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|
/*
* Rdisc (this program) was developed by Sun Microsystems, Inc. and is
* provided for unrestricted use provided that this legend is included on
* all tape media and as a part of the software program in whole or part.
* Users may copy or modify Rdisc without charge, and they may freely
* distribute it.
*
* RDISC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE
* WARRANTIES OF DESIGN, MERCHANTIBILITY AND FITNESS FOR A PARTICULAR
* PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE.
*
* Rdisc is provided with no support and without any obligation on the
* part of Sun Microsystems, Inc. to assist in its use, correction,
* modification or enhancement.
*
* SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE
* INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY RDISC
* OR ANY PART THEREOF.
*
* In no event will Sun Microsystems, Inc. be liable for any lost revenue
* or profits or other special, indirect and consequential damages, even if
* Sun has been advised of the possibility of such damages.
*
* Sun Microsystems, Inc.
* 2550 Garcia Avenue
* Mountain View, California 94043
*/
#include <stdio.h>
#include <errno.h>
#include <signal.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/param.h>
#include <sys/socket.h>
#include <sys/file.h>
#include <sys/ioctl.h>
#include <net/if.h>
#include <netinet/in_systm.h>
#include <netinet/in.h>
#include <netinet/ip.h>
#include <netinet/ip_icmp.h>
/*
* The next include contains all defs and structures for multicast
* that are not in SunOS 4.1.x. On a SunOS 4.1.x system none of this code
* is ever used because it does not support multicast
* Fraser Gardiner - Sun Microsystems Australia
*/
#include "rdisc.h"
#include <netdb.h>
#include <arpa/inet.h>
#include <string.h>
#include <syslog.h>
/*
* TBD
* Use 255.255.255.255 for broadcasts - not the interface broadcast
* address.
*/
char *malloc();
void exit();
long gethostid();
long random();
time_t time();
long strtol();
#ifdef lint
#define ALLIGN(ptr) (ptr ? 0 : 0)
#else
#define ALLIGN(ptr) (ptr)
#endif
#ifdef SYSV
#define signal(s,f) sigset(s,f)
#define random() rand()
#endif
void solicitor(), advertise(), pr_pack(), init();
void bzero(), initlog(), logerr(), logtrace(), logdebug(), logperror();
void age_table(), record_router(), add_route(), del_route(), rtioctl();
int support_multicast(), sendbcast(), sendmcast(), sendbcastif(), sendmcastif();
int ismulticast(), isbroadcast(), in_cksum(), is_directly_connected();
static int join();
#define ICMP_ROUTER_ADVERTISEMENT 9
#define ICMP_ROUTER_SOLICITATION 10
#define ALL_HOSTS_ADDRESS "224.0.0.1"
#define ALL_ROUTERS_ADDRESS "224.0.0.2"
#define MAXIFS 32
/* For router advertisement */
struct icmp_ra {
u_char icmp_type; /* type of message, see below */
u_char icmp_code; /* type sub code */
u_short icmp_cksum; /* ones complement cksum of struct */
u_char icmp_num_addrs;
u_char icmp_wpa; /* Words per address */
short icmp_lifetime;
};
struct icmp_ra_addr {
u_long addr;
u_long preference;
};
/* Router constants */
#define MAX_INITIAL_ADVERT_INTERVAL 16
#define MAX_INITIAL_ADVERTISEMENTS 3
#define MAX_RESPONSE_DELAY 2 /* Not used */
/* Host constants */
#define MAX_SOLICITATIONS 3
#define SOLICITATION_INTERVAL 3
#define MAX_SOLICITATION_DELAY 1 /* Not used */
#define IGNORE_PREFERENCE 0x80000000 /* Maximum negative */
#define MAX_ADV_INT 600
/* Statics */
int num_interfaces;
struct interface {
struct in_addr address; /* Used to identify the interface */
struct in_addr localaddr; /* Actual address if the interface */
int preference;
int flags;
struct in_addr bcastaddr;
struct in_addr remoteaddr;
struct in_addr netmask;
};
struct interface *interfaces;
int interfaces_size; /* Number of elements in interfaces */
#define MAXPACKET 4096 /* max packet size */
u_char packet[MAXPACKET];
/* fraser */
int debugfile;
char usage[] =
"Usage: rdisc [-s] [-v] [-f] [-a] [send_address] [receive_address]\n\
rdisc -r [-v] [-p <preference>] [-T <secs>] \n\
[send_address] [receive_address]\n";
int s; /* Socket file descriptor */
struct sockaddr_in whereto;/* Address to send to */
/* Common variables */
int verbose = 0;
int debug = 0;
int trace = 0;
int solicit = 0;
int responder;
int ntransmitted = 0;
int nreceived = 0;
int forever = 0; /* Never give up on host. If 0 defer fork until
* first response.
