man/man8/ip-address.8.in - pub/scm/linux/kernel/git/toke/iproute2 - Git at Google

 .TH "IP\-ADDRESS" 8 "20 Dec 2011" "iproute2" "Linux"
 .SH "NAME"
 ip-address \- protocol address management
 .SH "SYNOPSIS"
 .sp
 .ad l
 .in +8
 .ti -8
 .B ip
 .RI "[ " OPTIONS " ]"
 .B address
 .RI " { " COMMAND " | "
 .BR help " }"
 .sp

 .ti -8
 .BR "ip address" " { " add " | " change " | " replace " } "
 .IB IFADDR " dev " IFNAME
 .RI "[ " LIFETIME " ] [ " CONFFLAG-LIST " ]"

 .ti -8
 .BR "ip address del"
 .IB IFADDR " dev " IFNAME " [ " mngtmpaddr " ]"

 .ti -8
 .BR "ip address" " { " save " | " flush " } [ " dev
 .IR IFNAME " ] [ "
 .B  scope
 .IR SCOPE-ID " ] [ "
 .B  metric
 .IR METRIC " ] [ "
 .B  to
 .IR PREFIX " ] [ " FLAG-LIST " ] [ "
 .B  label
 .IR PATTERN " ] [ " up " ]"

 .ti -8
 .BR "ip address" " [ " show  " [ " dev
 .IR IFNAME " ] [ "
 .B  scope
 .IR SCOPE-ID " ] [ "
 .B  to
 .IR PREFIX " ] [ " FLAG-LIST " ] [ "
 .B  label
 .IR PATTERN " ] [ "
 .B  master
 .IR DEVICE " ] [ "
 .B  type
 .IR TYPE " ] [ "
 .B vrf
 .IR NAME " ] [ "
 .BR up " ] ]"

 .ti -8
 .BR "ip address" " { " showdump " | " restore " }"

 .ti -8
 .IR IFADDR " := " PREFIX " | " ADDR
 .B  peer
 .IR PREFIX " [ "
 .B  broadcast
 .IR ADDR " ] [ "
 .B  anycast
 .IR ADDR " ] [ "
 .B  label
 .IR LABEL " ] [ "
 .B  scope
 .IR SCOPE-ID " ]"

 .ti -8
 .IR SCOPE-ID " := "
 .RB "[ " host " | " link " | " global " | "
 .IR NUMBER " ]"

 .ti -8
 .IR FLAG-LIST " := [ "  FLAG-LIST " ] " FLAG

 .ti -8
 .IR FLAG " := ["
 .RB [ - ] permanent " |"
 .RB [ - ] dynamic " |"
 .RB [ - ] secondary " |"
 .RB [ - ] primary " |"
 .RB [ - ] tentative " |"
 .RB [ - ] deprecated " |"
 .RB [ - ] dadfailed " |"
 .RB [ - ] temporary " |"
 .IR CONFFLAG-LIST " ]"

 .ti -8
 .IR CONFFLAG-LIST " := [ "  CONFFLAG-LIST " ] " CONFFLAG

 .ti -8
 .IR CONFFLAG " := "
 .RB "[ " home " | " mngtmpaddr " | " nodad " | " noprefixroute " | " autojoin " ]"

 .ti -8
 .IR LIFETIME " := [ "
 .BI valid_lft " LFT"
 .RB "] [ " preferred_lft
 .IR  LFT " ]"

 .ti -8
 .IR LFT " := [ "
 .BR forever " |"
 .IR SECONDS " ]"

 .ti -8
 .IR TYPE " := [ "
 .BR bridge " | "
 .BR bridge_slave " |"
 .BR bond " | "
 .BR bond_slave " |"
 .BR can " | "
 .BR dummy " | "
 .BR hsr " | "
 .BR ifb " | "
 .BR ipoib " |"
 .BR macvlan  " | "
 .BR macvtap  " | "
 .BR vcan " | "
 .BR veth " | "
 .BR vlan " | "
 .BR vxlan " |"
 .BR ip6tnl " |"
 .BR ipip " |"
 .BR sit " |"
 .BR gre " |"
 .BR gretap " |"
 .BR erspan " |"
 .BR ip6gre " |"
 .BR ip6gretap " |"
 .BR ip6erspan " |"
 .BR vti " |"
 .BR vrf " |"
 .BR nlmon " |"
 .BR ipvlan " |"
 .BR lowpan " |"
 .BR geneve " |"
 .BR macsec " ]"

 .SH "DESCRIPTION"
 The
 .B address
 is a protocol (IPv4 or IPv6) address attached
 to a network device. Each device must have at least one address
 to use the corresponding protocol. It is possible to have several
 different addresses attached to one device. These addresses are not
 discriminated, so that the term
 .B alias
 is not quite appropriate for them and we do not use it in this document.
 .sp
 The
 .B ip address
 command displays addresses and their properties, adds new addresses
 and deletes old ones.

