/* irdpd 1.10 - Internet router discovery protocol daemon. * Author: Kees J. Bot * 28 May 1994 * Activily solicitate or passively look for routers. * Based heavily on its forerunners, the irdp_sol and rip2icmp daemons by * Philip Homburg. */ #define nil 0 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define MAX_SOLICITATIONS 3 /* # router solicitations. */ #define SOLICITATION_INTERVAL 3 /* Secs between solicitate retries. */ #define DEST_TO (10*60) /* 10 minutes */ #define NEW_ROUTE (5*60) /* 5 minutes */ #define DANGER (2*60) /* Nearing a advert timeout? */ #define DEAD_TO (24L*60*60) /* 24 hours */ #define DEAD_PREF 0x80000000L /* From RFC 1256 */ #define MaxAdvertisementInterval (DEST_TO/2) /* Chosen to jive with RIP */ #define AdvertisementLifetime DEST_TO #define PRIO_OFF_DEF -1024 #define RIP_REPLY 2 /* It's now or never. */ #define IMMEDIATELY ((time_t) ((time_t) -1 < 0 ? LONG_MIN : 0)) #define NEVER ((time_t) ((time_t) -1 < 0 ? LONG_MAX : ULONG_MAX)) #if !__minix_vmd /* Standard Minix needs to choose between router discovery and RIP info. */ int do_rdisc= 1; int do_rip= 0; #else /* VMD Minix can do both at once. */ #define do_rdisc 1 #define do_rip 1 #endif int rip_fd; /* For incoming RIP packet. */ int irdp_fd; /* Receive or transmit IRDP packets. */ char *udp_device; /* UDP device to use. */ char *ip_device; /* IP device to use. */ int priority_offset; /* Offset to make my routes less preferred. */ int bcast= 0; /* Broadcast adverts to all. */ int debug= 0; char rip_buf[8192]; /* Incoming RIP packet buffer. */ char irdp_buf[1024]; /* IRDP buffer. */ typedef struct routeinfo { u8_t command; u8_t version; u16_t zero1; struct routedata { u16_t family; u16_t zero2; u32_t ip_addr; u32_t zero3, zero4; u32_t metric; } data[1]; } routeinfo_t; typedef struct table { ipaddr_t tab_gw; i32_t tab_pref; time_t tab_time; } table_t; table_t *table; /* Collected table of routing info. */ size_t table_size; int sol_retries= MAX_SOLICITATIONS; time_t next_sol= IMMEDIATELY; time_t next_advert= NEVER; time_t router_advert_valid= IMMEDIATELY; time_t now; void report(const char *label) /* irdpd: /dev/hd0: Device went up in flames */ { fprintf(stderr, "irdpd: %s: %s\n", label, strerror(errno)); } void fatal(const char *label) /* irdpd: /dev/house: Taking this with it */ { report(label); exit(1); } #if DEBUG char *addr2name(ipaddr_t host) /* Translate an IP address to a printable name. */ { struct hostent *hostent; hostent= gethostbyaddr((char *) &host, sizeof(host), AF_INET); return hostent == nil ? inet_ntoa(host) : hostent->h_name; } #else #define addr2name(host) inet_ntoa(host) #endif void print_table(void) /* Show the collected routing table. */ { int i; table_t *ptab; struct tm *tm; for (i= 0, ptab= table; i < table_size; i++, ptab++) { if (ptab->tab_time < now - DEAD_TO) continue; tm= localtime(&ptab->tab_time); printf("%-40s %6ld %02d:%02d:%02d\n", addr2name(ptab->tab_gw), (long) ptab->tab_pref, tm->tm_hour, tm->tm_min, tm->tm_sec); } } void advertize(ipaddr_t host) /* Send a router advert to a host. */ { char *buf, *data; ip_hdr_t *ip_hdr; icmp_hdr_t *icmp_hdr; int i; table_t *ptab; buf= malloc(sizeof(*ip_hdr) + offsetof(icmp_hdr_t, ih_dun.uhd_data) + table_size * (sizeof(ipaddr_t) + sizeof(u32_t))); if (buf == nil) fatal("heap error"); ip_hdr= (ip_hdr_t *) buf; icmp_hdr= (icmp_hdr_t *) (ip_hdr + 1); ip_hdr->ih_vers_ihl= 0x45; ip_hdr->ih_dst= host; icmp_hdr->ih_type= ICMP_TYPE_ROUTER_ADVER; icmp_hdr->ih_code= 0; icmp_hdr->ih_hun.ihh_ram.iram_na= 0; icmp_hdr->ih_hun.ihh_ram.iram_aes= 2; icmp_hdr->ih_hun.ihh_ram.iram_lt= htons(AdvertisementLifetime); data= (char *) icmp_hdr->ih_dun.uhd_data; /* Collect gateway entries from the table. */ for (i= 0, ptab= table; i < table_size; i++, ptab++) { if (ptab->tab_time < now - DEAD_TO) continue; icmp_hdr->ih_hun.ihh_ram.iram_na++; if (ptab->tab_time < now - DEST_TO) ptab->tab_pref= DEAD_PREF; * (ipaddr_t *) data= ptab->tab_gw; data+= sizeof(ipaddr_t); * (i32_t *) data= htonl(ptab->tab_pref); data+= sizeof(i32_t); } icmp_hdr->ih_chksum= 0; icmp_hdr->ih_chksum= ~oneC_sum(0, icmp_hdr, data - (char *) icmp_hdr); if (icmp_hdr->ih_hun.ihh_ram.iram_na > 0) { /* Send routing info. */ if (debug) { printf("Routing table send to %s:\n", addr2name(host)); print_table(); } if (write(irdp_fd, buf, data - buf) < 0) { (errno == EIO ? fatal : report)(ip_device); } } free(buf); } void time_functions(void) /* Perform time dependend functions: router solicitation, router advert. */ { if (now >= next_sol) { char buf[sizeof(ip_hdr_t) + 8]; ip_hdr_t *ip_hdr; icmp_hdr_t *icmp_hdr; if (sol_retries == 0) { /* Stop soliciting. */ next_sol= NEVER; #if !__minix_vmd /* Switch to RIP if no router responded. */ if (table_size == 0) { do_rip= 1; do_rdisc= 0; } #endif return; } /* Broadcast a router solicitation to find a router. */ ip_hdr= (ip_hdr_t *) buf; icmp_hdr= (icmp_hdr_t *) (ip_hdr + 1); ip_hdr->ih_vers_ihl= 0x45; ip_hdr->ih_dst= HTONL(0xFFFFFFFFL); icmp_hdr->ih_type= ICMP_TYPE_ROUTE_SOL; icmp_hdr->ih_code= 0; icmp_hdr->ih_chksum= 0; icmp_hdr->ih_hun.ihh_unused= 0; icmp_hdr->ih_chksum= ~oneC_sum(0, icmp_hdr, 8); if (debug) printf("Broadcasting router solicitation\n"); if (write(irdp_fd, buf, sizeof(buf)) < 0) fatal("sending router solicitation failed"); /* Schedule the next packet. */ next_sol= now + SOLICITATION_INTERVAL; sol_retries--; } if (now >= next_advert) { /* Advertize routes to the local host (normally), or * broadcast them (to keep bad hosts up.) */ advertize(bcast ? HTONL(0xFFFFFFFFL) : HTONL(0x7F000001L)); next_advert= now + MaxAdvertisementInterval; #if !__minix_vmd /* Make sure we are listening to RIP now. */ do_rip= 1; do_rdisc= 0; #endif } } void add_gateway(ipaddr_t host, i32_t pref) /* Add a router with given address and preference to the routing table. */ { table_t *oldest, *ptab; int i; /* Look for the host, or select the oldest entry. */ oldest= nil; for (i= 0, ptab= table; i < table_size; i++, ptab++) { if (ptab->tab_gw == host) break; if (oldest == nil || ptab->tab_time < oldest->tab_time) oldest= ptab; } /* Don't evict the oldest if it is still valid. */ if (oldest != nil && oldest->tab_time >= now - DEST_TO) oldest= nil; /* Expand the table? */ if (i == table_size && oldest == nil) { table_size++; table= realloc(table, table_size * sizeof(*table)); if (table == nil) fatal("heap error"); oldest= &table[table_size - 1]; } if (oldest != nil) { ptab= oldest; ptab->tab_gw= host; ptab->tab_pref= DEAD_PREF; } /* Replace an entry if the new one looks more promising. */ if (pref >= ptab->tab_pref || ptab->tab_time <= now - NEW_ROUTE) { ptab->tab_pref= pref; ptab->tab_time= now; } } void rip_incoming(ssize_t n) /* Use a RIP packet to add to the router table. (RIP packets are really for * between routers, but often it is the only information around.) */ { udp_io_hdr_t *udp_io_hdr; u32_t default_dist; i32_t pref; routeinfo_t *routeinfo; struct routedata *data, *end; /* We don't care about RIP packets when there are router adverts. */ if (now + MaxAdvertisementInterval < router_advert_valid) return; udp_io_hdr= (udp_io_hdr_t *) rip_buf; if (udp_io_hdr->uih_data_len != n - sizeof(*udp_io_hdr)) { if (debug) printf("Bad sized route packet (discarded)\n"); return; } routeinfo= (routeinfo_t *) (rip_buf + sizeof(*udp_io_hdr) + udp_io_hdr->uih_ip_opt_len); if (routeinfo->command != RIP_REPLY) { if (debug) { printf("RIP-%d packet command %d ignored\n", routeinfo->version, routeinfo->command); } return; } /* Look for a default route, the route to the gateway. */ end= (struct routedata *) (rip_buf + n); default_dist= (u32_t) -1; for (data= routeinfo->data; data < end; data++) { if (ntohs(data->family) != AF_INET || data->ip_addr != 0) continue; default_dist= ntohl(data->metric); if (default_dist >= 256) { if (debug) { printf("Strange metric %lu\n", (unsigned long) default_dist); } } } pref= default_dist >= 256 ? 