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INTERFACES(5) File formats INTERFACES(5)

NAME

/etc/network/interfaces - network interface configuration for ifup and ifdown

DESCRIPTION

/etc/network/interfaces contains network interface configuration information for the ifup(8) and ifdown(8) commands. This is where you configure how your system is connected to the network.

EXAMPLE

The following example configures two network interfaces: eth0 is brought up at boot, and uses DHCP for IPv4 and SLAAC for IPv6, whereas eth1 is brought up whenever the network hardware is detected, and is configured with static IPv4 and IPv6 addresses.

auto eth0
allow-hotplug eth1
iface eth0 inet dhcp
iface eth0 inet6 auto
iface eth1 inet static
     address 192.168.1.2/24
     gateway 192.168.1.1
iface eth1 inet6 static
     address fec0:0:0:1::2/64
     gateway fec0:0:0:1::1

FILE FORMAT

Lines starting with `#' are ignored. Note that end-of-line comments are NOT supported, comments must be on a line of their own.

A line may be extended across multiple lines by making the last character a backslash.

The file consists of zero or more "iface", "mapping", "auto", "allow-", "rename", "source" and "source-directory" stanzas. These will be described in more detail in the following sections.

INTERFACE SELECTION

Lines beginning with the word "auto" are used to identify the physical interfaces to be brought up when ifup is run with the -a option. (This option is also used by the system boot scripts, so interfaces marked "auto" are brought up at boot time.) Physical interface names should follow the word "auto" on the same line. There can be multiple "auto" stanzas. ifup brings the named interfaces up in the order listed.

Lines beginning with "allow-" are used to identify interfaces that should be brought up automatically by various subsystems. This may be done using a command such as "ifup --allow=hotplug eth0 eth1", which will only bring up eth0 or eth1 if it is listed in an "allow-hotplug" line. Note that "allow- auto" and "auto" are synonyms. (Interfaces marked "allow-hotplug" are brought up when udev detects them. This can either be during boot if the inter‐ face is already present, or at a later time, for example when plugging in a USB network card. Please note that this does not have anything to do with detecting a network cable being plugged in.)

Lines beginning with "no-auto-down" are used to identify interfaces that should not be brought down by the command "ifdown -a". Its main use is to pre‐ vent an interface from being brought down during system shutdown time, for example if the root filesystem is a network filesystem and the interface should stay up until the very end. Note that you can still bring down the interface by specifying the interface name explicitly.

Lines beginning with "no-scripts" are used to identify interfaces for which scripts in /etc/network/if-*.d/ should not be run when those interfaces are brought up or down. he above will match eth0 and eth1, and will bring up both interfaces using the "iface eth" stanza.

INTERFACE RENAMING

Lines beginning with "rename" are used to rename interfaces. It takes one or more arguments in the form of "CUR=NEW", where CUR is the name of an ex‐ isting interface, and NEW is the new name. This becomes very powerful when combined with pattern matching for the CUR interface.

Interfaces are renamed whenever "ifup" is called. Renaming logically happens before anything else is done. So if an interface is started with the name "foo", and it has to be renamed to "bar" and brought up at boot time, then one should use the following /etc/network/interfaces file:

rename foo=bar
auto bar
iface bar ...

However, if the interface is not renamed yet, it is possible to use both "ifup foo" and "ifup bar". The former command will then automatically be con‐ verted to the latter. This is mainly useful when ifup is called automatically whenever an interface is hotplugged.

Interface renaming only works if the operating system supports it, if an interface is not renamed to another existing interface, and may require that the interface that is to be renamed has not been brought up yet. If ifup tries to rename an interface and it fails, it will exit with an error.

INCLUDING OTHER FILES

Lines beginning with "source" are used to include stanzas from other files, so configuration can be split into many files. The word "source" is fol‐ lowed by the path of file to be sourced. Shell wildcards can be used. (See wordexp(3) for details.)

Similarly, "source-directory" keyword is used to source multiple files at once, without specifying them individually or using shell globs. Addition‐ ally, when "source-directory" is used, names of the files are checked to match the following regular expression: ^[a-zA-Z0-9_-]+$. In other words, the names must consist entirely of ASCII upper- and lower-case letters, ASCII digits, ASCII underscores, and ASCII minus-hyphens. In the directory path, shell wildcards may be used as well.

When sourcing files or directories, if a path doesn't have a leading slash, it's considered relative to the directory containing the file in which the keyword is placed. In the example above, if the file is located at /etc/network/interfaces, paths to the included files are understood to be under /etc/network.