*/
/* Router variables */
int max_adv_int = MAX_ADV_INT;
int min_adv_int;
int lifetime;
int initial_advert_interval = MAX_INITIAL_ADVERT_INTERVAL;
int initial_advertisements = MAX_INITIAL_ADVERTISEMENTS;
int preference = 0; /* Setable with -p option */
/* Host variables */
int max_solicitations = MAX_SOLICITATIONS;
unsigned int solicitation_interval = SOLICITATION_INTERVAL;
int best_preference = 1; /* Set to record only the router(s) with the
best preference in the kernel. Not set
puts all routes in the kernel. */
void finish(), catcher(), timer(), initifs();
char *pr_name();
static void prusage()
{
(void) fprintf(stderr, usage);
exit(1);
}
void
do_fork()
{
int t;
long pid;
if (trace)
return;
if (pid =fork())
exit(0);
for (t = 0; t < 20; t++)
if (t != s)
(void) close(t);
#ifndef SYSV
t = open("/dev/tty", 2);
if (t >= 0) {
(void) ioctl(t, TIOCNOTTY, (char *)0);
(void) close(t);
}
#else
(void) setpgrp ();
#endif
initlog();
}
/*
* M A I N
*/
char *sendaddress, *recvaddress;
main(argc, argv)
char *argv[];
{
#ifndef SYSV
struct sigvec sv;
#endif
struct sockaddr_in from;
char **av = argv;
struct sockaddr_in *to = &whereto;
struct sockaddr_in joinaddr;
int val;
min_adv_int =( max_adv_int * 3 / 4);
lifetime = (3*max_adv_int);
argc--, av++;
while (argc > 0 && *av[0] == '-') {
while (*++av[0]) switch (*av[0]) {
case 'd':
debug = 1;
break;
case 't':
trace = 1;
break;
case 'v':
verbose++;
break;
case 's':
solicit = 1;
break;
case 'r':
responder = 1;
break;
case 'a':
best_preference = 0;
break;
case 'b':
best_preference = 1;
break;
case 'f':
forever = 1;
break;
case 'T':
argc--, av++;
if (argc != 0) {
val = strtol(av[0], (char **)NULL, 0);
if (val < 4 || val > 1800) {
(void) fprintf(stderr,
"Bad Max Advertizement Interval\n");
exit(1);
}
max_adv_int = val;
min_adv_int =( max_adv_int * 3 / 4);
lifetime = (3*max_adv_int);
} else {
prusage();
/* NOTREACHED*/
}
goto next;
case 'p':
argc--, av++;
if (argc != 0) {
val = strtol(av[0], (char **)NULL, 0);
preference = val;
} else {
prusage();
/* NOTREACHED*/
}
goto next;
default:
prusage();
/* NOTREACHED*/
}
next:
argc--, av++;
}
if( argc < 1) {
if (support_multicast()) {
if (responder)
sendaddress = ALL_HOSTS_ADDRESS;
else
sendaddress = ALL_ROUTERS_ADDRESS;
} else
sendaddress = "255.255.255.255";
} else {
sendaddress = av[0];
argc--;
}
if (argc < 1) {
if (support_multicast()) {
if (responder)
recvaddress = ALL_ROUTERS_ADDRESS;
else
recvaddress = ALL_HOSTS_ADDRESS;
} else
recvaddress = "255.255.255.255";
} else {
recvaddress = av[0];
argc--;
}
if (argc != 0) {
(void) fprintf(stderr, "Extra paramaters\n");
prusage();
/* NOTREACHED */
}
if (solicit && responder) {
prusage();
/* NOTREACHED */
}
if (!(solicit && !forever)) {
do_fork();
/*
* Added the next line to stop forking a second time
* Fraser Gardiner - Sun Microsystems Australia
*/
forever = 1;
}
bzero( (char *)&whereto, sizeof(struct sockaddr_in) );
to->sin_family = AF_INET;
to->sin_addr.s_addr = inet_addr(sendaddress);
bzero( (char *)&joinaddr, sizeof(struct sockaddr_in) );
joinaddr.sin_family = AF_INET;
joinaddr.sin_addr.s_addr = inet_addr(recvaddress);
if (responder) {
#ifdef SYSV
/* TBD fix this to be more random */
srand((u_int)time((time_t *)NULL));
#else
srandom((int)gethostid());
#endif
}
if ((s = socket(AF_INET, SOCK_RAW, IPPROTO_ICMP)) < 0) {
logperror("socket");
exit(5);
}
#ifdef SYSV
setvbuf( stdout, NULL, _IOLBF, 0 );
#else
setlinebuf( stdout );
#endif
(void) signal( SIGINT, finish );
(void) signal( SIGTERM, finish );
(void) signal( SIGHUP, initifs );
init();
if (join(s, &joinaddr) < 0) {
logerr("Failed joining addresses\n");
exit (2);
}
#ifdef SYSV
(void) sigset(SIGALRM, timer);
#else
/*
* Make sure that this signal actually interrupts (rather than
* restarts) the recvfrom call below.
