The Design and Implementation of the FreeBSD Operating System, Second Edition
Now available: The Design and Implementation of the FreeBSD Operating System (Second Edition)


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FreeBSD/Linux Kernel Cross Reference
sys/netinet/ip_var.h

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    1 /*      $NetBSD: ip_var.h,v 1.65 2003/12/12 21:17:59 scw Exp $  */
    2 
    3 /*
    4  * Copyright (c) 1982, 1986, 1993
    5  *      The Regents of the University of California.  All rights reserved.
    6  *
    7  * Redistribution and use in source and binary forms, with or without
    8  * modification, are permitted provided that the following conditions
    9  * are met:
   10  * 1. Redistributions of source code must retain the above copyright
   11  *    notice, this list of conditions and the following disclaimer.
   12  * 2. Redistributions in binary form must reproduce the above copyright
   13  *    notice, this list of conditions and the following disclaimer in the
   14  *    documentation and/or other materials provided with the distribution.
   15  * 3. Neither the name of the University nor the names of its contributors
   16  *    may be used to endorse or promote products derived from this software
   17  *    without specific prior written permission.
   18  *
   19  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
   20  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
   21  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
   22  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
   23  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
   24  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
   25  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
   26  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
   27  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
   28  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
   29  * SUCH DAMAGE.
   30  *
   31  *      @(#)ip_var.h    8.2 (Berkeley) 1/9/95
   32  */
   33 
   34 #ifndef _NETINET_IP_VAR_H_
   35 #define _NETINET_IP_VAR_H_
   36 
   37 #include <sys/queue.h>
   38 #include <net/route.h>
   39 
   40 /*
   41  * Overlay for ip header used by other protocols (tcp, udp).
   42  */
   43 struct ipovly {
   44         u_int8_t  ih_x1[9];             /* (unused) */
   45         u_int8_t  ih_pr;                /* protocol */
   46         u_int16_t ih_len;               /* protocol length */
   47         struct    in_addr ih_src;       /* source internet address */
   48         struct    in_addr ih_dst;       /* destination internet address */
   49 } __attribute__((__packed__));
   50 
   51 /*
   52  * Ip (reassembly or sequence) queue structures.
   53  *
   54  * XXX -- The following explains why the ipqe_m field is here, for TCP's use:
   55  * We want to avoid doing m_pullup on incoming packets but that
   56  * means avoiding dtom on the tcp reassembly code.  That in turn means
   57  * keeping an mbuf pointer in the reassembly queue (since we might
   58  * have a cluster).  As a quick hack, the source & destination
   59  * port numbers (which are no longer needed once we've located the
   60  * tcpcb) are overlayed with an mbuf pointer.
   61  */
   62 TAILQ_HEAD(ipqehead, ipqent);
   63 struct ipqent {
   64         TAILQ_ENTRY(ipqent) ipqe_q;
   65         union {
   66                 struct ip       *_ip;
   67                 struct tcpiphdr *_tcp;
   68         } _ipqe_u1;
   69         struct mbuf     *ipqe_m;        /* point to first mbuf */
   70         struct mbuf     *ipre_mlast;    /* point to last mbuf */
   71         u_int8_t        ipqe_mff;       /* for IP fragmentation */
   72         /*
   73          * The following are used in TCP reassembly
   74          */
   75         TAILQ_ENTRY(ipqent) ipqe_timeq;
   76         u_int32_t ipqe_seq;
   77         u_int32_t ipqe_len;
   78         u_int32_t ipqe_flags;
   79 };
   80 #define ipqe_ip         _ipqe_u1._ip
   81 #define ipqe_tcp        _ipqe_u1._tcp
   82 
   83 /*
   84  * Ip reassembly queue structure.  Each fragment
   85  * being reassembled is attached to one of these structures.
   86  * They are timed out after ipq_ttl drops to 0, and may also
   87  * be reclaimed if memory becomes tight.
   88  */
   89 struct ipq {
   90         LIST_ENTRY(ipq) ipq_q;          /* to other reass headers */
   91         u_int8_t  ipq_ttl;              /* time for reass q to live */
   92         u_int8_t  ipq_p;                /* protocol of this fragment */
   93         u_int16_t ipq_id;               /* sequence id for reassembly */
   94         struct    ipqehead ipq_fragq;   /* to ip fragment queue */
   95         struct    in_addr ipq_src, ipq_dst;
   96         u_int16_t ipq_nfrags;           /* frags in this queue entry */
   97 };
   98 
   99 /*
  100  * Structure stored in mbuf in inpcb.ip_options
  101  * and passed to ip_output when ip options are in use.
  102  * The actual length of the options (including ipopt_dst)
  103  * is in m_len.
