/* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * Copyright (c) 1983, 1988, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgment: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#)defs.h 8.1 (Berkeley) 6/5/93 * * $FreeBSD: src/sbin/routed/defs.h,v 1.14 2000/08/11 08:24:38 sheldonh Exp $ */ #ifndef _DEFS_H #define _DEFS_H #pragma ident "%Z%%M% %I% %E% SMI" /* * Definitions for RIPv2 routing process. * * This code is based on the 4.4BSD `routed` daemon, with extensions to * support: * RIPv2, including variable length subnet masks. * Router Discovery * aggregate routes in the kernel tables. * aggregate advertised routes. * maintain spare routes for faster selection of another gateway * when the current gateway dies. * timers on routes with second granularity so that selection * of a new route does not wait 30-60 seconds. * tolerance of static routes. * tell the kernel hop counts. * use of per-interface ip_forwarding state. * * The vestigial support for other protocols has been removed. There * is no likelihood that IETF RIPv1 or RIPv2 will ever be used with * other protocols. The result is far smaller, faster, cleaner, and * perhaps understandable. * * The accumulation of special flags and kludges added over the many * years have been simplified and integrated. */ #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #include #include #include #include #include #include #include "radix.h" #include #include #include #include #include #include #include #include #include #include #include #define RIPVERSION RIPv2 #include #define DAY (24*60*60) #define NEVER DAY /* a long time */ #define EPOCH NEVER /* bias time by this to avoid <0 */ /* * Scan the kernel regularly to see if any interfaces have appeared or been * turned off. */ #define CHECK_BAD_INTERVAL 5 /* when an interface is known bad */ #define CHECK_ACT_INTERVAL 30 /* when advertising */ #define CHECK_QUIET_INTERVAL 300 /* when not */ /* * Limit the seconds in the timeval structure "s" to "l" seconds, but only * if l is less than the current seconds in s. This is used to shorten * certain timers to ensure that scheduled events occur sooner than * originally scheduled. */ #define LIM_SEC(s, l) ((s).tv_sec = MIN((s).tv_sec, (l))) /* * Metric used for fake default routes. It ought to be 15, but when * processing advertised routes, previous versions of `routed` added * to the received metric and discarded the route if the total was 16 * or larger. */ #define FAKE_METRIC (HOPCNT_INFINITY-2) /* Router Discovery parameters */ #define MAX_MAXADVERTISEINTERVAL 1800 #define MIN_MAXADVERTISEINTERVAL 4 #define DEF_MAXADVERTISEINTERVAL 600 #define DEF_PREFERENCELEVEL 0 #define MIN_PREFERENCELEVEL 0x80000000 #define MAX_INITIAL_ADVERT_INTERVAL 16 #define MAX_INITIAL_ADVERTS 3 #define MAX_RESPONSE_DELAY 2 #define MAX_SOLICITATION_DELAY 1 #define SOLICITATION_INTERVAL 3 #define MAX_SOLICITATIONS 3 /* * convert between signed, balanced around zero, * and unsigned zero-based preferences */ #define SIGN_PREF(p) ((p) ^ MIN_PREFERENCELEVEL) #define UNSIGN_PREF(p) SIGN_PREF(p) /* * Bloated packet size for systems that simply add authentication to * full-sized packets */ #define OVER_MAXPACKETSIZE (MAXPACKETSIZE+sizeof (struct netinfo)*2) /* typical packet buffers */ union pkt_buf { uint8_t packet[OVER_MAXPACKETSIZE*2]; struct rip rip; }; extern struct dr *drs; /* * IF_NAME_LEN is the maximum size of interface