*/
sv.sv_handler = timer;
sv.sv_mask = 0;
sv.sv_flags = SV_INTERRUPT;
(void) sigvec(SIGALRM, &sv, (struct sigvec *)NULL);
#endif
timer(); /* start things going */
for (;;) {
int len = sizeof (packet);
int fromlen = sizeof (from);
int cc;
if ( (cc=recvfrom(s, (char *)packet, len, 0,
(struct sockaddr *)&from, &fromlen)) < 0) {
if( errno == EINTR )
continue;
logperror("recvfrom");
continue;
}
pr_pack( (char *)packet, cc, &from );
}
/*NOTREACHED*/
}
#define TIMER_INTERVAL 3
#define GETIFCONF_TIMER 30
static left_until_advertise;
/* Called every TIMER_INTERVAL */
void timer()
{
static time;
static left_until_getifconf;
static left_until_solicit;
time += TIMER_INTERVAL;
left_until_getifconf -= TIMER_INTERVAL;
left_until_advertise -= TIMER_INTERVAL;
left_until_solicit -= TIMER_INTERVAL;
if (left_until_getifconf < 0) {
initifs();
left_until_getifconf = GETIFCONF_TIMER;
}
if (responder && left_until_advertise <= 0) {
ntransmitted++;
advertise(&whereto);
if (ntransmitted < initial_advertisements)
left_until_advertise = initial_advert_interval;
else
left_until_advertise = min_adv_int +
((max_adv_int - min_adv_int) *
(random() % 1000)/1000);
} else if (solicit && left_until_solicit <= 0) {
ntransmitted++;
solicitor(&whereto);
if (ntransmitted < max_solicitations)
left_until_solicit = solicitation_interval;
else {
solicit = 0;
if (!forever && nreceived == 0)
exit(5);
}
}
age_table(TIMER_INTERVAL);
(void) alarm(TIMER_INTERVAL);
}
/*
* S O L I C I T O R
*
* Compose and transmit an ICMP ROUTER SOLICITATION REQUEST packet.
* The IP packet will be added on by the kernel.
*/
void
solicitor(sin)
struct sockaddr_in *sin;
{
static u_char outpack[MAXPACKET];
register struct icmp *icp = (struct icmp *) ALLIGN(outpack);
int packetlen, i;
if (verbose) {
logtrace("Sending solicitation to %s\n",
pr_name(sin->sin_addr));
}
icp->icmp_type = ICMP_ROUTER_SOLICITATION;
icp->icmp_code = 0;
icp->icmp_cksum = 0;
icp->icmp_void = 0; /* Reserved */
packetlen = 8;
/* Compute ICMP checksum here */
icp->icmp_cksum = in_cksum( (u_short *)icp, packetlen );
if (isbroadcast(sin))
i = sendbcast(s, (char *)outpack, packetlen);
else if (ismulticast(sin))
i = sendmcast( s, (char *)outpack, packetlen, sin);
else
i = sendto( s, (char *)outpack, packetlen, 0,
(struct sockaddr *)sin, sizeof(struct sockaddr));
if( i < 0 || i != packetlen ) {
if( i<0 ) {
logperror("sendto");
}
logerr("wrote %s %d chars, ret=%d\n",
sendaddress, packetlen, i );
}
}
/*
* A V E R T I S E
*
* Compose and transmit an ICMP ROUTER ADVERTISEMENT packet.
* The IP packet will be added on by the kernel.
*/
void
advertise(sin)
struct sockaddr_in *sin;
{
static u_char outpack[MAXPACKET];
register struct icmp_ra *rap = (struct icmp_ra *) ALLIGN(outpack);
struct icmp_ra_addr *ap;
int packetlen, i, cc;
if (verbose) {
logtrace("Sending advertisement to %s\n",
pr_name(sin->sin_addr));
}
for (i = 0; i < num_interfaces; i++) {
rap->icmp_type = ICMP_ROUTER_ADVERTISEMENT;
rap->icmp_code = 0;
rap->icmp_cksum = 0;
rap->icmp_num_addrs = 0;
rap->icmp_wpa = 2;
rap->icmp_lifetime = lifetime;
packetlen = 8;
/*
* TODO handle multiple logical interfaces per
* physical interface. (increment with rap->icmp_wpa * 4 for
* each address.)
*/
ap = (struct icmp_ra_addr *)ALLIGN(outpack + ICMP_MINLEN);
ap->addr = interfaces[i].localaddr.s_addr;
ap->preference = interfaces[i].preference;
packetlen += rap->icmp_wpa * 4;
rap->icmp_num_addrs++;
/* Compute ICMP checksum here */
rap->icmp_cksum = in_cksum( (u_short *)rap, packetlen );
if (isbroadcast(sin))
cc = sendbcastif(s, (char *)outpack, packetlen,
&interfaces[i]);
else if (ismulticast(sin))
cc = sendmcastif( s, (char *)outpack, packetlen, sin,
&interfaces[i]);
else {
struct interface *ifp = &interfaces[i];
/*
* Verify that the interface matches the destination
* address.
*/
if ((sin->sin_addr.s_addr & ifp->netmask.s_addr) ==
(ifp->address.s_addr & ifp->netmask.s_addr)) {
if (debug) {
logdebug("Unicast to %s ",
pr_name(sin->sin_addr));
logdebug("on interface %s\n",
pr_name(ifp->address));
}
cc = sendto( s, (char *)outpack, packetlen, 0,
(struct sockaddr *)sin,
sizeof(struct sockaddr));
} else
cc = packetlen;
}
if( cc < 0 || cc != packetlen ) {
if (cc < 0) {
logperror("sendto");
} else {
logerr("wrote %s %d chars, ret=%d\n",
sendaddress, packetlen, cc );
}
}
}
}
/*
* P R _ T Y P E
*
* Convert an ICMP "type" field to a printable string.
