mirror of https://gitee.com/openkylin/libvirt.git
359 lines
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XML
359 lines
15 KiB
XML
<?xml version="1.0" encoding="UTF-8"?>
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<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
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<html xmlns="http://www.w3.org/1999/xhtml">
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<body>
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<h1>Connection authentication</h1>
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<p>
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When connecting to libvirt, some connections may require client
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authentication before allowing use of the APIs. The set of possible
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authentication mechanisms is administrator controlled, independent
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of applications using libvirt. Once authenticated, libvirt can apply
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fine grained <a href="acl.html">access control</a> to the operations
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performed by a client.
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</p>
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<ul id="toc"></ul>
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<h2><a name="Auth_client_config">Client configuration</a></h2>
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<p>
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When connecting to a remote hypervisor which requires authentication,
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most libvirt applications will prompt the user for the credentials. It is
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also possible to provide a client configuration file containing all the
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authentication credentials, avoiding any interaction. Libvirt will look
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for the authentication file using the following sequence:
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</p>
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<ol>
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<li>The file path specified by the $LIBVIRT_AUTH_FILE environment
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variable.</li>
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<li>The file path specified by the "authfile=/some/file" URI
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query parameter</li>
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<li>The file $XDG_CONFIG_HOME/libvirt/auth.conf</li>
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<li>The file /etc/libvirt/auth.conf</li>
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</ol>
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<p>
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The auth configuration file uses the traditional <code>".ini"</code>
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style syntax. There are two types of groups that can be present in
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the config. First there are one or more <strong>credential</strong>
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sets, which provide the actual authentication credentials. The keys
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within the group may be:
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</p>
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<ul>
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<li><code>username</code>: the user login name to act as. This
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is relevant for ESX, Xen, HyperV and SSH, but probably not
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the one you want to libvirtd with SASL.</li>
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<li><code>authname</code>: the name to authorize as. This is
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what is commonly required for libvirtd with SASL.</li>
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<li><code>password</code>: the secret password</li>
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<li><code>realm</code>: the domain realm for SASL, mostly
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unused</li>
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</ul>
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<p>
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Each set of credentials has a name, which is part of the group
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entry name. Overall the syntax is
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</p>
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<pre>
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[credentials-$NAME]
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credname1=value1
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credname2=value2</pre>
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<p>
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For example, to define two sets of credentials used for production
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and test machines, using libvirtd, and a further ESX server for dev:
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</p>
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<pre>
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[credentials-test]
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authname=fred
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password=123456
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[credentials-prod]
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authname=bar
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password=letmein
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[credentials-dev]
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username=joe
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password=hello
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[credentials-defgrp]
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username=defuser
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password=defpw</pre>
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<p>
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The second set of groups provide mappings of credentials to
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specific machine services. The config file group names compromise
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the service type and host:
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</p>
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<pre>
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[auth-$SERVICE-$HOSTNAME]
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credentials=$CREDENTIALS</pre>
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<p>
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For example, following the previous example, here is how to
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map some machines. For convenience libvirt supports a default
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mapping of credentials to machines:
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</p>
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<pre>
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[auth-libvirt-test1.example.com]
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credentials=test
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[auth-libvirt-test2.example.com]
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credentials=test
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[auth-libvirt-demo3.example.com]
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credentials=test
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[auth-libvirt-prod1.example.com]
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credentials=prod
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[auth-libvirt-default]
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credentials=defgrp
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[auth-esx-dev1.example.com]
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credentials=dev
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[auth-esx-default]
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credentials=defgrp</pre>
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<p>
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The following service types are known to libvirt
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</p>
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<ol>
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<li><code>libvirt</code> - used for connections to a libvirtd
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server, which is configured with SASL auth</li>
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<li><code>ssh</code> - used for connections to a Phyp server
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over SSH</li>
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<li><code>esx</code> - used for connections to an ESX or
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VirtualCenter server</li>
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<li><code>xen</code> - used for connections to a Xen Enterprise
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sever using XenAPI</li>
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</ol>
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<p>
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Applications using libvirt are free to use this same configuration
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file for storing other credentials. For example, it can be used
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to storage VNC or SPICE login credentials
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</p>
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<h2><a name="ACL_server_config">Server configuration</a></h2>
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<p>
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The libvirt daemon allows the administrator to choose the authentication
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mechanisms used for client connections on each network socket independently.
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This is primarily controlled via the libvirt daemon master config file in
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<code>/etc/libvirt/libvirtd.conf</code>. Each of the libvirt sockets can
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have its authentication mechanism configured independently. There is
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currently a choice of <code>none</code>, <code>polkit</code>, and <code>sasl</code>.
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The SASL scheme can be further configured to choose between a large
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number of different mechanisms.
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</p>
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<h2><a name="ACL_server_unix_perms">UNIX socket permissions/group</a></h2>
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<p>
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If libvirt does not contain support for PolicyKit, then access control for
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the UNIX domain socket is done using traditional file user/group ownership
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and permissions. There are 2 sockets, one for full read-write access, the
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other for read-only access. The RW socket will be restricted (mode 0700) to
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only allow the <code>root</code> user to connect. The read-only socket will
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be open access (mode 0777) to allow any user to connect.
