:pve-toplevel:
endif::wiki[]
-Network configuration can be done either via the GUI, or by manually
+Network configuration can be done either via the GUI, or by manually
editing the file `/etc/network/interfaces`, which contains the
whole network configuration. The `interfaces(5)` manual page contains the
complete format description. All {pve} tools try hard to keep direct
user modifications, but using the GUI is still preferable, because it
protects you from errors.
-Once the network is configured, you can use the Debian traditional tools `ifup`
+Once the network is configured, you can use the Debian traditional tools `ifup`
and `ifdown` commands to bring interfaces up and down.
NOTE: {pve} does not write changes directly to
Choosing a network configuration
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-Depending on your current network organization and your resources you can
+Depending on your current network organization and your resources you can
choose either a bridged, routed, or masquerading networking setup.
{pve} server in a private LAN, using an external gateway to reach the internet
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-The *Bridged* model makes the most sense in this case, and this is also
+The *Bridged* model makes the most sense in this case, and this is also
the default mode on new {pve} installations.
-Each of your Guest system will have a virtual interface attached to the
-{pve} bridge. This is similar in effect to having the Guest network card
+Each of your Guest system will have a virtual interface attached to the
+{pve} bridge. This is similar in effect to having the Guest network card
directly connected to a new switch on your LAN, the {pve} host playing the role
of the switch.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
In that case the only way to get outgoing network accesses for your guest
-systems is to use *Masquerading*. For incoming network access to your guests,
+systems is to use *Masquerading*. For incoming network access to your guests,
you will need to configure *Port Forwarding*.
For further flexibility, you can configure
Default Configuration using a Bridge
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+[thumbnail="default-network-setup-bridge.svg"]
Bridges are like physical network switches implemented in software.
-All VMs can share a single bridge, or you can create multiple bridges to
-separate network domains. Each host can have up to 4094 bridges.
+All virtual guests can share a single bridge, or you can create multiple
+bridges to separate network domains. Each host can have up to 4094 bridges.
The installation program creates a single bridge named `vmbr0`, which
is connected to the first Ethernet card. The corresponding
reasons, they disable networking as soon as they detect multiple MAC
addresses on a single interface.
-TIP: Some providers allows you to register additional MACs on there
+TIP: Some providers allows you to register additional MACs on their
management interface. This avoids the problem, but is clumsy to
configure because you need to register a MAC for each of your VMs.
interface. This makes sure that all network packets use the same MAC
address.
+[thumbnail="default-network-setup-routed.svg"]
A common scenario is that you have a public IP (assume `198.51.100.5`
for this example), and an additional IP block for your VMs
(`203.0.113.16/29`). We recommend the following setup for such
traffic.
If your switch support the LACP (IEEE 802.3ad) protocol then we recommend using
-the corresponding bonding mode (802.3ad). Otherwise you should generally use the
+the corresponding bonding mode (802.3ad). Otherwise you should generally use the
active-backup mode. +
// http://lists.linux-ha.org/pipermail/linux-ha/2013-January/046295.html
If you intend to run your cluster network on the bonding interfaces, then you
----
+[thumbnail="default-network-setup-bond.svg"]
Another possibility it to use the bond directly as bridge port.
This can be used to make the guest network fault-tolerant.
{pve} supports this setup out of the box. You can specify the VLAN tag
when you create a VM. The VLAN tag is part of the guest network
-confinuration. The networking layer supports differnet modes to
+configuration. The networking layer supports different modes to
implement VLANs, depending on the bridge configuration:
* *VLAN awareness on the Linux bridge:*
In this case, each guest's virtual network card is assigned to a VLAN tag,
which is transparently supported by the Linux bridge.
-Trunk mode is also possible, but that makes the configuration
+Trunk mode is also possible, but that makes configuration
in the guest necessary.
* *"traditional" VLAN on the Linux bridge:*
In contrast to the VLAN awareness method, this method is not transparent
and creates a VLAN device with associated bridge for each VLAN.
-That is, if e.g. in our default network, a guest VLAN 5 is used
-to create eno1.5 and vmbr0v5, which remains until rebooting.
+That is, creating a guest on VLAN 5 for example, would create two
+interfaces eno1.5 and vmbr0v5, which would remain until a reboot occurs.
* *Open vSwitch VLAN:*
This mode uses the OVS VLAN feature.
-* *Guest configured VLAN:*
+* *Guest configured VLAN:*
VLANs are assigned inside the guest. In this case, the setup is
completely done inside the guest and can not be influenced from the
outside. The benefit is that you can use more than one VLAN on a
For example, in a default configuration where you want to place
the host management address on a separate VLAN.
-NOTE: In the examples we use the VLAN at bridge level to ensure the correct
-function of VLAN 5 in the guest network, but in combination with VLAN anwareness
-bridge this it will not work for guest network VLAN 5.
-The downside of this setup is more CPU usage.
-.Example: Use VLAN 5 for the {pve} management IP
+.Example: Use VLAN 5 for the {pve} management IP with traditional Linux bridge
----
auto lo
iface lo inet loopback
----
+.Example: Use VLAN 5 for the {pve} management IP with VLAN aware Linux bridge
+----
+auto lo
+iface lo inet loopback
+
+iface eno1 inet manual
+
+
+auto vmbr0.5
+iface vmbr0.5 inet static
+ address 10.10.10.2
+ netmask 255.255.255.0
+ gateway 10.10.10.1
+
+auto vmbr0
+iface vmbr0 inet manual
+ bridge_ports eno1
+ bridge_stp off
+ bridge_fd 0
+ bridge_vlan_aware yes
+----
+
The next example is the same setup but a bond is used to
make this network fail-safe.
-.Example: Use VLAN 5 with bond0 for the {pve} management IP
+.Example: Use VLAN 5 with bond0 for the {pve} management IP with traditional Linux bridge
----
auto lo
iface lo inet loopback