*/
char *
pr_type( t )
register int t;
{
static char *ttab[] = {
"Echo Reply",
"ICMP 1",
"ICMP 2",
"Dest Unreachable",
"Source Quench",
"Redirect",
"ICMP 6",
"ICMP 7",
"Echo",
"Router Advertise",
"Router Solicitation",
"Time Exceeded",
"Parameter Problem",
"Timestamp",
"Timestamp Reply",
"Info Request",
"Info Reply",
"Netmask Request",
"Netmask Reply"
};
if ( t < 0 || t > 16 )
return("OUT-OF-RANGE");
return(ttab[t]);
}
/*
* P R _ N A M E
*
* Return a string name for the given IP address.
*/
char *pr_name(addr)
struct in_addr addr;
{
char *inet_ntoa();
struct hostent *phe;
static char buf[256];
phe = gethostbyaddr((char *)&addr.s_addr, 4, AF_INET);
if (phe == NULL)
return( inet_ntoa(addr));
(void) sprintf(buf, "%s (%s)", phe->h_name, inet_ntoa(addr));
return(buf);
}
/*
* P R _ P A C K
*
* Print out the packet, if it came from us. This logic is necessary
* because ALL readers of the ICMP socket get a copy of ALL ICMP packets
* which arrive ('tis only fair). This permits multiple copies of this
* program to be run without having intermingled output (or statistics!).
*/
void
pr_pack( buf, cc, from )
char *buf;
int cc;
struct sockaddr_in *from;
{
struct ip *ip;
register struct icmp *icp;
register int i;
int hlen;
ip = (struct ip *) ALLIGN(buf);
hlen = ip->ip_hl << 2;
if (cc < hlen + ICMP_MINLEN) {
if (verbose)
logtrace("packet too short (%d bytes) from %s\n", cc,
pr_name(from->sin_addr));
return;
}
cc -= hlen;
icp = (struct icmp *)ALLIGN(buf + hlen);
if (ip->ip_p == 0) {
/*
* Assume that we are running on a pre-4.3BSD system
* such as SunOS before 4.0
*/
icp = (struct icmp *)ALLIGN(buf);
}
switch (icp->icmp_type) {
case ICMP_ROUTER_ADVERTISEMENT: {
struct icmp_ra *rap = (struct icmp_ra *)ALLIGN(icp);
struct icmp_ra_addr *ap;
if (responder)
break;
/* TBD verify that the link is multicast or broadcast */
/* XXX Find out the link it came in over? */
#ifdef notdef
if (debug) {
logdebug("ROUTER_ADVERTISEMENT: \n");
pr_hex(buf+hlen, cc);
}
#endif notdef
if (in_cksum((u_short *)ALLIGN(buf+hlen), cc)) {
if (verbose)
logtrace("ICMP %s from %s: Bad checksum\n",
pr_type((int)rap->icmp_type),
pr_name(from->sin_addr));
return;
}
if (rap->icmp_code != 0) {
if (verbose)
logtrace("ICMP %s from %s: Code = %d\n",
pr_type((int)rap->icmp_type),
pr_name(from->sin_addr),
rap->icmp_code);
return;
}
if (rap->icmp_num_addrs < 1) {
if (verbose)
logtrace("ICMP %s from %s: No addresses\n",
pr_type((int)rap->icmp_type),
pr_name(from->sin_addr));
return;
}
if (rap->icmp_wpa < 2) {
if (verbose)
logtrace("ICMP %s from %s: Words/addr = %d\n",
pr_type((int)rap->icmp_type),
pr_name(from->sin_addr),
rap->icmp_wpa);
return;
}
if ((unsigned)cc <
ICMP_MINLEN + rap->icmp_num_addrs * rap->icmp_wpa * 4) {
if (verbose)
logtrace("ICMP %s from %s: Too short %d, %d\n",
pr_type((int)rap->icmp_type),
pr_name(from->sin_addr),
cc,
ICMP_MINLEN +
rap->icmp_num_addrs * rap->icmp_wpa * 4);
return;
}
if (rap->icmp_lifetime < 4) {
if (verbose)
logtrace("ICMP %s from %s: Lifetime = %d\n",
pr_type((int)rap->icmp_type),
pr_name(from->sin_addr),
rap->icmp_lifetime);
return;
}
if (verbose)
logtrace("ICMP %s from %s, lifetime %d\n",
pr_type((int)rap->icmp_type),
pr_name(from->sin_addr),
rap->icmp_lifetime);
/* Check that at least one router address is a neighboor
* on the arriving link.
