<?xml version="1.0" encoding="UTF-8"?> <!DOCTYPE html> <html xmlns="http://www.w3.org/1999/xhtml"> <body> <h1 >Connection URIs</h1> <ul id="toc"></ul> <p> Since libvirt supports many different kinds of virtualization (often referred to as "drivers" or "hypervisors"), we need a way to be able to specify which driver a connection refers to. Additionally we may want to refer to a driver on a remote machine over the network. </p> <p> To this end, libvirt uses URIs as used on the Web and as defined in <a href="http://www.ietf.org/rfc/rfc2396.txt">RFC 2396</a>. This page documents libvirt URIs. </p> <h2><a id="URI_libvirt">Specifying URIs to libvirt</a></h2> <p> The URI is passed as the <code>name</code> parameter to <a href="html/libvirt-libvirt-host.html#virConnectOpen"> <code>virConnectOpen</code> </a> or <a href="html/libvirt-libvirt-host.html#virConnectOpenReadOnly"> <code>virConnectOpenReadOnly</code> </a>. For example: </p> <pre> virConnectPtr conn = virConnectOpenReadOnly (<b>"test:///default"</b>); </pre> <h2> <a id="URI_config">Configuring URI aliases</a> </h2> <p> To simplify life for administrators, it is possible to setup URI aliases in a libvirt client configuration file. The configuration file is <code>/etc/libvirt/libvirt.conf</code> for the root user, or <code>$XDG_CONFIG_HOME/libvirt/libvirt.conf</code> for any unprivileged user. In this file, the following syntax can be used to setup aliases </p> <pre> uri_aliases = [ "hail=qemu+ssh://root@hail.cloud.example.com/system", "sleet=qemu+ssh://root@sleet.cloud.example.com/system", ] </pre> <p> A URI alias should be a string made up from the characters <code>a-Z, 0-9, _, -</code>. Following the <code>=</code> can be any libvirt URI string, including arbitrary URI parameters. URI aliases will apply to any application opening a libvirt connection, unless it has explicitly passed the <code>VIR_CONNECT_NO_ALIASES</code> parameter to <code>virConnectOpenAuth</code>. If the passed in URI contains characters outside the allowed alias character set, no alias lookup will be attempted. </p> <h2><a id="URI_default">Default URI choice</a></h2> <p> If the URI passed to <code>virConnectOpen*</code> is NULL, then libvirt will use the following logic to determine what URI to use. </p> <ol> <li>The environment variable <code>LIBVIRT_DEFAULT_URI</code></li> <li>The client configuration file <code>uri_default</code> parameter</li> <li>Probe each hypervisor in turn until one that works is found</li> </ol> <h2> <a id="URI_virsh">Specifying URIs to virsh, virt-manager and virt-install</a> </h2> <p> In virsh use the <code>-c</code> or <code>--connect</code> option: </p> <pre> virsh <b>-c test:///default</b> list </pre> <p> If virsh finds the environment variable <code>VIRSH_DEFAULT_CONNECT_URI</code> set, it will try this URI by default. Use of this environment variable is, however, deprecated now that libvirt supports <code>LIBVIRT_DEFAULT_URI</code> itself. </p> <p> When using the interactive virsh shell, you can also use the <code>connect</code> <i>URI</i> command to reconnect to another hypervisor. </p> <p> In virt-manager use the <code>-c</code> or <code>--connect=</code><i>URI</i> option: </p> <pre> virt-manager <b>-c test:///default</b> </pre> <p> In virt-install use the <code>--connect=</code><i>URI</i> option: </p> <pre> virt-install <b>--connect=test:///default</b> <i>[other options]</i> </pre> <h2> <a id="URI_xen">xen:///system URI</a> </h2> <p> <i>This section describes a feature which is new in libvirt > 0.2.3. For libvirt ≤ 0.2.3 use <a href="#URI_legacy_xen"><code>"xen"</code></a>.