  104  */
  105 #define MAX_IPOPTLEN    40
  106 
  107 struct ipoption {
  108         struct  in_addr ipopt_dst;      /* first-hop dst if source routed */
  109         int8_t  ipopt_list[MAX_IPOPTLEN];       /* options proper */
  110 };
  111 
  112 /*
  113  * Structure attached to inpcb.ip_moptions and
  114  * passed to ip_output when IP multicast options are in use.
  115  */
  116 struct ip_moptions {
  117         struct    ifnet *imo_multicast_ifp; /* ifp for outgoing multicasts */
  118         struct in_addr imo_multicast_addr; /* ifindex/addr on MULTICAST_IF */
  119         u_int8_t  imo_multicast_ttl;    /* TTL for outgoing multicasts */
  120         u_int8_t  imo_multicast_loop;   /* 1 => hear sends if a member */
  121         u_int16_t imo_num_memberships;  /* no. memberships this socket */
  122         struct    in_multi *imo_membership[IP_MAX_MEMBERSHIPS];
  123 };
  124 
  125 struct  ipstat {
  126         u_quad_t ips_total;             /* total packets received */
  127         u_quad_t ips_badsum;            /* checksum bad */
  128         u_quad_t ips_tooshort;          /* packet too short */
  129         u_quad_t ips_toosmall;          /* not enough data */
  130         u_quad_t ips_badhlen;           /* ip header length < data size */
  131         u_quad_t ips_badlen;            /* ip length < ip header length */
  132         u_quad_t ips_fragments;         /* fragments received */
  133         u_quad_t ips_fragdropped;       /* frags dropped (dups, out of space) */
  134         u_quad_t ips_fragtimeout;       /* fragments timed out */
  135         u_quad_t ips_forward;           /* packets forwarded */
  136         u_quad_t ips_fastforward;       /* packets fast forwarded */
  137         u_quad_t ips_cantforward;       /* packets rcvd for unreachable dest */
  138         u_quad_t ips_redirectsent;      /* packets forwarded on same net */
  139         u_quad_t ips_noproto;           /* unknown or unsupported protocol */
  140         u_quad_t ips_delivered;         /* datagrams delivered to upper level*/
  141         u_quad_t ips_localout;          /* total ip packets generated here */
  142         u_quad_t ips_odropped;          /* lost packets due to nobufs, etc. */
  143         u_quad_t ips_reassembled;       /* total packets reassembled ok */
  144         u_quad_t ips_fragmented;        /* datagrams successfully fragmented */
  145         u_quad_t ips_ofragments;        /* output fragments created */
  146         u_quad_t ips_cantfrag;          /* don't fragment flag was set, etc. */
  147         u_quad_t ips_badoptions;        /* error in option processing */
  148         u_quad_t ips_noroute;           /* packets discarded due to no route */
  149         u_quad_t ips_badvers;           /* ip version != 4 */
  150         u_quad_t ips_rawout;            /* total raw ip packets generated */
  151         u_quad_t ips_badfrags;          /* malformed fragments (bad length) */
  152         u_quad_t ips_rcvmemdrop;        /* frags dropped for lack of memory */
  153         u_quad_t ips_toolong;           /* ip length > max ip packet size */
  154         u_quad_t ips_nogif;             /* no match gif found */
  155         u_quad_t ips_badaddr;           /* invalid address on header */
  156 };
  157 
  158 #define IPFLOW_HASHBITS                 6 /* should not be a multiple of 8 */
  159 struct ipflow {
  160         LIST_ENTRY(ipflow) ipf_list;    /* next in active list */
  161         LIST_ENTRY(ipflow) ipf_hash;    /* next ipflow in bucket */
  162         struct in_addr ipf_dst;         /* destination address */
  163         struct in_addr ipf_src;         /* source address */
  164         u_int8_t ipf_tos;               /* type-of-service */
  165         struct route ipf_ro;            /* associated route entry */
  166         u_long ipf_uses;                /* number of uses in this period */
  167         u_long ipf_last_uses;           /* number of uses in last period */
  168         u_long ipf_dropped;             /* ENOBUFS returned by if_output */
  169         u_long ipf_errors;              /* other errors returned by if_output */
  170         u_int ipf_timer;                /* lifetime timer */
  171         time_t ipf_start;               /* creation time */
  172 };
  173 
  174 #ifdef _KERNEL
  175 
  176 #ifdef _KERNEL_OPT
  177 #include "opt_gateway.h"