*/
for (i = 0; (unsigned)i < rap->icmp_num_addrs; i++) {
struct in_addr ina;
ap = (struct icmp_ra_addr *)
ALLIGN(buf + hlen + ICMP_MINLEN +
i * rap->icmp_wpa * 4);
ina.s_addr = ntohl(ap->addr);
if (verbose)
logtrace("\taddress %s, preference 0x%x\n",
pr_name(ina),
ntohl(ap->preference));
if (!responder) {
if (is_directly_connected(ina))
record_router(ina,
(long)ntohl(ap->preference),
rap->icmp_lifetime);
}
}
nreceived++;
if (!forever) {
do_fork();
forever = 1;
/*
* The next line was added so that the alarm is set for the new procces
* Fraser Gardiner Sun Microsystems Australia
*/
(void) alarm(TIMER_INTERVAL);
}
break;
}
case ICMP_ROUTER_SOLICITATION: {
struct sockaddr_in sin;
if (!responder)
break;
/* TBD verify that the link is multicast or broadcast */
/* XXX Find out the link it came in over? */
#ifdef notdef
if (debug) {
logdebug("ROUTER_SOLICITATION: \n");
pr_hex(buf+hlen, cc);
}
#endif notdef
if (in_cksum((u_short *)ALLIGN(buf+hlen), cc)) {
if (verbose)
logtrace("ICMP %s from %s: Bad checksum\n",
pr_type((int)icp->icmp_type),
pr_name(from->sin_addr));
return;
}
if (icp->icmp_code != 0) {
if (verbose)
logtrace("ICMP %s from %s: Code = %d\n",
pr_type((int)icp->icmp_type),
pr_name(from->sin_addr),
icp->icmp_code);
return;
}
if (cc < ICMP_MINLEN) {
if (verbose)
logtrace("ICMP %s from %s: Too short %d, %d\n",
pr_type((int)icp->icmp_type),
pr_name(from->sin_addr),
cc,
ICMP_MINLEN);
return;
}
if (verbose)
logtrace("ICMP %s from %s\n",
pr_type((int)icp->icmp_type),
pr_name(from->sin_addr));
if (!responder)
break;
/* Check that ip_src is either a neighboor
* on the arriving link or 0.
*/
sin.sin_family = AF_INET;
if (ip->ip_src.s_addr == 0) {
/* If it was sent to the broadcast address we respond
* to the broadcast address.
*/
if (IN_CLASSD(ip->ip_dst.s_addr))
sin.sin_addr.s_addr = INADDR_ALLHOSTS_GROUP;
else
sin.sin_addr.s_addr = INADDR_BROADCAST;
/* Restart the timer when we broadcast */
left_until_advertise = min_adv_int +
((max_adv_int - min_adv_int)
* (random() % 1000)/1000);
}
else {
if (!is_directly_connected(ip->ip_src)) {
if (verbose)
logtrace("ICMP %s from %s: source not directly connected\n",
pr_type((int)icp->icmp_type),
pr_name(from->sin_addr));
break;
}
sin.sin_addr.s_addr = ip->ip_src.s_addr;
}
nreceived++;
ntransmitted++;
advertise(&sin);
break;
}
}
}
/*
* I N _ C K S U M
*
* Checksum routine for Internet Protocol family headers (C Version)
*
*/
in_cksum(addr, len)
u_short *addr;
int len;
{
register int nleft = len;
register u_short *w = addr;
register u_short answer;
u_short odd_byte = 0;
register int sum = 0;
/*
* Our algorithm is simple, using a 32 bit accumulator (sum),
* we add sequential 16 bit words to it, and at the end, fold
* back all the carry bits from the top 16 bits into the lower
* 16 bits.
*/
while( nleft > 1 ) {
sum += *w++;
nleft -= 2;
}
/* mop up an odd byte, if necessary */
if( nleft == 1 ) {
*(u_char *)(&odd_byte) = *(u_char *)w;
sum += odd_byte;
}
/*
* add back carry outs from top 16 bits to low 16 bits
*/
sum = (sum >> 16) + (sum & 0xffff); /* add hi 16 to low 16 */
sum += (sum >> 16); /* add carry */
answer = ~sum; /* truncate to 16 bits */
return (answer);
}
/*
* F I N I S H
*
* Print out statistics, and give up.
* Heavily buffered STDIO is used here, so that all the statistics
* will be written with 1 sys-write call. This is nice when more
* than one copy of the program is running on a terminal; it prevents
* the statistics output from becomming intermingled.
*/
void
finish()
{
if (responder) {
int i;
/* Send out a packet with a preference so that all
* hosts will know that we are dead.