 .SS ip address add - add new protocol address.

 .TP
 .BI dev " IFNAME "
 the name of the device to add the address to.

 .TP
 .BI local " ADDRESS " (default)
 the address of the interface. The format of the address depends
 on the protocol. It is a dotted quad for IP and a sequence of
 hexadecimal halfwords separated by colons for IPv6. The
 .I ADDRESS
 may be followed by a slash and a decimal number which encodes
 the network prefix length.

 .TP
 .BI peer " ADDRESS"
 the address of the remote endpoint for pointopoint interfaces.
 Again, the
 .I ADDRESS
 may be followed by a slash and a decimal number, encoding the network
 prefix length. If a peer address is specified, the local address
 cannot have a prefix length. The network prefix is associated
 with the peer rather than with the local address.

 .TP
 .BI broadcast " ADDRESS"
 the broadcast address on the interface.
 .sp
 It is possible to use the special symbols
 .B '+'
 and
 .B '-'
 instead of the broadcast address. In this case, the broadcast address
 is derived by setting/resetting the host bits of the interface prefix.

 .TP
 .BI label " LABEL"
 Each address may be tagged with a label string.
 In order to preserve compatibility with Linux-2.0 net aliases,
 this string must coincide with the name of the device or must be prefixed
 with the device name followed by colon.
 The maximum allowed total length of label is 15 characters.

 .TP
 .BI scope " SCOPE_VALUE"
 the scope of the area where this address is valid.
 The available scopes are listed in file
 .BR "@SYSCONFDIR@/rt_scopes" .
 Predefined scope values are:

 .in +8
 .B global
 - the address is globally valid.
 .sp
 .B site
 - (IPv6 only, deprecated) the address is site local, i.e. it is
 valid inside this site.
 .sp
 .B link
 - the address is link local, i.e. it is valid only on this device.
 .sp
 .B host
 - the address is valid only inside this host.
 .in -8

 .TP
 .BI metric " NUMBER"
 priority of prefix route associated with address.

 .TP
 .BI valid_lft " LFT"
 the valid lifetime of this address; see section 5.5.4 of
 RFC 4862. When it expires, the address is removed by the kernel.
 Defaults to
 .BR "forever" .

 .TP
 .BI preferred_lft " LFT"
 the preferred lifetime of this address; see section 5.5.4
 of RFC 4862. When it expires, the address is no longer used for new
 outgoing connections. Defaults to
 .BR "forever" .

 .TP
 .B home
 (IPv6 only) designates this address the "home address" as defined in
 RFC 6275.

 .TP
 .B mngtmpaddr
 (IPv6 only) make the kernel manage temporary addresses created from this one as
 template on behalf of Privacy Extensions (RFC3041). For this to become active,
 the \fBuse_tempaddr\fP sysctl setting has to be set to a value greater than
 zero.  The given address needs to have a prefix length of 64. This flag allows
 to use privacy extensions in a manually configured network, just like if
 stateless auto-configuration was active.

 .TP
 .B nodad
 (IPv6 only) do not perform Duplicate Address Detection (RFC 4862) when
 adding this address.

 .TP
 .B noprefixroute
 Do not automatically create a route for the network prefix of the added
 address, and don't search for one to delete when removing the address. Changing
 an address to add this flag will remove the automatically added prefix route,
 changing it to remove this flag will create the prefix route automatically.

 .TP
 .B autojoin
 Joining multicast groups on Ethernet level via
 .B "ip maddr"
 command does not work if connected to an Ethernet switch that does IGMP
 snooping since the switch would not replicate multicast packets on ports that
 did not have IGMP reports for the multicast addresses.

 Linux VXLAN interfaces created via
 .B "ip link add vxlan"
 have the
 .B group
 option that enables them to do the required join.

 Using the
 .B autojoin
 flag when adding a multicast address enables similar functionality for
 Openvswitch VXLAN interfaces as well as other tunneling mechanisms that need to
 receive multicast traffic.