  178 #include "opt_mbuftrace.h"
  179 #endif
  180 
  181 /* flags passed to ip_output as last parameter */
  182 #define IP_FORWARDING           0x1             /* most of ip header exists */
  183 #define IP_RAWOUTPUT            0x2             /* raw ip header exists */
  184 #define IP_RETURNMTU            0x4             /* pass back mtu on EMSGSIZE */
  185 #define IP_ROUTETOIF            SO_DONTROUTE    /* bypass routing tables */
  186 #define IP_ALLOWBROADCAST       SO_BROADCAST    /* can send broadcast packets */
  187 #define IP_MTUDISC              0x0400          /* Path MTU Discovery; set DF */
  188 
  189 #ifdef __NO_STRICT_ALIGNMENT
  190 #define IP_HDR_ALIGNED_P(ip)    1
  191 #else
  192 #define IP_HDR_ALIGNED_P(ip)    ((((vaddr_t) (ip)) & 3) == 0)
  193 #endif
  194 
  195 extern struct ipstat ipstat;            /* ip statistics */
  196 extern LIST_HEAD(ipqhead, ipq) ipq[];   /* ip reass. queue */
  197 extern int   ip_defttl;                 /* default IP ttl */
  198 extern int   ipforwarding;              /* ip forwarding */
  199 extern int   ip_mtudisc;                /* mtu discovery */
  200 extern int   ip_mtudisc_timeout;        /* seconds to timeout mtu discovery */
  201 extern int   anonportmin;               /* minimum ephemeral port */
  202 extern int   anonportmax;               /* maximum ephemeral port */
  203 extern int   lowportmin;                /* minimum reserved port */
  204 extern int   lowportmax;                /* maximum reserved port */
  205 extern struct rttimer_queue *ip_mtudisc_timeout_q;
  206 #ifdef MBUFTRACE
  207 extern struct mowner ip_rx_mowner;
  208 extern struct mowner ip_tx_mowner;
  209 #endif
  210 #ifdef GATEWAY
  211 extern int ip_maxflows;
  212 #endif
  213 extern struct pool inmulti_pool;
  214 extern struct pool ipqent_pool;
  215 struct   inpcb;
  216 
  217 int      ip_ctloutput __P((int, struct socket *, int, int, struct mbuf **));
  218 int      ip_dooptions __P((struct mbuf *));
  219 void     ip_drain __P((void));
  220 void     ip_forward __P((struct mbuf *, int));
  221 void     ip_freef __P((struct ipq *));
  222 void     ip_freemoptions __P((struct ip_moptions *));
  223 int      ip_getmoptions __P((int, struct ip_moptions *, struct mbuf **));
  224 void     ip_init __P((void));
  225 int      ip_optcopy __P((struct ip *, struct ip *));
  226 u_int    ip_optlen __P((struct inpcb *));
  227 int      ip_output __P((struct mbuf *, ...));
  228 int      ip_fragment(struct mbuf *, struct ifnet *, u_long);
  229 int      ip_pcbopts __P((struct mbuf **, struct mbuf *));
  230 struct mbuf *
  231          ip_reass __P((struct ipqent *, struct ipq *, struct ipqhead *));
  232 struct in_ifaddr *
  233          ip_rtaddr __P((struct in_addr));
  234 void     ip_savecontrol __P((struct inpcb *, struct mbuf **, struct ip *,
  235            struct mbuf *));
  236 int      ip_setmoptions __P((int, struct ip_moptions **, struct mbuf *));
  237 void     ip_slowtimo __P((void));
  238 struct mbuf *
  239          ip_srcroute __P((void));
  240 void     ip_stripoptions __P((struct mbuf *, struct mbuf *));
  241 int      ip_sysctl __P((int *, u_int, void *, size_t *, void *, size_t));
  242 void     ipintr __P((void));
  243 void *   rip_ctlinput __P((int, struct sockaddr *, void *));
  244 int      rip_ctloutput __P((int, struct socket *, int, int, struct mbuf **));
  245 void     rip_init __P((void));
  246 void     rip_input __P((struct mbuf *, ...));
  247 int      rip_output __P((struct mbuf *, ...));
  248 int      rip_usrreq __P((struct socket *,
  249             int, struct mbuf *, struct mbuf *, struct mbuf *, struct proc *));
  250 void    ipflow_init __P((void));
  251 struct  ipflow *ipflow_reap __P((int));
  252 void    ipflow_create __P((const struct route *, struct mbuf *));
  253 void    ipflow_slowtimo __P((void));
  254 void    ipflow_invalidate_all __P((void));
  255 
  256 extern uint16_t ip_id;
  257 static __inline uint16_t ip_newid __P((void));
  258 
  259 u_int16_t ip_randomid __P((void));
  260 extern int ip_do_randomid;
  261 
  262 static __inline uint16_t
  263 ip_newid(void)
  264 {
  265         if (ip_do_randomid)
  266                 return ip_randomid();
  267 
  268         return htons(ip_id++);
  269 }
  270 
  271 #endif  /* _KERNEL */
  272 
  273 #endif /* _NETINET_IP_VAR_H_ */

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