</i> </p> <p> To access a Xen hypervisor running on the local machine use the URI <code>xen:///system</code>. </p> <h2> <a id="URI_qemu">qemu:///... QEMU and KVM URIs</a> </h2> <p> To use QEMU support in libvirt you must be running the <code>libvirtd</code> daemon (named <code>libvirt_qemud</code> in releases prior to 0.3.0). The purpose of this daemon is to manage qemu instances. </p> <p> The <code>libvirtd</code> daemon should be started by the init scripts when the machine boots. It should appear as a process <code>libvirtd --daemon</code> running as root in the background and will handle qemu instances on behalf of all users of the machine (among other things). </p> <p> So to connect to the daemon, one of two different URIs is used: </p> <ul> <li><code>qemu:///system</code> connects to a system mode daemon. </li> <li><code>qemu:///session</code> connects to a session mode daemon. </li> </ul> <p> (If you do <code>libvirtd --help</code>, the daemon will print out the paths of the Unix domain socket(s) that it listens on in the various different modes). </p> <p> KVM URIs are identical. You select between qemu, qemu accelerated and KVM guests in the <a href="format.html#KVM1">guest XML as described here</a>. </p> <h2> <a id="URI_remote">Remote URIs</a> </h2> <p> Remote URIs are formed by taking ordinary local URIs and adding a hostname and/or transport name. As a special case, using a URI scheme of 'remote', will tell the remote libvirtd server to probe for the optimal hypervisor driver. This is equivalent to passing a NULL URI for a local connection. For example: </p> <table class="top_table"> <tr> <th> Local URI </th> <th> Remote URI </th> <th> Meaning </th> </tr> <tr> <td> <code>xen:///system</code> </td> <td> <code>xen://oirase/system</code> </td> <td> Connect to the Xen hypervisor running on host <code>oirase</code> using TLS. </td> </tr> <tr> <td> <code>NULL</code> </td> <td> <code>remote://oirase/</code> </td> <td> Connect to the "default" hypervisor running on host <code>oirase</code> using TLS. </td> </tr> <tr> <td> <code>xen:///system</code> </td> <td> <code>xen+ssh://oirase/system</code> </td> <td> Connect to the Xen hypervisor running on host <code>oirase</code> by going over an <code>ssh</code> connection. </td> </tr> <tr> <td> <code>test:///default</code> </td> <td> <code>test+tcp://oirase/default</code> </td> <td> Connect to the test driver on host <code>oirase</code> using an unsecured TCP connection. </td> </tr> </table> <p> Remote URIs in libvirt offer a rich syntax and many features. We refer you to <a href="remote.html#Remote_URI_reference">the libvirt remote URI reference</a> and <a href="remote.html">full documentation for libvirt remote support</a>. </p> <h2> <a id="URI_test">test:///... Test URIs</a> </h2> <p> The test driver is a dummy hypervisor for test purposes. The URIs supported are: </p> <ul> <li><code>test:///default</code> connects to a default set of host definitions built into the driver. </li> <li><code>test:///path/to/host/definitions</code> connects to a set of host definitions held in the named file. </li> </ul> <h2> <a id="URI_legacy">Other & legacy URI formats</a> </h2> <h3> <a id="URI_NULL">NULL and empty string URIs</a> </h3> <p> Libvirt allows you to pass a <code>NULL</code> pointer to <code>virConnectOpen*</code>. Empty string (<code>""</code>) acts in the same way. Traditionally this has meant <q>connect to the local Xen hypervisor</q>. However in future this may change to mean <q>connect to the best available hypervisor</q>. </p> <p> The theory is that if, for example, Xen is unavailable but the machine is running an OpenVZ kernel, then we should not try to connect to the Xen hypervisor since that is obviously the wrong thing to do. </p> <p> In any case applications linked to libvirt can continue to pass <code>NULL</code> as a default choice, but should always allow the user to override the URI, either by constructing one or by allowing the user to type a URI in directly (if that is appropriate). If your application wishes to connect specifically to a Xen hypervisor, then for future proofing it should choose a full <a href="#URI_xen"><code>xen:///system</code> URI</a>. </p> <h3> <a id="URI_legacy_xen">Legacy: <code>"xen"</code></a> </h3> <p> Another legacy URI is to specify name as the string <code>"xen"</code>. This will continue to refer to the Xen hypervisor. However you should prefer a full <a href="#URI_xen"><code>xen:///system</code> URI</a> in all future code. </p> </body> </html>