 .SS ip address delete - delete protocol address
 .B Arguments:
 coincide with the arguments of
 .B ip addr add.
 The device name is a required argument. The rest are optional.
 If no arguments are given, the first address is deleted.

 .SS ip address show - look at protocol addresses

 .TP
 .BI dev " IFNAME " (default)
 name of device.

 .TP
 .BI scope " SCOPE_VAL"
 only list addresses with this scope.

 .TP
 .BI to " PREFIX"
 only list addresses matching this prefix.

 .TP
 .BI label " PATTERN"
 only list addresses with labels matching the
 .IR "PATTERN" .
 .I PATTERN
 is a usual shell style pattern.

 .TP
 .BI master " DEVICE"
 only list interfaces enslaved to this master device.

 .TP
 .BI vrf " NAME "
 only list interfaces enslaved to this vrf.

 .TP
 .BI type " TYPE"
 only list interfaces of the given type.

 Note that the type name is not checked against the list of supported types -
 instead it is sent as-is to the kernel. Later it is used to filter the returned
 interface list by comparing it with the relevant attribute in case the kernel
 didn't filter already. Therefore any string is accepted, but may lead to empty
 output.

 .TP
 .B up
 only list running interfaces.

 .TP
 .BR dynamic " and " permanent
 (IPv6 only) only list addresses installed due to stateless
 address configuration or only list permanent (not dynamic)
 addresses. These two flags are inverses of each other, so
 .BR -dynamic " is equal to " permanent " and "
 .BR -permanent " is equal to " dynamic .

 .TP
 .B tentative
 (IPv6 only) only list addresses which have not yet passed duplicate
 address detection.

 .TP
 .B -tentative
 (IPv6 only) only list addresses which are not in the process of
 duplicate address detection currently.

 .TP
 .B deprecated
 (IPv6 only) only list deprecated addresses.

 .TP
 .B -deprecated
 (IPv6 only) only list addresses not being deprecated.

 .TP
 .B dadfailed
 (IPv6 only) only list addresses which have failed duplicate
 address detection.

 .TP
 .B -dadfailed
 (IPv6 only) only list addresses which have not failed duplicate
 address detection.

 .TP
 .BR temporary " or " secondary
 List temporary IPv6 or secondary IPv4 addresses only. The Linux kernel shares a
 single bit for those, so they are actually aliases for each other although the
 meaning differs depending on address family.

 .TP
 .BR -temporary " or " -secondary
 These flags are aliases for
 .BR primary .

 .TP
 .B primary
 List only primary addresses, in IPv6 exclude temporary ones. This flag is the
 inverse of
 .BR temporary " and " secondary .

 .TP
 .B -primary
 This is an alias for
 .BR temporary " or " secondary .

 .SS ip address flush - flush protocol addresses
 This command flushes the protocol addresses selected by some criteria.

 .PP
 This command has the same arguments as
 .BR show " except that " type " and " master " selectors are not supported."
 Another difference is that it does not run when no arguments are given.

 .PP
 .B Warning:
 This command and other
 .B flush
 commands are unforgiving. They will cruelly purge all the addresses.

 .PP
 With the
 .B -statistics
 option, the command becomes verbose. It prints out the number of deleted
 addresses and the number of rounds made to flush the address list.
 If this option is given twice,
 .B ip address flush
 also dumps all the deleted addresses in the format described in the
 previous subsection.

 .SH "EXAMPLES"
 .PP
 ip address show
 .RS 4
 Shows IPv4 and IPv6 addresses assigned to all network interfaces. The 'show'
 subcommand can be omitted.
 .RE
 .PP
 ip address show up
 .RS 4
 Same as above except that only addresses assigned to active network interfaces
 are shown.
 .RE
 .PP
 ip address show dev eth0
 .RS 4
 Shows IPv4 and IPv6 addresses assigned to network interface eth0.
 .RE
 .PP
 ip address add 2001:0db8:85a3::0370:7334/64 dev eth1
 .RS 4
 Adds an IPv6 address to network interface eth1.
 .RE
 .PP
 ip address delete 2001:0db8:85a3::0370:7334/64 dev eth1
 .RS 4
 Delete the IPv6 address added above.
 .RE
 .PP
 ip address flush dev eth4 scope global
 .RS 4
 Removes all global IPv4 and IPv6 addresses from device eth4. Without 'scope
 global' it would remove all addresses including IPv6 link-local ones.
 .RE

 .SH SEE ALSO
 .br
 .BR ip (8)