names represented within * in.routed. Regular Solaris interfaces have names of at most LIFNAMESIZ * characters, but in.routed has remote interfaces represented internally * as "remote()", where is a hostname or IP * address. IF_NAME_LEN needs to be large enough to also hold such * interface names as well. */ #define IF_NAME_LEN (MAXHOSTNAMELEN + sizeof ("remote()") + 1) /* * No more routes than this, to protect ourself in case something goes * whacko and starts broadcasting zillions of bogus routes. */ #define MAX_ROUTES (128*1024) enum origin { RO_NONE, /* empty slot */ RO_RIP, /* learnt from RIP */ RO_RDISC, /* learnt from RDISC */ RO_STATIC, /* learnt from kernel */ RO_LOOPBCK, /* loopback route */ RO_PTOPT, /* point-to-point route */ RO_NET_SYN, /* fake net route for subnet */ RO_IF, /* interface route */ RO_FILE /* from /etc/gateways */ }; /* * Main, daemon routing table structure */ struct rt_spare { struct interface *rts_ifp; uint32_t rts_gate; /* forward packets here */ uint32_t rts_router; /* on this router's authority */ uint8_t rts_metric; enum origin rts_origin; uint16_t rts_tag; time_t rts_time; /* timer to junk stale routes */ uint32_t rts_de_ag; /* de-aggregation level */ uint16_t rts_flags; }; #define RTS_EXTERNAL 0x0001 /* handled by other routing protocol e.g. EGP */ #define SPARE_INC 2 #define EMPTY_RT_SPARE { NULL, 0, 0, HOPCNT_INFINITY, RO_NONE, 0, 0, 0, 0 } struct rt_entry { struct radix_node rt_nodes[2]; /* radix tree glue */ struct sockaddr_in rt_dst_sock; time_t rt_poison_time; /* advertised metric */ in_addr_t rt_mask; uint32_t rt_seqno; /* when last changed */ uint16_t rt_state; #define RS_IF 0x0001 /* for network interface */ #define RS_NET_INT 0x0002 /* authority route */ #define RS_NET_SYN 0x0004 /* fake net route for subnet */ #define RS_NO_NET_SYN (RS_LOCAL | RS_IF) #define RS_SUBNET 0x0008 /* subnet route from any source */ #define RS_LOCAL 0x0010 /* loopback for pt-to-pt */ #define RS_MHOME 0x0020 /* from -m */ #define RS_STATIC 0x0040 /* from the kernel */ #define RS_NOPROPAGATE 0x0080 /* route which must not be propagated */ #define RS_BADIF 0x0100 /* route through dead ifp */ uint8_t rt_poison_metric; /* to notice maximum recently */ uint_t rt_num_spares; struct rt_spare *rt_spares; }; #define rt_dst rt_dst_sock.sin_addr.s_addr #define rt_ifp rt_spares[0].rts_ifp #define rt_gate rt_spares[0].rts_gate #define rt_router rt_spares[0].rts_router #define rt_metric rt_spares[0].rts_metric #define rt_tag rt_spares[0].rts_tag #define rt_time rt_spares[0].rts_time #define rt_de_ag rt_spares[0].rts_de_ag #define HOST_MASK 0xffffffffU #define RT_ISHOST(rt) ((rt)->rt_mask == HOST_MASK) /* * Determine if a route should be aged. Age all routes that are: * Not from -g, -m, nor static routes from the kernel * not unbroken interface routes but not broken interfaces * not learnt from RDISC or from /etc/gateways * nor non-passive, remote interfaces that are not aliases * (i.e. remote & metric=0) */ #define AGE_RT(rt_state, rts_origin, ifp) \ ((!((rt_state) & (RS_MHOME | RS_STATIC | RS_NET_SYN)) && \ (rts_origin != RO_RDISC) && \ (rts_origin != RO_FILE)) && \ (!((rt_state) & RS_IF) || \ (ifp) == NULL || \ (((ifp)->int_state & IS_REMOTE) && \ !