Network configuration#

Default behaviour#

Cloud-init searches for network configuration in order of increasing precedence; each item overriding the previous.

  • Datasource: For example, OpenStack may provide network config in the MetaData Service.

  • System config: A network: entry in /etc/cloud/cloud.cfg.d/* configuration files.

  • Kernel command line: ip= or network-config=<Base64 encoded YAML config string>

Cloud-init will write out the following files representing the network-config processed:

  • /run/cloud-init/network-config.json: world-readable JSON containing the selected source network-config JSON used by cloud-init network renderers.

User data cannot change an instance’s network configuration. In the absence of network configuration in any of the above sources, cloud-init will write out a network configuration that will issue a DHCP request on a “first” network interface.

Note

The network-config value is expected to be a Base64 encoded YAML string in Networking config Version 1 or Networking config Version 2 format. Optionally, it can be compressed with gzip prior to Base64 encoding.

Disabling network configuration#

Users may disable cloud-init’s network configuration capability and rely on other methods, such as embedded configuration or other customisations.

cloud-init supports the following methods for disabling cloud-init.

Kernel command line#

Cloud-init will check for the parameter network-config=disabled, which will automatically disable any network configuration.

Example disabling kernel command line entry:

network-config=disabled

Cloud config#

In the combined cloud-init configuration dictionary, merged from /etc/cloud/cloud.cfg and /etc/cloud/cloud.cfg.d/*:

network:
  config: disabled

If cloud-init’s networking config has not been disabled, and no other network information is found, then it will proceed to generate a fallback networking configuration.

Disabling network activation#

Some datasources may not be initialised until after the network has been brought up. In this case, cloud-init will attempt to bring up the interfaces specified by the datasource metadata using a network activator discovered by cloudinit.net.activators.select_activator.

This behaviour can be disabled in the cloud-init configuration dictionary, merged from /etc/cloud/cloud.cfg and /etc/cloud/cloud.cfg.d/*:

disable_network_activation: true

Fallback network configuration#

Cloud-init will attempt to determine which, of any attached network devices, is most likely to have a connection and then generate a network configuration to issue a DHCP request on that interface.

Cloud-init runs during early boot and does not expect composed network devices (such as Bridges) to be available. Cloud-init does not consider the following interface devices as likely “first” network interfaces for fallback configuration; they are filtered out from being selected.

  • loopback: name=lo

  • Virtual Ethernet: name=veth*

  • Software Bridges: type=bridge

  • Software VLANs: type=vlan

Cloud-init will prefer network interfaces that indicate they are connected via the Linux carrier flag being set. If no interfaces are marked as connected, then all unfiltered interfaces are potential connections.

Of the potential interfaces, cloud-init will attempt to pick the “right” interface given the information it has available.

Finally, after selecting the “right” interface, a configuration is generated and applied to the system.

Note

PhotonOS disables fallback networking configuration by default, leaving network unrendered when no other network config is provided. If fallback config is still desired on PhotonOS, it can be enabled by providing disable_fallback_netcfg: false in /etc/cloud/cloud.cfg:sys_config settings.

Network configuration sources#

Cloud-init accepts a number of different network configuration formats in support of different cloud substrates. The datasource for these clouds in cloud-init will detect and consume datasource-specific network configuration formats for use when writing an instance’s network configuration.

The following datasources optionally provide network configuration:

For more information on network configuration formats:

Network configuration outputs#

Cloud-init converts various forms of user-supplied or automatically generated configuration into an internal network configuration state. From this state, cloud-init delegates rendering of the configuration to distro-supported formats. The following renderers are supported in cloud-init:

NetworkManager#

NetworkManager is the standard Linux network configuration tool suite. It supports a wide range of networking setups. Configuration is typically stored in /etc/NetworkManager.

It is the default for a number of Linux distributions; notably Fedora, CentOS/RHEL, and their derivatives.

ENI#

/etc/network/interfaces or ENI is supported by the ifupdown package found in Alpine Linux, Debian and Ubuntu.

Netplan#

Introduced in Ubuntu 16.10 (Yakkety Yak), Netplan has been the default network configuration tool in Ubuntu since 17.10 (Artful Aardvark). Netplan consumes Networking config Version 2 input and renders network configuration for supported backends such as systemd-networkd and NetworkManager.