 .SH AUTHOR
 Original Manpage by Michail Litvak <mci@owl.openwall.com>
	.TH "IP\-ADDRESS" 8 "20 Dec 2011" "iproute2" "Linux"
	.SH "NAME"
	ip-address \- protocol address management
	.SH "SYNOPSIS"
	.sp
	.ad l
	.in +8
	.ti -8
	.B ip
	.RI "[ " OPTIONS " ]"
	.B address
	.RI " { " COMMAND " \| "
	.BR help " }"
	.sp

	.ti -8
	.BR "ip address" " { " add " \| " change " \| " replace " } "
	.IB IFADDR " dev " IFNAME
	.RI "[ " LIFETIME " ] [ " CONFFLAG-LIST " ]"

	.ti -8
	.BR "ip address del"
	.IB IFADDR " dev " IFNAME " [ " mngtmpaddr " ]"

	.ti -8
	.BR "ip address" " { " save " \| " flush " } [ " dev
	.IR IFNAME " ] [ "
	.B scope
	.IR SCOPE-ID " ] [ "
	.B metric
	.IR METRIC " ] [ "
	.B to
	.IR PREFIX " ] [ " FLAG-LIST " ] [ "
	.B label
	.IR PATTERN " ] [ " up " ]"

	.ti -8
	.BR "ip address" " [ " show " [ " dev
	.IR IFNAME " ] [ "
	.B scope
	.IR SCOPE-ID " ] [ "
	.B to
	.IR PREFIX " ] [ " FLAG-LIST " ] [ "
	.B label
	.IR PATTERN " ] [ "
	.B master
	.IR DEVICE " ] [ "
	.B type
	.IR TYPE " ] [ "
	.B vrf
	.IR NAME " ] [ "
	.BR up " ] ]"

	.ti -8
	.BR "ip address" " { " showdump " \| " restore " }"

	.ti -8
	.IR IFADDR " := " PREFIX " \| " ADDR
	.B peer
	.IR PREFIX " [ "
	.B broadcast
	.IR ADDR " ] [ "
	.B anycast
	.IR ADDR " ] [ "
	.B label
	.IR LABEL " ] [ "
	.B scope
	.IR SCOPE-ID " ]"

	.ti -8
	.IR SCOPE-ID " := "
	.RB "[ " host " \| " link " \| " global " \| "
	.IR NUMBER " ]"

	.ti -8
	.IR FLAG-LIST " := [ " FLAG-LIST " ] " FLAG

	.ti -8
	.IR FLAG " := ["
	.RB [ - ] permanent " \|"
	.RB [ - ] dynamic " \|"
	.RB [ - ] secondary " \|"
	.RB [ - ] primary " \|"
	.RB [ - ] tentative " \|"
	.RB [ - ] deprecated " \|"
	.RB [ - ] dadfailed " \|"
	.RB [ - ] temporary " \|"
	.IR CONFFLAG-LIST " ]"

	.ti -8
	.IR CONFFLAG-LIST " := [ " CONFFLAG-LIST " ] " CONFFLAG

	.ti -8
	.IR CONFFLAG " := "
	.RB "[ " home " \| " mngtmpaddr " \| " nodad " \| " noprefixroute " \| " autojoin " ]"

	.ti -8
	.IR LIFETIME " := [ "
	.BI valid_lft " LFT"
	.RB "] [ " preferred_lft
	.IR LFT " ]"

	.ti -8
	.IR LFT " := [ "
	.BR forever " \|"
	.IR SECONDS " ]"

	.ti -8
	.IR TYPE " := [ "
	.BR bridge " \| "
	.BR bridge_slave " \|"
	.BR bond " \| "
	.BR bond_slave " \|"
	.BR can " \| "
	.BR dummy " \| "
	.BR hsr " \| "
	.BR ifb " \| "
	.BR ipoib " \|"
	.BR macvlan " \| "
	.BR macvtap " \| "
	.BR vcan " \| "
	.BR veth " \| "
	.BR vlan " \| "
	.BR vxlan " \|"
	.BR ip6tnl " \|"
	.BR ipip " \|"
	.BR sit " \|"
	.BR gre " \|"
	.BR gretap " \|"
	.BR erspan " \|"
	.BR ip6gre " \|"
	.BR ip6gretap " \|"
	.BR ip6erspan " \|"
	.BR vti " \|"
	.BR vrf " \|"
	.BR nlmon " \|"
	.BR ipvlan " \|"
	.BR lowpan " \|"
	.BR geneve " \|"
	.BR macsec " ]"

	.SH "DESCRIPTION"
	The
	.B address
	is a protocol (IPv4 or IPv6) address attached
	to a network device. Each device must have at least one address
	to use the corresponding protocol. It is possible to have several
	different addresses attached to one device. These addresses are not
	discriminated, so that the term
	.B alias
	is not quite appropriate for them and we do not use it in this document.
	.sp
	The
	.B ip address
	command displays addresses and their properties, adds new addresses
	and deletes old ones.