*/
logerr("terminated\n");
for (i = 0; i < num_interfaces; i++)
interfaces[i].preference = IGNORE_PREFERENCE;
ntransmitted++;
advertise(&whereto);
}
logtrace("\n----%s rdisc Statistics----\n", sendaddress );
logtrace("%d packets transmitted, ", ntransmitted );
logtrace("%d packets received, ", nreceived );
logtrace("\n");
(void) fflush(stdout);
exit(0);
}
#include <ctype.h>
#ifdef notdef
pr_hex(data, len)
int len;
unsigned char *data;
{
FILE *out;
out = stdout;
while (len) {
register int i;
char charstring[17];
(void)strcpy(charstring," "); /* 16 spaces */
for (i = 0; i < 16; i++) {
/* output the bytes one at a time,
* not going pas "len" bytes
*/
if (len) {
char ch = *data & 0x7f; /* strip parity */
if (!isprint((u_char)ch))
ch = ' '; /* ensure printable */
charstring[i] = ch;
(void) fprintf(out,"%02x ",*data++);
len--;
} else
(void) fprintf(out," ");
if (i==7)
(void) fprintf(out," ");
}
(void) fprintf(out," *%s*\n",charstring);
}
}
#endif notdef
isbroadcast(sin)
struct sockaddr_in *sin;
{
return (sin->sin_addr.s_addr == INADDR_BROADCAST);
}
ismulticast(sin)
struct sockaddr_in *sin;
{
return (IN_CLASSD(sin->sin_addr.s_addr));
}
/* From libc/rpc/pmap_rmt.c */
int
sendbcast(s, packet, packetlen)
int s;
char *packet;
int packetlen;
{
int i, cc;
for (i = 0; i < num_interfaces; i++) {
if ((interfaces[i].flags & IFF_BROADCAST) == 0)
continue;
cc = sendbcastif(s, packet, packetlen, &interfaces[i]);
if (cc!= packetlen) {
return (cc);
}
}
return (packetlen);
}
int
sendbcastif(s, packet, packetlen, ifp)
int s;
char *packet;
int packetlen;
struct interface *ifp;
{
int cc;
struct sockaddr_in baddr;
baddr.sin_family = AF_INET;
if ((ifp->flags & IFF_BROADCAST) == 0)
return (packetlen);
baddr.sin_addr = ifp->bcastaddr;
if (debug)
logdebug("Broadcast to %s\n",
pr_name(baddr.sin_addr));
cc = sendto(s, packet, packetlen, 0,
(struct sockaddr *)&baddr, sizeof (struct sockaddr));
if (cc!= packetlen) {
logperror("sendbcast: sendto");
logerr("Cannot send broadcast packet to %s\n",
pr_name(baddr.sin_addr));
}
return (cc);
}
int
sendmcast(s, packet, packetlen, sin)
int s;
char *packet;
int packetlen;
struct sockaddr_in *sin;
{
int i, cc;
for (i = 0; i < num_interfaces; i++) {
if ((interfaces[i].flags & IFF_MULTICAST) == 0)
continue;
cc = sendmcastif(s, packet, packetlen, sin, &interfaces[i]);
if (cc!= packetlen) {
return (cc);
}
}
return (packetlen);
}
int
sendmcastif(s, packet, packetlen, sin, ifp)
int s;
char *packet;
int packetlen;
struct sockaddr_in *sin;
struct interface *ifp;
{
int cc;
struct sockaddr_in ifaddr;
ifaddr.sin_family = AF_INET;
if ((ifp->flags & IFF_MULTICAST) == 0)
return (packetlen);
ifaddr.sin_addr = ifp->address;
if (debug)
logdebug("Multicast to interface %s\n",
pr_name(ifaddr.sin_addr));
if (setsockopt(s, IPPROTO_IP, IP_MULTICAST_IF,
(char *)&ifaddr.sin_addr,
sizeof(ifaddr.sin_addr)) < 0) {
logperror("setsockopt (IP_MULTICAST_IF)");
logerr("Cannot send multicast packet over interface %s\n",
pr_name(ifaddr.sin_addr));
return (-1);
}
cc = sendto(s, packet, packetlen, 0,
(struct sockaddr *)sin, sizeof (struct sockaddr));
if (cc!= packetlen) {
logperror("sendmcast: sendto");
logerr("Cannot send multicast packet over interface %s\n",
pr_name(ifaddr.sin_addr));
}
return (cc);
}
void
init()
{
int i;
initifs();
for (i = 0; i < interfaces_size; i++)
interfaces[i].preference = preference;
}
void
initifs()
{
int sock;
struct ifconf ifc;
struct ifreq ifreq, *ifr;
struct sockaddr_in *sin;
int n, i;
char *buf;
int numifs;
unsigned bufsize;
sock = socket(AF_INET, SOCK_DGRAM, 0);
if (sock < 0) {
logperror("initifs: socket");
return;
}
#ifdef SIOCGIFNUM
if (ioctl(sock, SIOCGIFNUM, (char *)&numifs) < 0) {
numifs = MAXIFS;
}
#else
numifs = MAXIFS;
#endif
bufsize = numifs * sizeof(struct ifreq);
buf = (char *)malloc(bufsize);
if (buf == NULL) {
logerr("out of memory\n");
(void) close(sock);
return;
}
if (interfaces)
interfaces = (struct interface *)ALLIGN(realloc((char *)interfaces,
numifs * sizeof(struct interface)));
else
interfaces = (struct interface *)ALLIGN(malloc(numifs *
sizeof(struct interface)));
