180 lines
5.6 KiB
C
180 lines
5.6 KiB
C
/* $NetBSD: in_var.h,v 1.1.1.1 1999/12/11 22:24:08 veego Exp $ */
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/* @(#)in_var.h 1.3 88/08/19 SMI; from UCB 7.1 6/5/86 */
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/*
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* Copyright (c) 1985, 1986 Regents of the University of California.
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* All rights reserved. The Berkeley software License Agreement
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* specifies the terms and conditions for redistribution.
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*/
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/*
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* Interface address, Internet version. One of these structures
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* is allocated for each interface with an Internet address.
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* The ifaddr structure contains the protocol-independent part
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* of the structure and is assumed to be first.
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*/
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#ifndef _netinet_in_var_h
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#define _netinet_in_var_h
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struct in_ifaddr {
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struct ifaddr ia_ifa; /* protocol-independent info */
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#define ia_addr ia_ifa.ifa_addr
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#define ia_broadaddr ia_ifa.ifa_broadaddr
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#define ia_dstaddr ia_ifa.ifa_dstaddr
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#define ia_ifp ia_ifa.ifa_ifp
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u_long ia_net; /* network number of interface */
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u_long ia_netmask; /* mask of net part */
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u_long ia_subnet; /* subnet number, including net */
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u_long ia_subnetmask; /* mask of net + subnet */
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struct in_addr ia_netbroadcast; /* broadcast addr for (logical) net */
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int ia_flags;
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struct in_ifaddr *ia_next; /* next in list of internet addresses */
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struct in_multi *ia_multiaddrs;/* list of multicast addresses */
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};
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/*
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* Given a pointer to an in_ifaddr (ifaddr),
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* return a pointer to the addr as a sockadd_in.
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*/
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#define IA_SIN(ia) ((struct sockaddr_in *)(&((struct in_ifaddr *)ia)->ia_addr))
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/*
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* ia_flags
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*/
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#define IFA_ROUTE 0x01 /* routing entry installed */
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#ifdef KERNEL
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struct in_ifaddr *in_ifaddr;
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struct in_ifaddr *in_iaonnetof();
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struct ifqueue ipintrq; /* ip packet input queue */
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#endif
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#ifdef KERNEL
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/*
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* Macro for finding the interface (ifnet structure) corresponding to one
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* of our IP addresses.
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*/
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#define INADDR_TO_IFP(addr, ifp) \
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/* struct in_addr addr; */ \
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/* struct ifnet *ifp; */ \
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{ \
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register struct in_ifaddr *ia; \
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\
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for (ia = in_ifaddr; \
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ia != NULL && IA_SIN(ia)->sin_addr.s_addr != (addr).s_addr; \
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ia = ia->ia_next); \
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(ifp) = (ia == NULL) ? NULL : ia->ia_ifp; \
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}
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/*
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* Macro for finding the internet address structure (in_ifaddr) corresponding
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* to a given interface (ifnet structure).
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*/
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#define IFP_TO_IA(ifp, ia) \
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/* struct ifnet *ifp; */ \
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/* struct in_ifaddr *ia; */ \
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{ \
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for ((ia) = in_ifaddr; \
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(ia) != NULL && (ia)->ia_ifp != (ifp); \
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(ia) = (ia)->ia_next); \
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}
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#endif KERNEL
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/*
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* Per-interface router version information is kept in this list.
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* This information should be part of the ifnet structure but we don't wish
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* to change that - as it might break a number of things
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*/
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struct router_info {
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struct ifnet *ifp;
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int type; /* type of router which is querier on this interface */
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int time; /* # of slow timeouts since last old query */
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struct router_info *next;
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};
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/*
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* Internet multicast address structure. There is one of these for each IP
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* multicast group to which this host belongs on a given network interface.
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* They are kept in a linked list, rooted in the interface's in_ifaddr
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* structure.
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*/
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struct in_multi {
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struct in_addr inm_addr; /* IP multicast address */
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struct ifnet *inm_ifp; /* back pointer to ifnet */
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struct in_ifaddr *inm_ia; /* back pointer to in_ifaddr */
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u_int inm_refcount;/* no. membership claims by sockets */
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u_int inm_timer; /* IGMP membership report timer */
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struct in_multi *inm_next; /* ptr to next multicast address */
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u_int inm_state; /* state of the membership */
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struct router_info *inm_rti; /* router info*/
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};
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#ifdef KERNEL
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/*
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* Structure used by macros below to remember position when stepping through
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* all of the in_multi records.
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*/
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struct in_multistep {
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struct in_ifaddr *i_ia;
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struct in_multi *i_inm;
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};
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/*
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* Macro for looking up the in_multi record for a given IP multicast address
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* on a given interface. If no matching record is found, "inm" returns NULL.
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*/
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#define IN_LOOKUP_MULTI(addr, ifp, inm) \
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/* struct in_addr addr; */ \
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/* struct ifnet *ifp; */ \
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/* struct in_multi *inm; */ \
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{ \
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register struct in_ifaddr *ia; \
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\
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IFP_TO_IA((ifp), ia); \
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if (ia == NULL) \
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(inm) = NULL; \
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else \
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for ((inm) = ia->ia_multiaddrs; \
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(inm) != NULL && (inm)->inm_addr.s_addr != (addr).s_addr; \
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(inm) = inm->inm_next); \
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}
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/*
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* Macro to step through all of the in_multi records, one at a time.
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* The current position is remembered in "step", which the caller must
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* provide. IN_FIRST_MULTI(), below, must be called to initialize "step"
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* and get the first record. Both macros return a NULL "inm" when there
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* are no remaining records.
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*/
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#define IN_NEXT_MULTI(step, inm) \
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/* struct in_multistep step; */ \
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/* struct in_multi *inm; */ \
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{ \
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if (((inm) = (step).i_inm) != NULL) { \
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(step).i_inm = (inm)->inm_next; \
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} \
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else while ((step).i_ia != NULL) { \
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(inm) = (step).i_ia->ia_multiaddrs; \
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(step).i_ia = (step).i_ia->ia_next; \
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if ((inm) != NULL) { \
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(step).i_inm = (inm)->inm_next; \
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break; \
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} \
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} \
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}
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#define IN_FIRST_MULTI(step, inm) \
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/* struct in_multistep step; */ \
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/* struct in_multi *inm; */ \
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{ \
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(step).i_ia = in_ifaddr; \
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(step).i_inm = NULL; \
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IN_NEXT_MULTI((step), (inm)); \
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}
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struct in_multi *in_addmulti();
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#endif KERNEL
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#endif /*!_netinet_in_var_h*/
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