	.SS ip address add - add new protocol address.

	.TP
	.BI dev " IFNAME "
	the name of the device to add the address to.

	.TP
	.BI local " ADDRESS " (default)
	the address of the interface. The format of the address depends
	on the protocol. It is a dotted quad for IP and a sequence of
	hexadecimal halfwords separated by colons for IPv6. The
	.I ADDRESS
	may be followed by a slash and a decimal number which encodes
	the network prefix length.

	.TP
	.BI peer " ADDRESS"
	the address of the remote endpoint for pointopoint interfaces.
	Again, the
	.I ADDRESS
	may be followed by a slash and a decimal number, encoding the network
	prefix length. If a peer address is specified, the local address
	cannot have a prefix length. The network prefix is associated
	with the peer rather than with the local address.

	.TP
	.BI broadcast " ADDRESS"
	the broadcast address on the interface.
	.sp
	It is possible to use the special symbols
	.B '+'
	and
	.B '-'
	instead of the broadcast address. In this case, the broadcast address
	is derived by setting/resetting the host bits of the interface prefix.

	.TP
	.BI label " LABEL"
	Each address may be tagged with a label string.
	In order to preserve compatibility with Linux-2.0 net aliases,
	this string must coincide with the name of the device or must be prefixed
	with the device name followed by colon.
	The maximum allowed total length of label is 15 characters.

	.TP
	.BI scope " SCOPE_VALUE"
	the scope of the area where this address is valid.
	The available scopes are listed in file
	.BR "@SYSCONFDIR@/rt_scopes" .
	Predefined scope values are:

	.in +8
	.B global
	- the address is globally valid.
	.sp
	.B site
	- (IPv6 only, deprecated) the address is site local, i.e. it is
	valid inside this site.
	.sp
	.B link
	- the address is link local, i.e. it is valid only on this device.
	.sp
	.B host
	- the address is valid only inside this host.
	.in -8

	.TP
	.BI metric " NUMBER"
	priority of prefix route associated with address.

	.TP
	.BI valid_lft " LFT"
	the valid lifetime of this address; see section 5.5.4 of
	RFC 4862. When it expires, the address is removed by the kernel.
	Defaults to
	.BR "forever" .

	.TP
	.BI preferred_lft " LFT"
	the preferred lifetime of this address; see section 5.5.4
	of RFC 4862. When it expires, the address is no longer used for new
	outgoing connections. Defaults to
	.BR "forever" .

	.TP
	.B home
	(IPv6 only) designates this address the "home address" as defined in
	RFC 6275.

	.TP
	.B mngtmpaddr
	(IPv6 only) make the kernel manage temporary addresses created from this one as
	template on behalf of Privacy Extensions (RFC3041). For this to become active,
	the \fBuse_tempaddr\fP sysctl setting has to be set to a value greater than
	zero. The given address needs to have a prefix length of 64. This flag allows
	to use privacy extensions in a manually configured network, just like if
	stateless auto-configuration was active.

	.TP
	.B nodad
	(IPv6 only) do not perform Duplicate Address Detection (RFC 4862) when
	adding this address.

	.TP
	.B noprefixroute
	Do not automatically create a route for the network prefix of the added
	address, and don't search for one to delete when removing the address. Changing
	an address to add this flag will remove the automatically added prefix route,
	changing it to remove this flag will create the prefix route automatically.

	.TP
	.B autojoin
	Joining multicast groups on Ethernet level via
	.B "ip maddr"
	command does not work if connected to an Ethernet switch that does IGMP
	snooping since the switch would not replicate multicast packets on ports that
	did not have IGMP reports for the multicast addresses.

	Linux VXLAN interfaces created via
	.B "ip link add vxlan"
	have the
	.B group
	option that enables them to do the required join.

	Using the
	.B autojoin
	flag when adding a multicast address enables similar functionality for
	Openvswitch VXLAN interfaces as well as other tunneling mechanisms that need to
	receive multicast traffic.