Sysconfig#

Sysconfig format is used by RHEL, CentOS, Fedora and other derivatives.

NetBSD, OpenBSD, FreeBSD#

Network renders supporting BSD releases, which typically write configuration to /etc/rc.conf. Unique to BSD renderers is that each renderer also calls something akin to FreeBSD.start_services which will invoke applicable network services to setup the network, making network activators unneeded for BSD flavors at the moment.

Network output policy#

The default policy for selecting a network renderer (in order of preference) is as follows:

  • ENI

  • Sysconfig

  • Netplan

  • NetworkManager

  • FreeBSD

  • NetBSD

  • OpenBSD

  • Networkd

The default policy for selecting a network activator (in order of preference) is as follows:

  • ENI: using ifup, ifdown to manage device setup/teardown

  • Netplan: using netplan apply to manage device setup/teardown

  • NetworkManager: using nmcli to manage device setup/teardown

  • Networkd: using ip to manage device setup/teardown

When applying the policy, cloud-init checks if the current instance has the correct binaries and paths to support the renderer. The first renderer that can be used is selected. Users may override the network renderer policy by supplying an updated configuration in cloud-config.

system_info:
  network:
    renderers: ['netplan', 'network-manager', 'eni', 'sysconfig', 'freebsd', 'netbsd', 'openbsd']
    activators: ['eni', 'netplan', 'network-manager', 'networkd']

Network configuration tools#

Cloud-init contains a command used to test input/output conversion between formats. The tools/net-convert.py in the cloud-init source repository is helpful in examining expected output for a given input format. If running these commands from the cloud-init source directory, make sure to set the correct path PYTHON_PATH=.

CLI Interface:

$ cloud-init devel net-convert --help

Example output:

usage: /usr/bin/cloud-init devel net-convert [-h] -p PATH -k {eni,network_data.json,yaml,azure-imds,vmware-imc} -d PATH -D
                                               {alpine,arch,debian,ubuntu,freebsd,dragonfly,gentoo,cos,netbsd,openbsd,almalinux,amazon,centos,cloudlinux,eurolinux,fedora,mariner,miraclelinux,openmandriva,photon,rhel,rocky,virtuozzo,opensuse,sles,openEuler}
                                               [-m name,mac] [--debug] -O {eni,netplan,networkd,sysconfig,network-manager}

options:
  -h, --help            show this help message and exit
  -p PATH, --network-data PATH
                        The network configuration to read
  -k {eni,network_data.json,yaml,azure-imds,vmware-imc}, --kind {eni,network_data.json,yaml,azure-imds,vmware-imc}
                        The format of the given network config
  -d PATH, --directory PATH
                        directory to place output in
  -D {alpine,arch,debian,ubuntu,freebsd,dragonfly,gentoo,cos,netbsd,openbsd,almalinux,amazon,centos,cloudlinux,eurolinux,fedora,mariner,miraclelinux,openmandriva,photon,rhel,rocky,virtuozzo,opensuse,sles,openeuler}, --distro {alpine,arch,debian,ubuntu,freebsd,dragonfly,gentoo,cos,netbsd,openbsd,almalinux,amazon,centos,cloudlinux,eurolinux,fedora,mariner,miraclelinux,openmandriva,photon,rhel,rocky,virtuozzo,opensuse,sles,openEuler}
  -m name,mac, --mac name,mac
                        interface name to mac mapping
  --debug               enable debug logging to stderr.
  -O {eni,netplan,networkd,sysconfig,network-manager}, --output-kind {eni,netplan,networkd,sysconfig,network-manager}
                        The network config format to emit

Example of converting V2 to sysconfig:

$ cloud-init devel net-convert --network-data v2.yaml --kind yaml \
   --output-kind sysconfig -d target
$ cat target/etc/sysconfig/network-scripts/ifcfg-eth*

Example output:

# Created by cloud-init automatically, do not edit.
#
BOOTPROTO=static
DEVICE=eth7
IPADDR=192.168.1.5/255.255.255.0
NM_CONTROLLED=no
ONBOOT=yes
TYPE=Ethernet
USERCTL=no
# Created by cloud-init automatically, do not edit.
#
BOOTPROTO=dhcp
DEVICE=eth9
NM_CONTROLLED=no
ONBOOT=yes
TYPE=Ethernet
USERCTL=no