((ifp)->int_state & IS_PASSIVE)))) /* * true if A is better than B * Better if * - A is not a poisoned route * - and A is not stale * - and either: * - A has a shorter path * - or the router is speaking for itself * - or B has the same metric and isn't stale * - or A is a host route advertised by a system for itself */ #define BETTER_LINK(rt, A, B) ((A)->rts_metric < HOPCNT_INFINITY && \ now_stale <= (A)->rts_time && \ ((A)->rts_metric < (B)->rts_metric || \ ((A)->rts_gate == (A)->rts_router && \ (B)->rts_gate != (B)->rts_router) || \ ((A)->rts_metric == (B)->rts_metric && \ now_stale > (B)->rts_time) || \ (RT_ISHOST(rt) && \ (rt)->rt_dst == (A)->rts_router && \ (A)->rts_metric == (B)->rts_metric))) struct hlinkage { void *hl_next; void **hl_prev; }; /* * A "physical_interface" represents the actual hardware. It is also * a container for a list of the interfaces that have the same ifIndex * number. This will consist of zero or one "main" interface plus * zero or more IS_ALIAS interfaces. */ struct physical_interface { struct hlinkage phyi_link; uint32_t phyi_index; struct interface *phyi_interface; struct phyi_data { uint32_t ipackets; /* previous network stats */ uint32_t ierrors; uint32_t opackets; uint32_t oerrors; time_t ts; /* timestamp on network stats */ } phyi_data; char phyi_name[IF_NAME_LEN+1]; }; /* * An "interface" is similar to a kernel ifnet structure, except it also * handles "logical" or "IS_REMOTE" interfaces (remote gateways). */ struct interface { /* * We keep interfaces in a variety of data structures to * optimize for different types of searches. */ struct hlinkage int_link; #define int_next int_link.hl_next struct hlinkage int_ahash; /* by address */ struct hlinkage int_bhash; /* by broadcast address */ struct hlinkage int_nhash; /* by name */ struct hlinkage int_ilist; /* ifIndex list */ struct physical_interface *int_phys; /* backpointer */ char int_name[IF_NAME_LEN+1]; in_addr_t int_addr; /* address on this host (net order) */ in_addr_t int_brdaddr; /* broadcast address (n) */ in_addr_t int_dstaddr; /* other end of pt-to-pt link (n) */ in_addr_t int_net; /* working network # (host order) */ in_addr_t int_mask; /* working net mask (host order) */ in_addr_t int_ripv1_mask; /* for inferring a mask (n) */ in_addr_t int_std_addr; /* class A/B/C address (n) */ in_addr_t int_std_net; /* class A/B/C network (h) */ in_addr_t int_std_mask; /* class A/B/C netmask (h) */ in_addr_t int_ripout_addr; /* RIP pkts sent to this addr */ uint64_t int_if_flags; /* some bits copied from kernel */ uint32_t int_state; time_t int_act_time; /* last thought healthy (IS_REMOTE) */ time_t int_query_time; /* last query (IS_REMOTE) */ uint32_t int_transitions; /* times gone up-down */ uint8_t int_metric; uint8_t int_d_metric; /* for faked default route */ #define MAX_AUTH_KEYS 5 struct auth { /* authentication info */ time_t start, end; uint16_t type; /* * Although the following key is just an array of bytes, * in.routed is currently limited to ascii characters * because of its configuration syntax and parsing. */ uint8_t key[RIP_AUTH_PW_LEN +1]; uint8_t keyid; uint8_t warnedflag; } int_auth[MAX_AUTH_KEYS]; /* router discovery parameters */ int int_rdisc_pref; /* signed preference to advertise */ uint32_t int_rdisc_int; /* MaxAdvertiseInterval */ uint32_t int_rdisc_cnt; struct timeval int_rdisc_timer; }; /* bits in int_state */ #define IS_ALIAS 0x00000001 /* interface alias */ #define IS_SUBNET 0x00000002 /* interface on subnetted network */ #define IS_REMOTE 0x00000004 /* interface is not on this machine */ #define IS_PASSIVE 0x00000008 /* remote