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IPV6(7)			   Linux Programmer's Manual		       IPV6(7)

NAME
       ipv6, AF_INET6 - Linux IPv6 protocol implementation

SYNOPSIS
       #include <sys/socket.h>
       #include <netinet/in.h>

       tcp6_socket = socket(AF_INET6, SOCK_STREAM, 0);
       raw6_socket = socket(AF_INET6, SOCK_RAW, protocol);
       udp6_socket = socket(AF_INET6, SOCK_DGRAM, protocol);

DESCRIPTION
       Linux 2.2 optionally implements the Internet Protocol, version 6.  This
       man page contains a description of the IPv6 basic API as implemented by
       the  Linux  kernel  and	glibc  2.1.  The interface is based on the BSD
       sockets interface; see socket(7).

       The IPv6 API aims to be	mostly	compatible  with  the  IPv4  API  (see
       ip(7)).	Only differences are described in this man page.

       To  bind an AF_INET6 socket to any process, the local address should be
       copied from the in6addr_any  variable  which  has  in6_addr  type.   In
       static  initializations,	 IN6ADDR_ANY_INIT  may	also  be  used,	 which
       expands to a constant expression.  Both of them	are  in	 network  byte
       order.

       The   IPv6   loopback   address	 (::1)	is  available  in  the	global
       in6addr_loopback variable.  For initializations,	 IN6ADDR_LOOPBACK_INIT
       should be used.

       IPv4 connections can be handled with the v6 API by using the v4-mapped-
       on-v6 address type; thus a program only needs to support this API  type
       to  support  both  protocols.   This  is	 handled  transparently by the
       address handling functions in the C library.

       IPv4 and IPv6 share the local port space.  When you get an IPv4 connec‐
       tion  or	 packet to a IPv6 socket, its source address will be mapped to
       v6 and it will be mapped to v6.

   Address Format
	   struct sockaddr_in6 {
	       sa_family_t     sin6_family;   /* AF_INET6 */
	       in_port_t       sin6_port;     /* port number */
	       uint32_t	       sin6_flowinfo; /* IPv6 flow information */
	       struct in6_addr sin6_addr;     /* IPv6 address */
	       uint32_t	       sin6_scope_id; /* Scope ID (new in 2.4) */
	   };

	   struct in6_addr {
	       unsigned char   s6_addr[16];   /* IPv6 address */
	   };

       sin6_family is always set to AF_INET6; sin6_port is the	protocol  port
       (see  sin_port  in  ip(7));  sin6_flowinfo is the IPv6 flow identifier;
       sin6_addr is the 128-bit IPv6 address.  sin6_scope_id is an ID  depend‐
       ing  on	the scope of the address.  It is new in Linux 2.4.  Linux only
       supports it for link scope addresses, in that case  sin6_scope_id  con‐
       tains the interface index (see netdevice(7))

       IPv6  supports several address types: unicast to address a single host,
       multicast to address a group of hosts, anycast to address  the  nearest
       member  of a group of hosts (not implemented in Linux), IPv4-on-IPv6 to
       address a IPv4 host, and other reserved address types.

       The address notation for IPv6 is a group of 8 4-digit hexadecimal  num‐
       bers,  separated with a ':'.  "::" stands for a string of 0 bits.  Spe‐
       cial addresses are ::1  for  loopback  and  ::FFFF:<IPv4	 address>  for
       IPv4-mapped-on-IPv6.

       The port space of IPv6 is shared with IPv4.

   Socket Options
       IPv6  supports  some  protocol-specific	socket options that can be set
       with setsockopt(2) and read  with  getsockopt(2).   The	socket	option
       level for IPv6 is IPPROTO_IPV6.	A boolean integer flag is zero when it
       is false, otherwise true.

       IPV6_ADDRFORM
	      Turn an AF_INET6 socket into a socket  of	 a  different  address
	      family.	Only  AF_INET  is currently supported for that.	 It is
	      only allowed for IPv6 sockets that are connected and bound to  a
	      v4-mapped-on-v6  address.	 The argument is a pointer to an inte‐
	      ger containing AF_INET.  This is useful to pass v4-mapped	 sock‐
	      ets  as file descriptors to programs that don't know how to deal
	      with the IPv6 API.

       IPV6_ADD_MEMBERSHIP, IPV6_DROP_MEMBERSHIP
	      Control membership in multicast groups.  Argument is  a  pointer
	      to a struct ipv6_mreq structure.

       IPV6_MTU
	      Set  the	MTU  to be used for the socket.	 The MTU is limited by
	      the device MTU or the  path  MTU	when  path  MTU	 discovery  is
	      enabled.	Argument is a pointer to integer.

       IPV6_MTU_DISCOVER
	      Control  path-MTU	 discovery on the socket.  See IP_MTU_DISCOVER
	      in ip(7) for details.

       IPV6_MULTICAST_HOPS
	      Set the multicast hop limit  for	the  socket.   Argument	 is  a
	      pointer  to  an  integer.	  -1  in the value means use the route
	      default, otherwise it should be between 0 and 255.