By default, on a freshly installed Debian system, the interfaces file includes a line to source files in the /etc/network/interfaces.d directory.

MAPPINGS

Stanzas beginning with the word "mapping" are used to determine how a logical interface name is chosen for a physical interface that is to be brought up. The first line of a mapping stanza consists of the word "mapping" followed by a pattern in shell glob syntax. Each mapping stanza must contain a script definition. The named script is run with the physical interface name as its argument and with the contents of all following "map" lines (with‐ out the leading "map") in the stanza provided to it on its standard input. The script must print a string on its standard output before exiting. See /usr/share/doc/ifupdown/examples for examples of what the script must print.

Mapping a name consists of searching the remaining mapping patterns and running the script corresponding to the first match; the script outputs the name to which the original is mapped.

ifup is normally given a physical interface name as its first non-option argument. ifup also uses this name as the initial logical name for the inter‐ face unless it is accompanied by a suffix of the form =LOGICAL, in which case ifup chooses LOGICAL as the initial logical name for the interface. It then maps this name, possibly more than once according to successive mapping specifications, until no further mappings are possible. If the resulting name is the name of some defined logical interface then ifup attempts to bring up the physical interface as that logical interface. Otherwise ifup ex‐ its with an error.

INTERFACE DEFINITIONS

Stanzas defining logical interfaces start with a line consisting of the word "iface" followed by the name of the logical interface. In simple configu‐ rations without mapping stanzas this name should simply be the name of the physical interface to which it is to be applied. (The default mapping script is, in effect, the echo command.) The interface name is followed by the name of the address family that the interface uses. This will be "inet" for TCP/IP networking, but there is also some support for IPX networking ("ipx"), and IPv6 networking ("inet6"). Following that is the name of the method used to configure the interface.

Additional options can be given on subsequent lines in the stanza. Which options are available depends on the family and method, as described below. Additional options can be made available by other Debian packages. For example, the wireless-tools package makes available a number of options pre‐ fixed with "wireless-" which can be used to configure the interface using iwconfig(8). (See wireless(7) for details.) A list of packages providing additional options is mentioned in the section "OPTIONS PROVIDED BY OTHER PACKAGE".

Options are usually indented for clarity (as in the example above) but are not required to be.

Multiple "iface" stanzas can be given for the same interface, in which case all of the configured addresses and options for that interface will be ap‐ plied when bringing up that interface. This is useful to configure both IPv4 and IPv6 addresses on the same interface (although if no inet6 stanza is present, the kernel will normally still perform stateless address autoconfiguration if there is an IPv6 route advertisement daemon on the network). It can also be used to configure multiple addresses of the same type on a single interface.

INTERFACE TEMPLATES

It is possible to define interface definition templates and extend them using the inherits keyword:

iface ethernet inet static
     mtu 1500
     hwaddress 11:22:33:44:55:66
iface eth0 inet static inherits ethernet
     address 192.168.1.2/24

This may be useful to separate link-level settings shared by multiple interfaces from, for example, IP address settings specific to every interface.

PATTERN MATCHING INTERFACES

It is possible to use patterns to match one or more real interfaces. These patterns can currently appear in lines beginning with "auto", "allow-", "rename" and on the command line. A pattern has the following format (see below for exceptions for GNU/Hurd):

[VARIABLE]/VALUE[/[OPTIONS]][=LOGICAL]

If no VARIABLE is given, this pattern will match interface names against the given VALUE. VALUE can contain wildcard patterns such as ? and *, see the fnmatch(3) function. When ifup or ifdown is run, patterns are replaces by all real interfaces that are currently known to the operating system kernel and whose names match the pattern. For example, given the following line:

auto /eth*

If the kernel knows about the interfaces with names lo, eth0 and eth1, then the above line is then interpreted as:

auto eth0 eth1

Note that there must still be valid "iface" stanzas for each matching interface. However, it is possible to combine a pattern with a mapping to a log‐ ical interface, like so:

auto /eth*=eth
iface eth inet dhcp

Valid variable names are "mac", in which case value is matched against the interface's MAC address. On Linux, the variable name can also be any file‐ name in /sys/class/net/<iface>/, in which case the value is matched against the contents of the corresponding file.

The OPTIONS field currently only supports a number. If given, only the n-th interface that has a matching value will actually be used, where n is the number given, starting at 1. So /eth*/1 will match the first interface whose name starts with eth.