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</p>
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<p>
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To allow non-root users greater access, the <code>libvirtd.conf</code> file
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can be edited to change the permissions via the <code>unix_sock_rw_perms</code>,
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config parameter and to set a user group via the <code>unix_sock_group</code>
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parameter. For example, setting the former to mode <code>0770</code> and the
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latter <code>wheel</code> would let any user in the wheel group connect to
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the libvirt daemon.
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</p>
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<h2><a name="ACL_server_polkit">UNIX socket PolicyKit auth</a></h2>
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<p>
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If libvirt contains support for PolicyKit, then access control options are
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more advanced. The <code>auth_unix_rw</code> parameter will default to
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<code>polkit</code>, and the file permissions will default to <code>0777</code>
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even on the RW socket. Upon connecting to the socket, the client application
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will be required to identify itself with PolicyKit. The default policy for the
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RW daemon socket will require any application running in the current desktop
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session to authenticate using the user's password. This is akin to <code>sudo</code>
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auth, but does not require that the client application ultimately run as root.
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Default policy will still allow any application to connect to the RO socket.
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</p>
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<p>
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The default policy can be overridden by creating a new policy file in the
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local override directory <code>/etc/polkit-1/localauthority/50-local.d/</code>.
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Policy files should have a unique name ending with .pkla. Using reverse DNS
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naming works well. Information on the options available can be found by
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reading the pklocalauthority man page. The two libvirt daemon actions
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available are named <code>org.libvirt.unix.manage</code> for full management
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access, and <code>org.libvirt.unix.monitor</code> for read-only access.
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</p>
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<p>
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As an example, this gives the user <code>fred</code> full management access:
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</p>
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<pre>[Allow fred libvirt management permissions]
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Identity=unix-user:fred
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Action=org.libvirt.unix.manage
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ResultAny=yes
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ResultInactive=yes
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ResultActive=yes</pre>
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<p>
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Further examples of PolicyKit setup can be found on the
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<a href="http://wiki.libvirt.org/page/SSHPolicyKitSetup">wiki page</a>.
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</p>
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<h2><a name="ACL_server_sasl">SASL pluggable authentication</a></h2>
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<p>
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Libvirt integrates with the cyrus-sasl library to provide a pluggable authentication
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system using the SASL protocol. SASL can be used in combination with libvirtd's TLS
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or TCP socket listeners. When used with the TCP listener, the SASL mechanism is
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rqeuired to provide session encryption in addition to authentication. Only a very
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few SASL mechanisms are able to do this, and of those that can do it, only the
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GSSAPI plugin is considered acceptably secure by modern standards:
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</p>
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<dl>
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<dt>GSSAPI</dt>
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<dd><strong>This is the current default mechanism to use with libvirtd</strong>.
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It uses the Kerberos v5 authentication protocol underneath, and assuming
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the Kerberos client/server are configured with modern ciphers (AES),
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it provides strong session encryption capabilities.</dd>
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<dt>DIGEST-MD5</dt>
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<dd>This was previously set as the default mechanism to use with libvirtd.
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It provides a simple username/password based authentication mechanism
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that includes session encryption.
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<a href="https://tools.ietf.org/html/rfc6331">RFC 6331</a>, however,
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documents a number of serious security flaws with DIGEST-MD5 and as a
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result marks it as <code>OBSOLETE</code>. Specific concerns are that
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it is vulnerable to MITM attacks and the MD5 hash can be brute-forced
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to reveal the password. A replacement is provided via the SCRAM mechanism,
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however, note that this does not provide encryption, so the SCRAM
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mechanism can only be used on the libvirtd TLS listener.
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</dd>
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<dt>PASSDSS-3DES-1</dt>
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<dd>This provides a simple username/password based authentication
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mechanism that includes session encryption. The current cyrus-sasl
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implementation does not provide a way to validate the server's
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public key identity, thus it is susceptible to a MITM attacker
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impersonating the server. It is also not enabled in many OS
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distros when building SASL libraries.</dd>
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<dt>KERBEROS_V4</dt>
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<dd>This uses the obsolete Kerberos v4 protocol to provide both authentication
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and session encryption. Kerberos v4 protocol has been obsolete since the
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early 1990's and has known security vulnerabilities so this will never be
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used in practice.</dd>
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</dl>
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<p>
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Other SASL mechanisms, not listed above, can only be used when the libvirtd
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TLS or UNIX socket listeners.
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</p>
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<h3><a name="ACL_server_username">Username/password auth</a></h3>
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<p>
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As noted above, the DIGEST-MD5 mechanism is considered obsolete and should
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not be used anymore. To provide a simple username/password auth scheme on
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the libvirt UNIX socket or TLS listeners, however, it is possible to use
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the SCRAM mechanism. The <code>auth_unix_ro</code>, <code>auth_unix_rw</code>,
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<code>auth_tls</code> config params in <code>libvirt.conf</code> can be used
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to turn on SASL auth in these listeners.