if (interfaces == NULL) {
logerr("out of memory\n");
(void) close(sock);
(void) free(buf);
return;
}
interfaces_size = numifs;
ifc.ifc_len = bufsize;
ifc.ifc_buf = buf;
if (ioctl(sock, SIOCGIFCONF, (char *)&ifc) < 0) {
logperror("initifs: ioctl (get interface configuration)");
(void) close(sock);
(void) free(buf);
return;
}
ifr = ifc.ifc_req;
for (i = 0, n = ifc.ifc_len/sizeof (struct ifreq); n > 0; n--, ifr++) {
ifreq = *ifr;
if (ioctl(sock, SIOCGIFFLAGS, (char *)&ifreq) < 0) {
logperror("initifs: ioctl (get interface flags)");
continue;
}
if (ifr->ifr_addr.sa_family != AF_INET)
continue;
if ((ifreq.ifr_flags & IFF_UP) == 0)
continue;
if (ifreq.ifr_flags & IFF_LOOPBACK)
continue;
if ((ifreq.ifr_flags & (IFF_MULTICAST | IFF_BROADCAST)) == 0)
continue;
sin = (struct sockaddr_in *)ALLIGN(&ifr->ifr_addr);
interfaces[i].localaddr = sin->sin_addr;
interfaces[i].flags = ifreq.ifr_flags;
interfaces[i].netmask.s_addr = (unsigned long)0xffffffff;
if (ifreq.ifr_flags & IFF_POINTOPOINT) {
if (ioctl(sock, SIOCGIFDSTADDR, (char *)&ifreq) < 0) {
logperror("initifs: ioctl (get destination addr)");
continue;
}
sin = (struct sockaddr_in *)ALLIGN(&ifreq.ifr_addr);
/* A pt-pt link is identified by the remote address */
interfaces[i].address = sin->sin_addr;
interfaces[i].remoteaddr = sin->sin_addr;
/* Simulate broadcast for pt-pt */
interfaces[i].bcastaddr = sin->sin_addr;
interfaces[i].flags |= IFF_BROADCAST;
} else {
/* Non pt-pt links are identified by the local address */
interfaces[i].address = interfaces[i].localaddr;
interfaces[i].remoteaddr = interfaces[i].address;
if (ioctl(sock, SIOCGIFNETMASK, (char *)&ifreq) < 0) {
logperror("initifs: ioctl (get netmask)");
continue;
}
sin = (struct sockaddr_in *)ALLIGN(&ifreq.ifr_addr);
interfaces[i].netmask = sin->sin_addr;
if (ifreq.ifr_flags & IFF_BROADCAST) {
if (ioctl(sock, SIOCGIFBRDADDR, (char *)&ifreq) < 0) {
logperror("initifs: ioctl (get broadcast address)");
continue;
}
sin = (struct sockaddr_in *)ALLIGN(&ifreq.ifr_addr);
interfaces[i].bcastaddr = sin->sin_addr;
}
}
#ifdef notdef
if (debug)
logdebug("Found interface %s, flags 0x%x\n",
pr_name(interfaces[i].localaddr),
interfaces[i].flags);
#endif
i++;
}
num_interfaces = i;
#ifdef notdef
if (debug)
logdebug("Found %d interfaces\n", num_interfaces);
#endif
(void) close(sock);
(void) free(buf);
}
static int
join(sock, sin)
int sock;
struct sockaddr_in *sin;
{
int i;
struct ip_mreq mreq;
if (isbroadcast(sin))
return (0);
mreq.imr_multiaddr = sin->sin_addr;
for (i = 0; i < num_interfaces; i++) {
mreq.imr_interface = interfaces[i].address;
if (setsockopt(sock, IPPROTO_IP, IP_ADD_MEMBERSHIP,
(char *)&mreq, sizeof(mreq)) < 0) {
logperror("setsockopt (IP_ADD_MEMBERSHIP)");
return (-1);
}
}
return (0);
}
int support_multicast()
{
int sock;
u_char ttl = 1;
sock = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
if (sock < 0) {
logperror("support_multicast: socket");
return (0);
}
if (setsockopt(sock, IPPROTO_IP, IP_MULTICAST_TTL,
(char *)&ttl, sizeof(ttl)) < 0) {
(void) close(sock);
return (0);
}
(void) close(sock);
return (1);
}
int
is_directly_connected(in)
struct in_addr in;
{
int i;
for (i = 0; i < num_interfaces; i++) {
/* Check that the subnetwork numbers match */
if ((in.s_addr & interfaces[i].netmask.s_addr ) ==
(interfaces[i].remoteaddr.s_addr & interfaces[i].netmask.s_addr))
return (1);
}
return (0);
}
/*
* TABLES
*/
struct table {
struct in_addr router;
int preference;
int remaining_time;
int in_kernel;
struct table *next;
};
struct table *table;
struct table *
find_router(addr)
struct in_addr addr;
{
struct table *tp;
tp = table;
while (tp) {
if (tp->router.s_addr == addr.s_addr)
return (tp);
tp = tp->next;
}
return (NULL);
}
int max_preference()
{
struct table *tp;
int max = (int)IGNORE_PREFERENCE;
tp = table;
while (tp) {
if (tp->preference > max)
max = tp->preference;
tp = tp->next;
}
return (max);
}
/* Note: this might leave the kernel with no default route for a short time. */
void
age_table(time)
int time;
{
struct table **tpp, *tp;
int recalculate_max = 0;
int max = max_preference();
tpp = &table;