On GNU/Hurd, interface names start with /dev/, and this obviously clashes with the format for patterns. To ensure an interface name like /dev/eth0 does not get interpreted as a pattern, any pattern that starts with /dev/ is ignored, and instead interpreted as a literal interface name. To make a pattern that matches interface names on GNU/Hurd, use something like:

auto /?dev?eth*=eth
iface eth inet dhcp

VLAN INTERFACES

To ease the configuration of VLAN interfaces, interfaces having . (full stop character) in the name are configured as 802.1q tagged virtual LAN inter‐ face. For example, interface eth0.1 is a virtual interface with VLAN ID 1 having eth0 as its parent interface.

VLAN interfaces are mostly treated as independent interfaces. As such, a VLAN interface is normally not automatically brought up when its parent in‐ terface is brought up. The exception is when ifup is called with the --allow option, in which case all VLAN interfaces that are in the same allow class as the parent interface are brought up together with the parent interface. For example:

allow-hotplug eth0 eth0.1
iface eth0 inet static
     address ...
iface eth0.1 inet static
     address ...
iface eth0.2 inet static
     address ...

In the above example, when "ifup --allow hotplug eth0" is called (either manually or because udev triggers this when a network device is hotplugged), the interface eth0 and the VLAN interface eth0.1 are brought up, but eth0.2 is not.

Keep in mind that pattern matching will only match interfaces the kernel knows about, so it is not possible to specify "auto /eth0.*" and have all VLAN interfaces for eth0 be brought up at boot time. Another way to ensure that a VLAN interface is brought up automatically when the parent interface is brought up, is to use a recursive call to ifup, like so:

iface eth0 inet manual
     up ifup eth0.3
iface eth0.3 inet static
     address ...

Note that there is no need to add an explicit call to ifdown, since VLAN interfaces are automatically brought down whenever their parent interfaces are

brought down.

IFACE OPTIONS

The following "command" options are available for every family and method. Each of these options can be given multiple times in a single stanza, in which case the commands are executed in the order in which they appear in the stanza. (You can ensure a command never fails by suffixing them with "|| true".)

pre-up command

Run command before bringing the interface up.  If this command fails then ifup aborts, refraining from  marking  the  interface  as  configured,
prints an error message, and exits with status 0.  This behavior may change in the future.

up command, post-up command

Run  command after bringing the interface up.  If this command fails then ifup aborts, refraining from marking the interface as configured (even
though it has really been configured), prints an error message, and exits with status 0.  This behavior may change in the future.

down command, pre-down command

Run command before taking the interface down.  If this command fails then ifdown aborts, marks the interface as deconfigured (even though it has
not really been deconfigured), and exits with status 0.  This behavior may change in the future.

post-down command

Run command after taking the interface down.  If this command fails then ifdown aborts, marks the interface as deconfigured, and exits with sta‐
tus 0.  This behavior may change in the future.

description name

Alias interface by name

HOOK SCRIPTS

There are four directories in which scripts can be placed which will always be run for any interface during certain phases of ifup and ifdown commands.

These are:
/etc/network/if-pre-up.d/
       Scripts in this directory are run before bringing the interface up.
/etc/network/if-up.d/
       Scripts in this directory are run after bringing the interface up.
/etc/network/if-down.d/
       Scripts in this directory are run before bringing the interface down.
/etc/network/if-post-down.d/
       Scripts in this directory are run after bringing the interface down.

The scripts in which are run (with no arguments) using run-parts(8) after the corresponding pre-up, up, down and post-down options in the /etc/net‐ work/interfaces file itself have been processed. Please note that as post-up and pre-down are aliases, no files in the corresponding directories are processed. Please use if-up.d and if-down.d directories instead.

ENVIRONMENT VARIABLES

All hook scripts, and the commands executed by pre-up, up, post-up, pre-down, down and post-down have access to the following environment variables:

