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ICMP6(4)                 BSD Kernel Interfaces Manual                 ICMP6(4)

     icmp6 -- Internet Control Message Protocol for IPv6

     #include <&lt;sys/types.h>&gt;
     #include <&lt;sys/socket.h>&gt;
     #include <&lt;netinet/in.h>&gt;
     #include <&lt;netinet/icmp6.h>&gt;

     socket(AF_INET6, SOCK_RAW, proto);

     ICMPv6 is the error and control message protocol used by IPv6 and the
     Internet protocol family.  It may be accessed through a ``raw socket''
     for network monitoring and diagnostic functions.  The proto parameter to
     the socket call to create an ICMPv6 socket is obtained from
     getprotobyname(3), or you can use IPPROTO_ICMPV6.  ICMPv6 sockets are
     connectionless, and are normally used with the sendto(2) and recvfrom(2)
     calls, though the connect(2) call may also be used to fix the destination
     for future packets (in which case the read(2) or recv(2) and write(2) or
     send(2) system calls may be used).

     Outgoing packets automatically have an IPv6 header prepended to them
     (based on the destination address).  ICMPv6 pseudo header checksum field
     (icmp6_cksum) will be filled automatically by the kernel.  Incoming pack-
     ets are received without the IPv6 header nor IPv6 extension headers.
     Notice that this behavior is opposite from IPv4 raw sockets and.  ICMPv4

   ICMPv6 type/code filter
     Each ICMPv6 raw socket has an associated filter whose datatype is defined
     as struct icmp6_filter;

     This structure, along with the macros and constants defined later in this
     section, are defined as a result of including the <netinet/icmp6.h>

     The current filter is fetched and stored using getsockopt(2) and
     setsockopt(2) with a level of IPPROTO_ICMPV6 and an option name of

     Six macros operate on an icmp6_filter structure:

           void ICMP6_FILTER_SETPASSALL(struct icmp6_filter *filterp)

           void ICMP6_FILTER_SETBLOCKALL(struct icmp6_filter *filterp)

           void ICMP6_FILTER_SETPASS(int type, struct icmp6_filter *filterp)

           void ICMP6_FILTER_SETBLOCK(int type, struct icmp6_filter *filterp)

           int ICMP6_FILTER_WILLPASS(int type, const struct icmp6_filter

           int ICMP6_FILTER_WILLBLOCK(int type, const struct icmp6_filter

     The first argument to the last four macros (an integer) is an ICMPv6 mes-
     sage type, between 0 and 255.  The pointer argument to all six macros is
     a pointer to a filter that is modified by the first four macros examined
     by the last two macros.

     The first two macros, SETPASSALL and SETBLOCKALL, let us specify that all
     ICMPv6 messages are passed to the application or that all ICMPv6 messages
     are blocked from being passed to the application.

     The next two macros, SETPASS and SETBLOCK, let us specify that messages
     of a given ICMPv6 type should be passed to the application or not passed
     to the application (blocked).

     The final two macros, WILLPASS and WILLBLOCK, return true or false
     depending whether the specified message type is passed to the application
     or blocked from being passed to the application by the filter pointed to
     by the second argument.

     When an ICMPv6 raw socket is created, it will by default pass all ICMPv6
     message types to the application.

     For further discussions see RFC2292.

     A socket operation may fail with one of the following errors returned:

     [EISCONN]          when trying to establish a connection on a socket
                        which already has one, or when trying to send a data-
                        gram with the destination address specified and the
                        socket is already connected;

     [ENOTCONN]         when trying to send a datagram, but no destination
                        address is specified, and the socket hasn't been con-

     [ENOBUFS]          when the system runs out of memory for an internal
                        data structure;

     [EADDRNOTAVAIL]    when an attempt is made to create a socket with a net-
                        work address for which no network interface exists.

     recv(2), send(2), inet6(4), intro(4), ip6(4)

     W. Stevens and M. Thomas, Advanced Sockets API for IPv6, RFC, 2292,
     February 1998.

     A. Conta and S. Deering, Internet Control Message Protocol (ICMPv6) for
     the Internet Protocol Version 6 (IPv6) Specification, RFC, 2463, December

     The implementation is based on KAME stack (which is descendant of WIDE
     hydrangea IPv6 stack kit).

     Part of the document was shamelessly copied from RFC2292.

BSD                             March 13, 2000                             BSD