and does not do RIP */ #define IS_EXTERNAL 0x00000010 /* handled by EGP or something */ #define IS_CHECKED 0x00000020 /* still exists */ #define IS_ALL_HOSTS 0x00000040 /* in INADDR_ALLHOSTS_GROUP */ #define IS_ALL_ROUTERS 0x00000080 /* in INADDR_ALLROUTERS_GROUP */ #define IS_DISTRUST 0x00000100 /* ignore untrusted routers */ #define IS_REDIRECT_OK 0x00000200 /* accept ICMP redirects */ #define IS_BROKE 0x00000400 /* seems to be broken */ #define IS_SICK 0x00000800 /* seems to be broken */ #define IS_DUP 0x00001000 /* duplicates another interface */ #define IS_NEED_NET_SYN 0x00002000 /* need RS_NET_SYN route */ #define IS_NO_AG 0x00004000 /* do not aggregate subnets */ #define IS_NO_SUPER_AG 0x00008000 /* do not aggregate networks */ #define IS_NO_RIPV1_IN 0x00010000 /* no RIPv1 input at all */ #define IS_NO_RIPV2_IN 0x00020000 /* no RIPv2 input at all */ #define IS_NO_RIP_IN (IS_NO_RIPV1_IN | IS_NO_RIPV2_IN) #define IS_RIP_IN_OFF(s) (((s) & IS_NO_RIP_IN) == IS_NO_RIP_IN) #define IS_NO_RIPV1_OUT 0x00040000 /* no RIPv1 output at all */ #define IS_NO_RIPV2_OUT 0x00080000 /* no RIPv2 output at all */ #define IS_NO_RIP_OUT (IS_NO_RIPV1_OUT | IS_NO_RIPV2_OUT) #define IS_NO_RIP (IS_NO_RIP_OUT | IS_NO_RIP_IN) #define IS_RIP_OUT_OFF(s) (((s) & IS_NO_RIP_OUT) == IS_NO_RIP_OUT) #define IS_RIP_OFF(s) (((s) & IS_NO_RIP) == IS_NO_RIP) #define IS_NO_RIP_MCAST 0x00100000 /* broadcast RIPv2 */ #define IS_NO_ADV_IN 0x00200000 /* do not listen to advertisements */ #define IS_NO_SOL_OUT 0x00400000 /* send no solicitations */ #define IS_SOL_OUT 0x00800000 /* send solicitations */ #define GROUP_IS_SOL_OUT (IS_SOL_OUT | IS_NO_SOL_OUT) #define IS_NO_ADV_OUT 0x01000000 /* do not advertise rdisc */ #define IS_ADV_OUT 0x02000000 /* advertise rdisc */ #define GROUP_IS_ADV_OUT (IS_NO_ADV_OUT | IS_ADV_OUT) #define IS_BCAST_RDISC 0x04000000 /* broadcast instead of multicast */ #define IS_NO_RDISC (IS_NO_ADV_IN | IS_NO_SOL_OUT | IS_NO_ADV_OUT) #define IS_PM_RDISC 0x08000000 /* poor-man's router discovery */ #define IS_NO_HOST 0x10000000 /* disallow host routes */ #define IS_SUPPRESS_RDISC 0x20000000 /* don't send rdisc advs */ #define IS_FLUSH_RDISC 0x40000000 /* flush client rdisc caches */ /* * passive interfaces are added through gwkludge */ #define IS_PASSIVE_IFP(ifp) \ (((ifp)->int_state & (IS_REMOTE|IS_PASSIVE|IS_EXTERNAL|IS_ALIAS)) == \ (IS_REMOTE|IS_PASSIVE)) /* * Is an IP interface up? Because of the way IPMP uses deprecated * interfaces, we need to check more than the IFF_UP and IFF_RUNNING * interface flags here. Basically, we do not want to use IFF_DEPRECATED * interfaces unless they are also IFF_STANDBY and not IFF_INACTIVE. */ #define IFF_GOOD (IFF_UP|IFF_RUNNING) #define IS_IFF_UP(f) \ ((((f) & (IFF_GOOD|IFF_DEPRECATED)) == IFF_GOOD) || \ (((f) & (IFF_GOOD|IFF_INACTIVE|IFF_STANDBY)) == \ (IFF_GOOD|IFF_STANDBY))) /* * This defines interfaces that we should not use for advertising or * soliciting routes by way of RIP and rdisc. Interfaces marked this * way do not count for purposes of determining how many interfaces * this router has. */ #define IS_IFF_QUIET(f) ((f) & (IFF_LOOPBACK|IFF_NORTEXCH|IFF_NOXMIT)) /* * This defines interfaces that we can use for advertising routes by way of * RIP and rdisc. */ #define IS_IFF_ROUTING(f) \ (((f) & IFF_ROUTER) && !