IFACE  The physical name of the interface being processed, or "--all" (see below).
LOGICAL
       The logical name of the interface being processed, or "auto" (see below).
ADDRFAM
       The address family of the interface, or "meta" (see below).
METHOD The method of the interface (e.g., static), or "none" (see below).
CLASS  The class of interfaces being processed.  This is a copy of the value given to the --allow option when running ifup or ifdown, otherwise  it  is
       set to "auto" when the --all option is used.
MODE   start if run from ifup, stop if run from ifdown.
PHASE  As per MODE, but with finer granularity, distinguishing the pre-up, post-up, pre-down and post-down phases.
VERBOSITY
       Indicates whether --verbose was used; set to 1 if so, 0 if not.
PATH   The command search path: /usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
Additionally,  all  options given in an interface definition stanza are exported to the environment in upper case with "IF_" prepended and with hyphens
converted to underscores and non-alphanumeric characters discarded.
When ifupdown is being called with the --all option, before doing anything to interfaces, it calls all the hook scripts (pre-up or down) with IFACE set
to "--all", LOGICAL set to the current value of --allow parameter (or "auto" if it's not set), ADDRFAM="meta" and METHOD="none".  After all the  inter‐
faces have been brought up or taken down, the appropriate scripts (up or post-down) are executed.

CONCURRENCY AND PARALLEL EXECUTION

Ifupdown uses per-interface locking to ensure that concurrent ifup and ifdown calls to the same interface are run in serial. However, calls to differ‐ ent interfaces will be able to run in parallel. It is therefore important that any hook scripts and pre-up, up, down and post-down commands are writ‐ ten with the possibility of parallel execution in mind.

It is allowed to recursively call ifup and ifdown from hook scripts and interface commands, as long as these calls refer to a different interface than the one that is already being (de)configured. Loops are detected and will result in the call failing instead of a deadlock, although it is best if one does not rely on that.

OPTIONS PROVIDED BY OTHER PACKAGES

This manual page documents the configuration options provided by the ifupdown package. However, other packages can make other options available for use in /etc/network/interfaces. Here is a list of packages that provide such extensions:

arping, avahi-autoipd, avahi-daemon, bind9, bridge-utils, clamav-freshclam, controlaula, epoptes-client, ethtool, guidedog, hostap-utils, hostapd, htp‐ date, ifenslave, ifmetric, ifupdown-extra, ifupdown-multi, ifupdown-scripts-zg2, initscripts, isatapd, linux-wlan-ng, lprng, macchanger, miredo, nslcd, ntpdate, openntpd, openresolv, openssh-server, openvpn, openvswitch-switch, postfix, resolvconf, sendmail-base, shorewall-init, slrn, slrnpull, tinc, ucarp, uml-utilities, uruk, vde2, vlan, vzctl, whereami, wide-dhcpv6-client, wireless-tools, wpasupplicant.

Please consult the documentation of those packages for information about how they extend ifupdown.

INET ADDRESS FAMILY

This section documents the methods available in the inet address family.

The loopback Method

This method may be used to define the IPv4 loopback interface.
Options
       (No options)

The static Method

This method may be used to define Ethernet interfaces with statically allocated IPv4 addresses.
Options
       address address
              Address (dotted quad/netmask) required
       netmask mask
              Netmask (dotted quad or number of bits) deprecated
       broadcast broadcast_address
              Broadcast address (dotted quad, + or -) deprecated. Default value: "+"
       metric metric
              Routing metric for default gateway (integer)
       gateway address
              Default gateway (dotted quad)
       pointopoint address
              Address of other end point (dotted quad). Note the spelling of "point-to".
       hwaddress address
              Link local address or "random".
       mtu size
              MTU size
       scope  Address validity scope. Possible values: global, link, host

The manual Method

This  method  may be used to define interfaces for which no configuration is done by default. Such interfaces can be configured manually by means of up
and down commands or /etc/network/if-*.d scripts.
Options
       hwaddress address
              Link local address or "random".
       mtu size
              MTU size

The dhcp Method

This method may be used to obtain an address via DHCP with any of the tools: dhclient, udhcpc, dhcpcd. (They have been listed in their order of  prece‐
dence.)  If you have a complicated DHCP setup you should note that some of these clients use their own configuration files and do not obtain their con‐
figuration information via ifup.
Options
       hostname hostname
              Hostname to be requested (dhcpcd, udhcpc)
       metric metric
              Metric for added routes (dhclient)
       leasetime leasetime
              Preferred lease time in seconds (dhcpcd)
       vendor vendor_id
              Vendor class identifier (dhcpcd)
       client client_id
              Client identifier (dhcpcd), or "no" (dhclient)
       hwaddress address
              Hardware address.

The bootp Method

This method may be used to obtain an address via bootp.
Options
       bootfile file
              Tell the server to use file as the bootfile.
       server address
              Use the IP address address to communicate with the server.
       hwaddr addr
              Use addr as the hardware address instead of whatever it really is.