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</p>
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<p>
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Since the libvirt SASL config file defaults to using GSSAPI (Kerberos), a
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config change is rquired to enable plain password auth. This is done by
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editting <code>/etc/sasl2/libvirt.conf</code> to set the <code>mech_list</code>
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parameter to <code>scram-sha-1</code>.
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</p>
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<p>
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Out of the box, no user accounts are defined, so no clients will be able to authenticate
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on the TCP socket. Adding users and setting their passwords is done with the <code>saslpasswd2</code>
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command. When running this command it is important to tell it that the appname is <code>libvirt</code>.
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As an example, to add a user <code>fred</code>, run
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</p>
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<pre>
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# saslpasswd2 -a libvirt fred
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Password: xxxxxx
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Again (for verification): xxxxxx
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</pre>
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<p>
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To see a list of all accounts the <code>sasldblistusers2</code> command can be used.
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This command expects to be given the path to the libvirt user database, which is kept
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in <code>/etc/libvirt/passwd.db</code>
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</p>
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<pre>
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# sasldblistusers2 -f /etc/libvirt/passwd.db
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fred@t60wlan.home.berrange.com: userPassword
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</pre>
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<p>
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Finally, to disable a user's access, the <code>saslpasswd2</code> command can be used
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again:
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</p>
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<pre>
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# saslpasswd2 -a libvirt -d fred
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</pre>
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<h3><a name="ACL_server_kerberos">GSSAPI/Kerberos auth</a></h3>
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<p>
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The plain TCP listener of the libvirt daemon defaults to using SASL for authentication.
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The libvirt SASL config also defaults to GSSAPI, so there is no need to edit the
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SASL config when using GSSAPI. If the libvirtd TLS or UNIX listeners are used,
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then the Kerberos session encryption will be disabled since it is not required
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in these scenarios - only the plain TCP listener needs encryption
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</p>
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<p>
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Some operating systems do not install the SASL kerberos plugin by default. It
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may be necessary to install a sub-package such as <code>cyrus-sasl-gssapi</code>.
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To check whether the Kerberos plugin is installed run the <code>pluginviewer</code>
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program and verify that <code>gssapi</code> is listed,eg:
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</p>
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<pre>
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# pluginviewer
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...snip...
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Plugin "gssapiv2" [loaded], API version: 4
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SASL mechanism: GSSAPI, best SSF: 56
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security flags: NO_ANONYMOUS|NO_PLAINTEXT|NO_ACTIVE|PASS_CREDENTIALS|MUTUAL_AUTH
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features: WANT_CLIENT_FIRST|PROXY_AUTHENTICATION|NEED_SERVER_FQDN
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</pre>
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<p>
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Next it is necessary for the administrator of the Kerberos realm to
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issue a principal for the libvirt server. There needs to be one
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principal per host running the libvirt daemon. The principal should be
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named <code>libvirt/full.hostname@KERBEROS.REALM</code>. This is
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typically done by running the <code>kadmin.local</code> command on the
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Kerberos server, though some Kerberos servers have alternate ways of
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setting up service principals. Once created, the principal should be
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exported to a keytab, copied to the host running the libvirt daemon
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and placed in <code>/etc/libvirt/krb5.tab</code>
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</p>
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<pre>
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# kadmin.local
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kadmin.local: add_principal libvirt/foo.example.com
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Enter password for principal "libvirt/foo.example.com@EXAMPLE.COM":
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Re-enter password for principal "libvirt/foo.example.com@EXAMPLE.COM":
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Principal "libvirt/foo.example.com@EXAMPLE.COM" created.
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kadmin.local: ktadd -k /root/libvirt-foo-example.tab libvirt/foo.example.com@EXAMPLE.COM
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Entry for principal libvirt/foo.example.com@EXAMPLE.COM with kvno 4, encryption type Triple DES cbc mode with HMAC/sha1 added to keytab WRFILE:/root/libvirt-foo-example.tab.
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Entry for principal libvirt/foo.example.com@EXAMPLE.COM with kvno 4, encryption type ArcFour with HMAC/md5 added to keytab WRFILE:/root/libvirt-foo-example.tab.
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Entry for principal libvirt/foo.example.com@EXAMPLE.COM with kvno 4, encryption type DES with HMAC/sha1 added to keytab WRFILE:/root/libvirt-foo-example.tab.
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Entry for principal libvirt/foo.example.com@EXAMPLE.COM with kvno 4, encryption type DES cbc mode with RSA-MD5 added to keytab WRFILE:/root/libvirt-foo-example.tab.
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kadmin.local: quit
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# scp /root/libvirt-foo-example.tab root@foo.example.com:/etc/libvirt/krb5.tab
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# rm /root/libvirt-foo-example.tab
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</pre>
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<p>
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Any client application wishing to connect to a Kerberos enabled libvirt server
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merely needs to run <code>kinit</code> to gain a user principal. This may well
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be done automatically when a user logs into a desktop session, if PAM is setup
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to authenticate against Kerberos.
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</p>
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</body>
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</html>
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