((f) & (IFF_NORTEXCH|IFF_NOXMIT))) /* Information for aggregating routes */ #define NUM_AG_SLOTS 32 struct ag_info { struct ag_info *ag_fine; /* slot with finer netmask */ struct ag_info *ag_cors; /* more coarse netmask */ in_addr_t ag_dst_h; /* destination in host byte order */ in_addr_t ag_mask; in_addr_t ag_gate; struct interface *ag_ifp; in_addr_t ag_nhop; uint8_t ag_metric; /* metric to be advertised */ uint8_t ag_pref; /* aggregate based on this */ uint32_t ag_seqno; uint16_t ag_tag; uint16_t ag_state; #define AGS_SUPPRESS 0x001 /* combine with coarser mask */ #define AGS_AGGREGATE 0x002 /* synthesize combined routes */ #define AGS_REDUN0 0x004 /* redundant, finer routes output */ #define AGS_REDUN1 0x008 #define AG_IS_REDUN(state) (((state) & (AGS_REDUN0 | AGS_REDUN1)) \ == (AGS_REDUN0 | AGS_REDUN1)) #define AGS_GATEWAY 0x010 /* tell kernel RTF_GATEWAY */ #define AGS_IF 0x020 /* for an interface */ #define AGS_RIPV2 0x040 /* send only as RIPv2 */ #define AGS_FINE_GATE 0x080 /* ignore differing ag_gate when */ /* this has the finer netmask */ #define AGS_CORS_GATE 0x100 /* ignore differing gate when this */ /* has the coarser netmasks */ #define AGS_SPLIT_HZ 0x200 /* suppress for split horizon */ #define AGS_PASSIVE 0x400 /* passive "remote" interface route */ #define AGS_FILE 0x800 /* from /etc/gateways */ /* some bits are set if they are set on either route */ #define AGS_AGGREGATE_EITHER (AGS_RIPV2 | AGS_GATEWAY | \ AGS_SUPPRESS | AGS_CORS_GATE) }; struct khash { struct khash *k_next; in_addr_t k_dst; in_addr_t k_mask; in_addr_t k_gate; struct interface *k_ifp; short k_metric; ushort_t k_state; /* KS_* */ time_t k_keep; time_t k_redirect_time; /* when redirected route 1st seen */ }; /* bit flags for k_state; shared between table.c and trace.c */ #define KS_NEW 0x0001 #define KS_DELETE 0x0002 /* need to delete the route */ #define KS_ADD 0x0004 /* add to the kernel */ #define KS_CHANGE 0x0008 /* tell kernel to change the route */ #define KS_DEL_ADD 0x0010 /* delete & add to change the kernel */ #define KS_STATIC 0x0020 /* Static flag in kernel */ #define KS_GATEWAY 0x0040 /* G flag in kernel */ #define KS_DYNAMIC 0x0080 /* result of redirect */ #define KS_DELETED 0x0100 /* already deleted from kernel */ #define KS_PRIVATE 0x0200 /* Private flag in kernel */ #define KS_CHECK 0x0400 #define KS_IF 0x0800 /* interface route */ #define KS_PASSIVE 0x1000 /* passive remote interface route */ #define KS_DEPRE_IF 0x2000 /* IPMP deprecated interface route */ #define KS_FILE 0x4000 /* from /etc/gateways */ /* default router structure */ struct dr { /* accumulated advertisements */ struct interface *dr_ifp; in_addr_t dr_gate; /* gateway */ time_t dr_ts; /* when received */ time_t dr_life; /* lifetime in host byte order */ uint32_t dr_recv_pref; /* received but biased preference */ uint32_t dr_pref; /* preference adjusted by metric */ uint32_t dr_flags; #define DR_CHANGED 1 /* received new info for known dr */ }; /* parameters for interfaces */ struct parm { struct parm *parm_next; in_addr_t parm_net; in_addr_t parm_mask; in_addr_t parm_ripout_addr; uint32_t parm_int_state; int32_t parm_rdisc_pref; /* signed IRDP preference */ uint32_t parm_rdisc_int; /* IRDP advertising interval */ struct auth parm_auth[MAX_AUTH_KEYS]; char parm_name[IF_NAME_LEN+1]; uint8_t parm_d_metric; }; /* authority for internal networks */ extern struct intnet { struct intnet *intnet_next; in_addr_t intnet_addr; /* network byte order */ in_addr_t intnet_mask; int8_t intnet_metric; } *intnets; /* * Defined