The tunnel Method

This method is used to create GRE or IPIP tunnels. You need to have the ip binary from the iproute package. For GRE tunnels, you will need to load  the
ip_gre module and the ipip module for IPIP tunnels.
Options
       address address
              Local address (dotted quad) required
       mode type
              Tunnel type (either GRE or IPIP) required
       endpoint address
              Address of other tunnel endpoint required
       dstaddr address
              Remote address (remote address inside tunnel)
       local address
              Address of the local endpoint
       metric metric
              Routing metric for default gateway (integer)
       gateway address
              Default gateway
       ttl time
              TTL setting
       mtu size
              MTU size

The ppp Method

This method uses pon/poff to configure a PPP interface. See those commands for details.
Options
       provider name
              Use name as the provider (from /etc/ppp/peers).
       unit number
              Use number as the ppp unit number.
       options string
              Pass string as additional options to pon.

The wvdial Method

This method uses wvdial to configure a PPP interface. See that command for more details.
Options
       provider name
              Use name as the provider (from /etc/wvdial.conf).

The ipv4ll Method

This method uses avahi-autoipd to configure an interface with an IPv4 Link-Layer address (169.254.0.0/16 family). This method is also known as APIPA or
IPAC, and often colloquially referred to as "Zeroconf address".
Options
       (No options)

IPX ADDRESS FAMILY

This section documents the methods available in the ipx address family.

The static Method

This method may be used to setup an IPX interface. It requires the ipx_interface command.
Options
       frame type
              type of Ethernet frames to use (e.g. 802.2)
       netnum id
              Network number

The dynamic Method

This method may be used to setup an IPX interface dynamically.
Options
       frame type
              type of Ethernet frames to use (e.g. 802.2)

INET6 ADDRESS FAMILY

This section documents the methods available in the inet6 address family.

The auto Method

This  method  may be used to define interfaces with automatically assigned IPv6 addresses. Using this method on its own doesn't mean that RDNSS options
will be applied, too. To make this happen, rdnssd daemon must be installed, properly configured and running. If stateless DHCPv6 support is turned  on,
then  additional  network  configuration  parameters  such as DNS and NTP servers will be retrieved from a DHCP server. Please note that on ifdown, the
lease is not currently released (a known bug).
Options
       privext int
              Privacy extensions (RFC4941) (0=off, 1=assign, 2=prefer)
       accept_ra int
              Accept router advertisements (0=off, 1=on, 2=on+forwarding). Default value: "2"
       dhcp int
              Use stateless DHCPv6 (0=off, 1=on)
       request_prefix int
              Request a prefix through DHCPv6 Prefix Delegation (0=off, 1=on). Default value: "0"
       ll-attempts
              Number of attempts to wait for a link-local address. Default value: "60"
       ll-interval
              Link-local address polling interval in seconds. Default value: "0.1"

The loopback Method

This method may be used to define the IPv6 loopback interface.
Options
       (No options)

The static Method

This method may be used to define interfaces with statically assigned IPv6 addresses. By default, stateless autoconfiguration is disabled for this  in‐
terface.
Options
       address address
              Address (colon delimited/netmask) required
       netmask mask
              Netmask (number of bits, eg 64) deprecated
       metric metric
              Routing metric for default gateway (integer)
       gateway address
              Default gateway (colon delimited)
       media type
              Medium type, driver dependent
       hwaddress address
              Hardware address or "random"
       mtu size
              MTU size
       accept_ra int
              Accept router advertisements (0=off, 1=on, 2=on+forwarding)
       autoconf int
              Perform stateless autoconfiguration (0=off, 1=on). Default value: "0"
       privext int
              Privacy extensions (RFC3041) (0=off, 1=assign, 2=prefer)
       scope  Address validity scope. Possible values: global, site, link, host
       preferred-lifetime int
              Time that address remains preferred
       dad-attempts
              Number of attempts to settle DAD (0 to disable DAD). Default value: "60"
       dad-interval
              DAD state polling interval in seconds. Default value: "0.1"

The manual Method

This  method  may be used to define interfaces for which no configuration is done by default. Such interfaces can be configured manually by means of up
and down commands or /etc/network/if-*.d scripts.
Options
       hwaddress address
              Hardware address or "random"
       mtu size
              MTU size

