mirror of
https://github.com/libvirt/libvirt.git
synced 2025-02-25 18:55:26 -06:00
8b9d2bda8a
When starting a domain, it's done so in two steps (actually more,
but lets focus on just the following two):
1) qemuProcessPrepareDomain(), followed by
2) qemuProcessPrepareHost().
Now, in the first step (PrepareDomain()), PCI backends for all
hostdevs is set (qemuProcessPrepareDomain() ->
qemuProcessPrepareDomainHostdevs() -> qemuDomainPrepareHostdev()
-> qemuDomainPrepareHostdevPCI()). Perfect.
But then, additional hostdevs may appear, because in the host
prepare phase we may insert some hostdevs into domain definition
(qemuProcessPrepareHost() -> qemuProcessNetworkPrepareDevices()).
Now, these additional hostdevs don't undergo the same prepare as
hostdevs that were already present in the domain definition (i.e.
in qemuProcessPrepareDomain() phase). Therefore, we have to call
corresponding prepare function explicitly.
NB, the interface hotplug code (qemuDomainAttachNetDevice()) does
not suffer from this problem, because it calls top level
qemuDomainAttachHostDevice() which is used to hotplug regular
hostdevs too and as such calls qemuDomainPrepareHostdev().
Fixes: 3b87709c76
Resolves: https://bugzilla.redhat.com/show_bug.cgi?id=2209853
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
Reviewed-by: Martin Kletzander <mkletzan@redhat.com>
.. image:: https://gitlab.com/libvirt/libvirt/badges/master/pipeline.svg
:target: https://gitlab.com/libvirt/libvirt/pipelines
:alt: GitLab CI Build Status
.. image:: https://bestpractices.coreinfrastructure.org/projects/355/badge
:target: https://bestpractices.coreinfrastructure.org/projects/355
:alt: CII Best Practices
.. image:: https://translate.fedoraproject.org/widgets/libvirt/-/libvirt/svg-badge.svg
:target: https://translate.fedoraproject.org/engage/libvirt/
:alt: Translation status
==============================
Libvirt API for virtualization
==============================
Libvirt provides a portable, long term stable C API for managing the
virtualization technologies provided by many operating systems. It
includes support for QEMU, KVM, Xen, LXC, bhyve, Virtuozzo, VMware
vCenter and ESX, VMware Desktop, Hyper-V, VirtualBox and the POWER
Hypervisor.
For some of these hypervisors, it provides a stateful management
daemon which runs on the virtualization host allowing access to the
API both by non-privileged local users and remote users.
Layered packages provide bindings of the libvirt C API into other
languages including Python, Perl, PHP, Go, Java, OCaml, as well as
mappings into object systems such as GObject, CIM and SNMP.
Further information about the libvirt project can be found on the
website:
https://libvirt.org
License
=======
The libvirt C API is distributed under the terms of GNU Lesser General
Public License, version 2.1 (or later). Some parts of the code that are
not part of the C library may have the more restrictive GNU General
Public License, version 2.0 (or later). See the files ``COPYING.LESSER``
and ``COPYING`` for full license terms & conditions.
Installation
============
Instructions on building and installing libvirt can be found on the website:
https://libvirt.org/compiling.html
Contributing
============
The libvirt project welcomes contributions in many ways. For most components
the best way to contribute is to send patches to the primary development
mailing list. Further guidance on this can be found on the website:
https://libvirt.org/contribute.html
Contact
=======
The libvirt project has two primary mailing lists:
* libvirt-users@redhat.com (**for user discussions**)
* libvir-list@redhat.com (**for development only**)
Further details on contacting the project are available on the website:
https://libvirt.org/contact.html