while (*tpp != NULL) {
tp = *tpp;
tp->remaining_time -= time;
if (tp->remaining_time <= 0) {
*tpp = tp->next;
if (tp->in_kernel)
del_route(tp->router);
if (best_preference &&
tp->preference == max)
recalculate_max++;
free((char *)tp);
} else {
tpp = &tp->next;
}
}
if (recalculate_max) {
int max = max_preference();
if (max != IGNORE_PREFERENCE) {
tp = table;
while (tp) {
if (tp->preference == max && !tp->in_kernel) {
add_route(tp->router);
tp->in_kernel++;
}
tp = tp->next;
}
}
}
}
void
record_router(router, preference, ttl)
struct in_addr router;
long preference;
int ttl;
{
struct table *tp;
int old_max = max_preference();
int changed_up = 0; /* max preference could have increased */
int changed_down = 0; /* max preference could have decreased */
if (debug)
logdebug("Recording %s, preference 0x%x\n",
pr_name(router),
preference);
tp = find_router(router);
if (tp) {
if (tp->preference > preference &&
tp->preference == old_max)
changed_down++;
else if (preference > tp->preference)
changed_up++;
tp->preference = preference;
tp->remaining_time = ttl;
} else {
if (preference > old_max)
changed_up++;
tp = (struct table *)ALLIGN(malloc(sizeof(struct table)));
if (tp == NULL) {
logerr("Out of memory\n");
return;
}
tp->router = router;
tp->preference = preference;
tp->remaining_time = ttl;
tp->in_kernel = 0;
tp->next = table;
table = tp;
}
if (!tp->in_kernel &&
(!best_preference || tp->preference == max_preference()) &&
tp->preference != IGNORE_PREFERENCE) {
add_route(tp->router);
tp->in_kernel++;
}
if (tp->preference == IGNORE_PREFERENCE && tp->in_kernel) {
del_route(tp->router);
tp->in_kernel = 0;
}
if (best_preference && changed_down) {
/* Check if we should add routes */
int new_max = max_preference();
if (new_max != IGNORE_PREFERENCE) {
tp = table;
while (tp) {
if (tp->preference == new_max &&
!tp->in_kernel) {
add_route(tp->router);
tp->in_kernel++;
}
tp = tp->next;
}
}
}
if (best_preference && (changed_up || changed_down)) {
/* Check if we should remove routes already in the kernel */
int new_max = max_preference();
tp = table;
while (tp) {
if (tp->preference < new_max && tp->in_kernel) {
del_route(tp->router);
tp->in_kernel = 0;
}
tp = tp->next;
}
}
}
#include <net/route.h>
void
add_route(addr)
struct in_addr addr;
{
if (debug)
logdebug("Add default route to %s\n", pr_name(addr));
rtioctl(addr, SIOCADDRT);
}
void
del_route(addr)
struct in_addr addr;
{
if (debug)
logdebug("Delete default route to %s\n", pr_name(addr));
rtioctl(addr, SIOCDELRT);
}
void
rtioctl(addr, op)
struct in_addr addr;
int op;
{
int sock;
struct rtentry rt;
struct sockaddr_in *sin;
bzero((char *)&rt, sizeof(struct rtentry));
rt.rt_dst.sa_family = AF_INET;
rt.rt_gateway.sa_family = AF_INET;
sin = (struct sockaddr_in *)ALLIGN(&rt.rt_gateway);
sin->sin_addr = addr;
rt.rt_flags = RTF_UP | RTF_GATEWAY;
sock = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
if (sock < 0) {
logperror("rtioctl: socket");
return;
}
if (ioctl(sock, op, (char *)&rt) < 0) {
if (!(op == SIOCADDRT && errno == EEXIST))
logperror("ioctl (add/delete route)");
}
(void) close(sock);
}
/*
* LOGGER
*/
static logging = 0;
void
initlog()
{
logging++;
openlog("in.rdiscd", LOG_PID | LOG_CONS, LOG_DAEMON);
}
/* VARARGS1 */
void
logerr(fmt, a,b,c,d,e,f,g,h)
char *fmt;
{
if (logging)
syslog(LOG_ERR, fmt, a,b,c,d,e,f,g,h);
else
(void) fprintf(stderr, fmt, a,b,c,d,e,f,g,h);
}
/* VARARGS1 */
void
logtrace(fmt, a,b,c,d,e,f,g,h)
char *fmt;
{
if (logging)
syslog(LOG_INFO, fmt, a,b,c,d,e,f,g,h);
else
(void) fprintf(stdout, fmt, a,b,c,d,e,f,g,h);
}
/* VARARGS1 */
void
logdebug(fmt, a,b,c,d,e,f,g,h)
char *fmt;
{
if (logging)
syslog(LOG_DEBUG, fmt, a,b,c,d,e,f,g,h);
else
(void) fprintf(stdout, fmt, a,b,c,d,e,f,g,h);
}
extern char *sys_errlist[];
extern int errno;
void
logperror(str)
char *str;
{
if (logging)
syslog(LOG_ERR, "%s: %s\n", str, sys_errlist[errno]);
else
(void) fprintf(stderr, "%s: %s\n", str, sys_errlist[errno]);
}
#ifdef SYSV
void
bzero(cp, len)
char *cp;
int len;
{
while (--len>=0)
*cp++ = 0;
}
#endif
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