTLS security

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profile set in its priority string. Note that if the

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<option>--dh-params</option> option is used, the values

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from that file will be used instead.

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selected automatically based on the OpenPGP key. Note

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that if the <option>--dh-params</option> option is used,

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the values from that file will be used instead.

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</para>

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</listitem>

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</varlistentry>

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</listitem>

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</varlistentry>

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<term><filename>/conf/conf.d/mandos/tls-pubkey.pem</filename

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></term>

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<term><filename>/conf/conf.d/mandos/tls-privkey.pem</filename

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></term>

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<para>

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Public and private raw key files, in <quote>PEM</quote>

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format. These are the default file names, they can be

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changed with the <option>--tls-pubkey</option> and

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<option>--tls-privkey</option> options.

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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">/lib/mandos/network-hooks.d</filename></term>

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</variablelist>

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</refsect1>

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

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</refsect1>

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<title>EXAMPLE</title>

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</informalexample>

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<para>

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Run in debug mode, and use custom keys:

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Run in debug mode, and use a custom key:

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</para>

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<para>

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<userinput>&COMMANDNAME; --debug --pubkey keydir/pubkey.txt --seckey keydir/seckey.txt --tls-pubkey keydir/tls-pubkey.pem --tls-privkey keydir/tls-privkey.pem</userinput>

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<userinput>&COMMANDNAME; --debug --pubkey keydir/pubkey.txt --seckey keydir/seckey.txt</userinput>

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</para>

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</informalexample>

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<para>

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Run in debug mode, with custom keys, and do not use Zeroconf

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Run in debug mode, with a custom key, and do not use Zeroconf

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to locate a server; connect directly to the IPv6 link-local

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address <quote><systemitem class="ipaddress"

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>fe80::aede:48ff:fe71:f6f2</systemitem></quote>, port 4711,

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<para>

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<userinput>&COMMANDNAME; --debug --pubkey keydir/pubkey.txt --seckey keydir/seckey.txt --tls-pubkey keydir/tls-pubkey.pem --tls-privkey keydir/tls-privkey.pem --connect fe80::aede:48ff:fe71:f6f2:4711 --interface eth2</userinput>

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<userinput>&COMMANDNAME; --debug --pubkey keydir/pubkey.txt --seckey keydir/seckey.txt --connect fe80::aede:48ff:fe71:f6f2:4711 --interface eth2</userinput>

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</para>

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</informalexample>

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<para>

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The only remaining weak point is that someone with physical

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access to the client hard drive might turn off the client

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computer, read the OpenPGP and TLS keys directly from the hard

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drive, and communicate with the server. To safeguard against

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this, the server is supposed to notice the client disappearing

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and stop giving out the encrypted data. Therefore, it is

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important to set the timeout and checker interval values tightly

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on the server. See <citerefentry><refentrytitle

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computer, read the OpenPGP keys directly from the hard drive,

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and communicate with the server. To safeguard against this, the

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server is supposed to notice the client disappearing and stop

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giving out the encrypted data. Therefore, it is important to

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set the timeout and checker interval values tightly on the

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server. See <citerefentry><refentrytitle

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

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</para>

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<para>

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</varlistentry>

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<term>

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<ulink url="https://www.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 client uses to implement TLS for

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communicating securely with the server, and at the same time

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send the public key to the server.

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send the public OpenPGP key to the server.

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</para>

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</listitem>

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</varlistentry>

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<term>

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<ulink url="https://www.gnupg.org/related_software/gpgme/"

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<ulink url="http://www.gnupg.org/related_software/gpgme/"

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>GPGME</ulink>

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</term>

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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 in version 3.6.6 and is, if

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present, used by this program 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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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 before version 3.6.0 and is,

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

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used.

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This is implemented by GnuTLS and used by this program 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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