The dhcp Method

This method may be used to obtain network interface configuration via stateful DHCPv6 with dhclient. In stateful DHCPv6, the DHCP server is responsible
for assigning addresses to clients.
Options
       hwaddress address
              Hardware address or "random"
       accept_ra int
              Accept router advertisements (0=off, 1=on, 2=on+forwarding). Default value: "1"
       autoconf int
              Perform stateless autoconfiguration (0=off, 1=on)
       request_prefix int
              Request a prefix through DHCPv6 Prefix Delegation (0=off, 1=on). Default value: "0"
       ll-attempts
              Number of attempts to wait for a link-local address. Default value: "60"
       ll-interval
              Link-local address polling interval in seconds. Default value: "0.1"

The tunnel Method

This method is used to create IP6GRE, IP6IP6 or IPIP6 tunnels. You need to have the ip binary from the iproute package. For IP6GRE  tunnels,  you  will
need to load the ip6_gre module and the ip6_tunnel module for IP6IP6 or IPIP6 tunnels.
Options
       address address
              Local Address (colon delimited)
       netmask mask
              Netmask (number of bits, eg 64)
       mode type
              Tunnel type (either IP6GRE, IP6IP6 or IPIP6) required
       endpoint address
              Address of other tunnel endpoint (colon delimited) required
       dstaddr address
              Remote address (remote address inside tunnel)
       local address
              Address of the local endpoint (colon delimited)
       metric metric
              Routing metric for default gateway (integer)
       gateway address
              Default gateway (colon delimited)
       ttl time
              TTL setting
       mtu size
              MTU size
       encaplimit limit
              Encapsulation limit ("none" or integer)

The v4tunnel Method

This method may be used to setup an IPv6-over-IPv4 tunnel. It requires the ip command from the iproute package.
Options
       address address
              Address (colon delimited/netmask) required
       netmask mask
              Netmask (number of bits, eg 64) deprecated
       endpoint address
              Address of other tunnel endpoint (IPv4 dotted quad) required
       local address
              Address of the local endpoint (IPv4 dotted quad)
       metric metric
              Routing metric for default gateway (integer)
       gateway address
              Default gateway (colon delimited)
       ttl time
              TTL setting
       mtu size
              MTU size
       preferred-lifetime int
              Time that address remains preferred

The 6to4 Method

This method may be used to setup a 6to4 tunnel. It requires the ip command from the iproute package.
Options
       local address
              Address of the local endpoint (IPv4 dotted quad) required
       metric metric
              Routing metric for default gateway (integer)
       ttl time
              TTL setting
       mtu size
              MTU size
       preferred-lifetime int
              Time that address remains preferred

CAN ADDRESS FAMILY

This section documents the methods available in the can address family.

The static Method

This method may be used to setup a Controller Area Network (CAN) interface. It requires the the ip command from the iproute package.
Options
       bitrate bitrate
              bitrate (1..1000000) required
       samplepoint samplepoint
              sample point (0.000..0.999)
       loopback loopback
              loop back CAN Messages (on|off)
       listenonly listenonly
              listen only mode (on|off)
       triple triple
              activate triple sampling (on|off)
       oneshot oneshot
              one shot mode (on|off)
       berr berr
              activate berr reporting (on|off)
       restart-ms restart-ms
              restart-ms (0..)

KNOWN BUGS/LIMITATIONS

The ifup and ifdown programs work with so-called "physical" interface names.  These names are assigned to hardware by the kernel.  Unfortunately it can
happen  that  the  kernel  assigns different physical interface names to the same hardware at different times; for example, what was called "eth0" last
time you booted is now called "eth1" and vice versa.  This creates a problem if you want to configure the interfaces appropriately.  A way to deal with
this problem is to use mapping scripts that choose logical interface names according to the properties of the interface hardware.  See the  get-mac-ad‐
dress.sh script in the examples directory for an example of such a mapping script.  See also Debian bug #101728.

AUTHOR

The ifupdown suite was written by Anthony Towns <aj@azure.humbug.org.au>.  This manpage was contributed by Joey Hess <joey@kitenet.net>.

SEE ALSO

ifup(8), ip(8), ifconfig(8), run-parts(8), resolvconf(8).
For  advice  on  configuring  this  package  read  the  Network  Configuration  chapter  of  the  Debian  Reference manual, available at http://www.de‐
bian.org/doc/manuals/debian-reference/ch05.en.html or in the debian-reference-en package.
Examples of how to set up interfaces can be found in /usr/share/doc/ifupdown/examples/network-interfaces.gz.

ifupdown 24 July 2017 INTERFACES(5)