RIPv1 netmasks. These come from ripv1_mask entries in * /etc/gateways of the form: * * ripv1_mask=/, * * The intended use of these structures is to give RIPv1 destinations which * are in / a netmask of , where > . */ extern struct r1net { struct r1net *r1net_next; in_addr_t r1net_net; /* host order */ in_addr_t r1net_match; in_addr_t r1net_mask; } *r1nets; /* trusted routers */ extern struct tgate { struct tgate *tgate_next; in_addr_t tgate_addr; #define MAX_TGATE_NETS 32 struct tgate_net { in_addr_t net; /* host order */ in_addr_t mask; } tgate_nets[MAX_TGATE_NETS]; } *tgates; enum output_type {OUT_QUERY, OUT_UNICAST, OUT_BROADCAST, OUT_MULTICAST, NO_OUT_MULTICAST, NO_OUT_RIPV2}; /* common output buffers */ extern struct ws_buf { struct rip *buf; struct netinfo *n; struct netinfo *base; struct netinfo *lim; enum output_type type; } v12buf; extern int stopint; /* !=0 to stop in.routed */ extern int rip_sock; /* RIP socket */ extern struct interface *rip_sock_interface; /* current output interface */ extern int rt_sock; /* routing socket */ extern int rdisc_sock; /* router-discovery raw socket */ extern int rdisc_mib_sock; /* AF_UNIX mib info socket */ extern boolean_t rip_enabled; /* is rip on? */ extern boolean_t supplier; /* process should supply updates */ extern boolean_t supplier_set; /* -s or -q requested */ extern boolean_t save_space; /* -S option 1=treat all RIP speakers */ extern boolean_t ridhosts; /* 1=reduce host routes */ extern boolean_t mhome; /* 1=want multi-homed host route */ extern boolean_t advertise_mhome; /* 1=must continue advertising it */ extern boolean_t auth_ok; /* 1=ignore auth if we do not care */ extern boolean_t no_install; /* 1=don't install in kernel */ extern struct timeval clk; /* system clock's idea of time */ extern struct timeval epoch; /* system clock when started */ extern struct timeval now; /* current idea of time */ extern time_t now_stale; extern time_t now_expire; extern time_t now_garbage; extern struct timeval age_timer; /* next check of old routes */ extern struct timeval no_flash; /* inhibit flash update until then */ extern struct timeval rdisc_timer; /* next advert. or solicitation */ extern boolean_t rdisc_ok; /* using solicited route */ extern struct timeval ifscan_timer; /* time to check interfaces */ extern in_addr_t loopaddr; /* our address on loopback */ extern uint_t tot_interfaces; /* # of remote and local interfaces */ extern uint_t rip_interfaces; /* # of interfaces doing RIP */ extern uint_t ripout_interfaces; /* # of interfaces advertising RIP */ extern uint_t fwd_interfaces; /* # of interfaces ip_forwarding=1 */ extern struct interface *ifnet; /* all interfaces */ extern size_t hash_table_sizes[]; /* list of primes for hash tables */ extern boolean_t have_ripv1_out; /* have a RIPv1 interface */ extern boolean_t need_flash; /* flash update needed */ extern struct timeval need_kern; /* need to update kernel table */ extern uint32_t update_seqno; /* a route has changed */ extern struct interface dummy_ifp; /* wildcard interface */ extern int tracelevel, new_tracelevel; #define MAX_TRACELEVEL 5 #define TRACERTS (tracelevel >= 5) /* log routing socket contents */ #define TRACEKERNEL (tracelevel >= 4) /* log kernel changes */ #define TRACECONTENTS (tracelevel >= 3) /* display packet contents */ #define TRACEPACKETS (tracelevel >= 2) /* note packets */ #define TRACEACTIONS (tracelevel != 