       IPV6_MULTICAST_IF
	      Set the device for outgoing multicast  packets  on  the  socket.
	      This  is	only  allowed for SOCK_DGRAM and SOCK_RAW socket.  The
	      argument is a pointer to an interface index  (see	 netdevice(7))
	      in an integer.

       IPV6_MULTICAST_LOOP
	      Control  whether	the  socket sees multicast packets that it has
	      send itself.  Argument is a pointer to boolean.

       IPV6_PKTINFO
	      Set delivery of the IPV6_PKTINFO	control	 message  on  incoming
	      datagrams.   Only	 allowed  for  SOCK_DGRAM or SOCK_RAW sockets.
	      Argument is a pointer to a boolean value in an integer.

       IPV6_RTHDR, IPV6_AUTHHDR,  IPV6_DSTOPTS,	 IPV6_HOPOPTS,	IPV6_FLOWINFO,
       IPV6_HOPLIMIT
	      Set delivery of control messages for incoming datagrams contain‐
	      ing extension headers from the received packet.  IPV6_RTHDR  de‐
	      livers the routing header, IPV6_AUTHHDR delivers the authentica‐
	      tion header,  IPV6_DSTOPTS  delivers  the	 destination  options,
	      IPV6_HOPOPTS delivers the hop options, IPV6_FLOWINFO delivers an
	      integer containing the flow ID, IPV6_HOPLIMIT delivers an	 inte‐
	      ger  containing  the  hop count of the packet.  The control mes‐
	      sages have the same type as the socket option.  All these header
	      options  can also be set for outgoing packets by putting the ap‐
	      propriate control message into the control buffer of sendmsg(2).
	      Only  allowed for SOCK_DGRAM or SOCK_RAW sockets.	 Argument is a
	      pointer to a boolean value.

       IPV6_RECVERR
	      Control receiving of asynchronous error options.	See IP_RECVERR
	      in ip(7) for details.  Argument is a pointer to boolean.

       IPV6_ROUTER_ALERT
	      Pass  forwarded packets containing a router alert hop-by-hop op‐
	      tion to this socket.  Only allowed for  SOCK_RAW	sockets.   The
	      tapped packets are not forwarded by the kernel, it is the user's
	      responsibility to send them out again.  Argument is a pointer to
	      an  integer.  A positive integer indicates a router alert option
	      value to intercept.  Packets carrying a router alert option with
	      a	 value	field containing this integer will be delivered to the
	      socket.  A negative integer disables delivery  of	 packets  with
	      router alert options to this socket.

       IPV6_UNICAST_HOPS
	      Set the unicast hop limit for the socket.	 Argument is a pointer
	      to an integer.  -1 in the value means  use  the  route  default,
	      otherwise it should be between 0 and 255.

       IPV6_V6ONLY (since Linux 2.4.21 and 2.6)
	      If  this	flag  is set to true (nonzero), then the socket is re‐
	      stricted to sending and receiving IPv6 packets  only.   In  this
	      case,  an IPv4 and an IPv6 application can bind to a single port
	      at the same time.

	      If this flag is set to false (zero), then the socket can be used
	      to  send	and  receive packets to and from an IPv6 address or an
	      IPv4-mapped IPv6 address.

	      The argument is a pointer to a boolean value in an integer.

	      The default value for this flag is defined by  the  contents  of
	      the  file	 /proc/sys/net/ipv6/bindv6only.	 The default value for
	      that file is 0 (false).

VERSIONS
       The older libinet6 libc5 based IPv6 API implementation for Linux is not
       described here and may vary in details.

       Linux  2.4  will	 break	binary	compatibility for the sockaddr_in6 for
       64-bit hosts by changing the alignment of in6_addr and adding an	 addi‐
       tional sin6_scope_id field.  The kernel interfaces stay compatible, but
       a program including sockaddr_in6 or in6_addr into other structures  may
       not be.	This is not a problem for 32-bit hosts like i386.

       The  sin6_flowinfo  field  is  new  in  Linux 2.4.  It is transparently
       passed/read by the kernel when the passed address length	 contains  it.
       Some programs that pass a longer address buffer and then check the out‐
       going address length may break.

NOTES
       The sockaddr_in6 structure is bigger than the generic  sockaddr.	  Pro‐
       grams  that  assume  that  all  address types can be stored safely in a
       struct sockaddr need to be changed to use struct	 sockaddr_storage  for
       that instead.

BUGS
       The  IPv6  extended  API as in RFC 2292 is currently only partly imple‐
       mented; although the 2.2 kernel has near complete support for receiving
       options,	 the  macros  for generating IPv6 options are missing in glibc
       2.1.

       IPSec support for EH and AH headers is missing.

       Flow label management is not complete and not documented here.

       This man page is not complete.

SEE ALSO
       cmsg(3), ip(7)

       RFC 2553: IPv6 BASIC API.  Linux tries to be compliant to this.

       RFC 2460: IPv6 specification.

COLOPHON
       This page is part of release 3.35 of the Linux  man-pages  project.   A
       description  of	the project, and information about reporting bugs, can
       be found at http://man7.org/linux/man-pages/.

Linux				  2011-09-08			       IPV6(7)
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