	.SS ip address delete - delete protocol address
	.B Arguments:
	coincide with the arguments of
	.B ip addr add.
	The device name is a required argument. The rest are optional.
	If no arguments are given, the first address is deleted.

	.SS ip address show - look at protocol addresses

	.TP
	.BI dev " IFNAME " (default)
	name of device.

	.TP
	.BI scope " SCOPE_VAL"
	only list addresses with this scope.

	.TP
	.BI to " PREFIX"
	only list addresses matching this prefix.

	.TP
	.BI label " PATTERN"
	only list addresses with labels matching the
	.IR "PATTERN" .
	.I PATTERN
	is a usual shell style pattern.

	.TP
	.BI master " DEVICE"
	only list interfaces enslaved to this master device.

	.TP
	.BI vrf " NAME "
	only list interfaces enslaved to this vrf.

	.TP
	.BI type " TYPE"
	only list interfaces of the given type.

	Note that the type name is not checked against the list of supported types -
	instead it is sent as-is to the kernel. Later it is used to filter the returned
	interface list by comparing it with the relevant attribute in case the kernel
	didn't filter already. Therefore any string is accepted, but may lead to empty
	output.

	.TP
	.B up
	only list running interfaces.

	.TP
	.BR dynamic " and " permanent
	(IPv6 only) only list addresses installed due to stateless
	address configuration or only list permanent (not dynamic)
	addresses. These two flags are inverses of each other, so
	.BR -dynamic " is equal to " permanent " and "
	.BR -permanent " is equal to " dynamic .

	.TP
	.B tentative
	(IPv6 only) only list addresses which have not yet passed duplicate
	address detection.

	.TP
	.B -tentative
	(IPv6 only) only list addresses which are not in the process of
	duplicate address detection currently.

	.TP
	.B deprecated
	(IPv6 only) only list deprecated addresses.

	.TP
	.B -deprecated
	(IPv6 only) only list addresses not being deprecated.

	.TP
	.B dadfailed
	(IPv6 only) only list addresses which have failed duplicate
	address detection.

	.TP
	.B -dadfailed
	(IPv6 only) only list addresses which have not failed duplicate
	address detection.

	.TP
	.BR temporary " or " secondary
	List temporary IPv6 or secondary IPv4 addresses only. The Linux kernel shares a
	single bit for those, so they are actually aliases for each other although the
	meaning differs depending on address family.

	.TP
	.BR -temporary " or " -secondary
	These flags are aliases for
	.BR primary .

	.TP
	.B primary
	List only primary addresses, in IPv6 exclude temporary ones. This flag is the
	inverse of
	.BR temporary " and " secondary .

	.TP
	.B -primary
	This is an alias for
	.BR temporary " or " secondary .

	.SS ip address flush - flush protocol addresses
	This command flushes the protocol addresses selected by some criteria.

	.PP
	This command has the same arguments as
	.BR show " except that " type " and " master " selectors are not supported."
	Another difference is that it does not run when no arguments are given.

	.PP
	.B Warning:
	This command and other
	.B flush
	commands are unforgiving. They will cruelly purge all the addresses.

	.PP
	With the
	.B -statistics
	option, the command becomes verbose. It prints out the number of deleted
	addresses and the number of rounds made to flush the address list.
	If this option is given twice,
	.B ip address flush
	also dumps all the deleted addresses in the format described in the
	previous subsection.

	.SH "EXAMPLES"
	.PP
	ip address show
	.RS 4
	Shows IPv4 and IPv6 addresses assigned to all network interfaces. The 'show'
	subcommand can be omitted.
	.RE
	.PP
	ip address show up
	.RS 4
	Same as above except that only addresses assigned to active network interfaces
	are shown.
	.RE
	.PP
	ip address show dev eth0
	.RS 4
	Shows IPv4 and IPv6 addresses assigned to network interface eth0.
	.RE
	.PP
	ip address add 2001:0db8:85a3::0370:7334/64 dev eth1
	.RS 4
	Adds an IPv6 address to network interface eth1.
	.RE
	.PP
	ip address delete 2001:0db8:85a3::0370:7334/64 dev eth1
	.RS 4
	Delete the IPv6 address added above.
	.RE
	.PP
	ip address flush dev eth4 scope global
	.RS 4
	Removes all global IPv4 and IPv6 addresses from device eth4. Without 'scope
	global' it would remove all addresses including IPv6 link-local ones.
	.RE

	.SH SEE ALSO
	.br
	.BR ip (8)

	.SH AUTHOR
	Original Manpage by Michail Litvak <mci@owl.openwall.com>