0) extern FILE *ftrace; /* output trace file */ extern char inittracename[MAXPATHLEN+1]; extern struct radix_node_head *rhead; extern void fix_sock(int, const char *); extern void fix_select(void); extern void rip_off(void); extern void rip_on(struct interface *); extern void bufinit(void); extern int output(enum output_type, struct sockaddr_in *, struct interface *, struct rip *, int); extern void clr_ws_buf(struct ws_buf *, struct auth *); extern void rip_query(void); extern void rip_bcast(int); extern void supply(struct sockaddr_in *, struct interface *, enum output_type, int, int, boolean_t); extern void msglog(const char *, ...); extern void writelog(int, const char *, ...); struct msg_limit { time_t reuse; struct msg_sub { in_addr_t addr; time_t until; #define MSG_SUBJECT_N 8 } subs[MSG_SUBJECT_N]; }; extern void msglim(struct msg_limit *, in_addr_t, const char *, ...); #define LOGERR(msg) msglog(msg ": %s", rip_strerror(errno)) extern void logbad(boolean_t, const char *, ...); #define BADERR(dump, msg) logbad(dump, msg ": %s", rip_strerror(errno)) #ifdef DEBUG #define DBGERR(dump, msg) BADERR(dump, msg) #else #define DBGERR(dump, msg) LOGERR(msg) #endif extern char *naddr_ntoa(in_addr_t); extern const char *saddr_ntoa(struct sockaddr_storage *); extern const char *rip_strerror(int errnum); extern char *if_bit_string(uint_t, boolean_t); extern void *rtmalloc(size_t, const char *); extern void timevaladd(struct timeval *, struct timeval *); extern void intvl_random(struct timeval *, ulong_t, ulong_t); extern boolean_t getnet(const char *, in_addr_t *, in_addr_t *); extern int gethost(char *, in_addr_t *); extern void gwkludge(void); extern const char *parse_parms(char *, boolean_t); extern const char *insert_parm(struct parm *); extern void get_parms(struct interface *); extern void lastlog(void); extern void trace_close(int); extern void set_tracefile(const char *, const char *, int); extern void tracelevel_msg(const char *, int); extern void trace_off(const char *, ...); extern void set_tracelevel(void); extern void trace_flush(void); extern void trace_misc(const char *, ...); extern void trace_act(const char *, ...); extern void trace_pkt(const char *, ...); extern void trace_add_del(const char *, struct rt_entry *); extern void trace_change(struct rt_entry *, uint16_t, struct rt_spare *, const char *); extern void trace_if(const char *, struct interface *); extern void trace_khash(const struct khash *); extern void trace_dr(const struct dr *); extern void trace_upslot(struct rt_entry *, struct rt_spare *, struct rt_spare *); extern void trace_rip(const char *, const char *, struct sockaddr_in *, struct interface *, struct rip *, int); extern char *addrname(in_addr_t, in_addr_t, int); extern char *rtname(in_addr_t, in_addr_t, in_addr_t); extern void rdisc_age(in_addr_t); extern void set_rdisc_mg(struct interface *, int); extern void set_supplier(void); extern void if_bad_rdisc(struct interface *); extern void if_rewire_rdisc(struct interface *, struct interface *); extern void if_ok_rdisc(struct interface *); extern int read_rip(void); extern void input_route(in_addr_t, in_addr_t, struct rt_spare *, struct netinfo *, uint16_t); extern void read_rt(void); extern void read_d(void); extern void process_d_mib_sock(void); extern void rdisc_adv(boolean_t); extern void rdisc_sol(void); extern struct interface *receiving_interface(struct msghdr *, boolean_t); extern void *find_ancillary(struct msghdr *, int); extern boolean_t should_supply(struct interface *); extern void rdisc_dump(void); extern void rdisc_suppress(struct interface *); extern void rdisc_restore(struct interface *); extern void age_peer_info(void); extern void sigtrace_more(int); extern void sigtrace_less(int); extern void sigtrace_dump(int); extern void sync_kern(void); extern void age(in_addr_t); extern void kern_dump(void); extern void kern_flush_ifp(struct interface *); extern void kern_rewire_ifp(struct interface *, struct interface *); extern void ag_flush(in_addr_t, in_addr_t, void (*)(struct ag_info *)); extern void ag_check(in_addr_t, in_addr_t, in_addr_t, struct interface *, in_addr_t, uint8_t, uint8_t, uint32_t, uint16_t, uint16_t, void (*)(struct ag_info *)); extern void del_static(in_addr_t, in_addr_t, in_addr_t, struct interface *, int); extern void del_redirects(in_addr_t, time_t); extern struct rt_entry *rtget(in_addr_t, in_addr_t); extern struct rt_entry *rtfind(in_addr_t); extern void rtinit(void); extern void rtadd(in_addr_t, in_addr_t, uint16_t, struct rt_spare *); extern void rtchange(struct rt_entry *, uint16_t, struct rt_spare *, char *); extern void rtdelete(struct rt_entry *); extern void rts_delete(struct rt_entry *, struct rt_spare *); extern void rtbad_sub(struct rt_entry *, struct interface *); extern void rtswitch(struct rt_entry *, struct rt_spare *); #define S_ADDR(x) (((struct sockaddr_in *)(x))->sin_addr.s_addr) #define INFO_DST(I) ((I)->rti_info[RTAX_DST]) #define INFO_GATE(I) ((I)->rti_info[RTAX_GATEWAY]) #define INFO_MASK(I) ((I)->rti_info[RTAX_NETMASK]) #define INFO_AUTHOR(I) ((I)->rti_info[RTAX_AUTHOR]) struct rewire_data { struct interface *if_old; struct interface *if_new; int metric_delta; }; extern char *qstring(const uchar_t *, int); extern in_addr_t std_mask(in_addr_t); extern int parse_quote(char **, const char *, char *, char *, int); extern in_addr_t ripv1_mask_net(in_addr_t, const struct interface *); extern in_addr_t ripv1_mask_host(in_addr_t, const struct interface *); #define on_net(a, net, mask) (((ntohl(a) ^ (net)) & (mask)) == 0) extern boolean_t check_dst(in_addr_t); extern boolean_t remote_address_ok(struct interface *, in_addr_t); extern struct interface *check_dup(const char *, in_addr_t, in_addr_t, in_addr_t, uint64_t, boolean_t); extern boolean_t check_remote(struct interface *); extern void iftbl_alloc(void); extern void ifscan(void); extern int walk_bad(struct radix_node *, void *); extern int walk_rewire(struct radix_node *, void *); extern void if_ok(struct interface *, const char *, boolean_t); extern void if_sick(struct interface *, boolean_t); extern void if_link(struct interface *, uint32_t); extern struct interface *ifwithaddr(in_addr_t, boolean_t, boolean_t); extern struct interface *ifwithindex(ulong_t, boolean_t); extern struct interface *ifwithname(const char *); extern struct interface *findremoteif(in_addr_t); extern struct interface *findifaddr(in_addr_t); extern struct interface *iflookup(in_addr_t); extern struct auth *find_auth(struct interface *); extern void end_md5_auth(struct ws_buf *, struct auth *); extern void rip_mcast_on(struct interface *); extern void rip_mcast_off(struct interface *); extern void trace_dump(); extern int sendtoif(int, const void *, uint_t, uint_t, struct sockaddr_in *, uint_t); #ifdef __cplusplus } #endif #endif /* _DEFS_H */