1 : 512 - default_dist; pref+= priority_offset; /* Add the gateway to the table with the calculated preference. */ add_gateway(udp_io_hdr->uih_src_addr, pref); if (debug) { printf("Routing table after RIP-%d packet from %s:\n", routeinfo->version, addr2name(udp_io_hdr->uih_src_addr)); print_table(); } /* Start advertizing. */ if (next_advert == NEVER) next_advert= IMMEDIATELY; } void irdp_incoming(ssize_t n) /* Look for router solicitations and router advertisements. The solicitations * are probably from other irdpd daemons, we answer them if we do not expect * a real router to answer. The advertisements cause this daemon to shut up. */ { ip_hdr_t *ip_hdr; icmp_hdr_t *icmp_hdr; int ip_hdr_len; char *data; int i; int router; ipaddr_t addr; i32_t pref; time_t valid; ip_hdr= (ip_hdr_t *) irdp_buf; ip_hdr_len= (ip_hdr->ih_vers_ihl & IH_IHL_MASK) << 2; if (n < ip_hdr_len + 8) { if (debug) printf("Bad sized ICMP (discarded)\n"); return; } icmp_hdr= (icmp_hdr_t *)(irdp_buf + ip_hdr_len); /* Did I send this myself? */ if (ip_hdr->ih_src == ip_hdr->ih_dst) return; if ((htonl(ip_hdr->ih_src) & 0xFF000000L) == 0x7F000000L) return; if (icmp_hdr->ih_type != ICMP_TYPE_ROUTER_ADVER) return; /* Incoming router advertisement, the kind of packet the TCP/IP task * is very happy with. No need to solicit further. */ sol_retries= 0; /* Add router info to our table. Also see if the packet really came * from a router. If so then we can go dormant for the lifetime of * the ICMP. */ router= 0; data= (char *) icmp_hdr->ih_dun.uhd_data; for (i= 0; i < icmp_hdr->ih_hun.ihh_ram.iram_na; i++) { addr= * (ipaddr_t *) data; data+= sizeof(ipaddr_t); pref= htonl(* (i32_t *) data); data+= sizeof(i32_t); if (addr == ip_hdr->ih_src) { /* The sender is in the routing table! */ router= 1; } add_gateway(addr, pref); } valid= now + ntohs(icmp_hdr->ih_hun.ihh_ram.iram_lt); if (router) router_advert_valid= valid; /* Restart advertizing close to the timeout of the advert. (No more * irdpd adverts if the router stays alive.) */ if (router || next_advert > valid - DANGER) next_advert= valid - DANGER; if (debug) { printf("Routing table after advert received from %s:\n", addr2name(ip_hdr->ih_src)); print_table(); if (router) { struct tm *tm= localtime(&router_advert_valid); printf( "This router advert is valid until %02d:%02d:%02d\n", tm->tm_hour, tm->tm_min, tm->tm_sec); } } } void sig_handler(int sig) /* A signal changes the debug level. */ { switch (sig) { case SIGUSR1: debug++; break; case SIGUSR2: debug= 0; break; } } void usage(void) { fprintf(stderr, "Usage: irdpd [-bd] [-U udp-device] [-I ip-device] [-o priority-offset]\n"); exit(1); } int main(int argc, char **argv) { int i; struct servent *service; udpport_t route_port; nwio_udpopt_t udpopt; nwio_ipopt_t ipopt; asynchio_t asyn; time_t timeout; struct timeval tv; struct sigaction sa; char *offset_arg, *offset_end; long arg; udp_device= ip_device= nil; offset_arg= nil; for (i = 1; i < argc && argv[i][0] == '-'; i++) { char *p= argv[i] + 1; if (p[0] == '-' && p[1] == 0) { i++; break; } while (*p != 0) { switch (*p++) { case 'U': if (udp_device != nil) usage(); if (*p == 0) { if (++i == argc) usage(); p= argv[i]; } udp_device= p; p= ""; break; case 'I': if (ip_device != nil) usage(); if (*p == 0) { if (++i == argc) usage(); p= argv[i]; } ip_device= p; p= ""; break; case 'o': if (offset_arg != nil) usage(); if (*p == 0) { if (++i == argc) usage(); p= argv[i]; } offset_arg= p; p= ""; break; case 'b': bcast= 1; break; case 's': /*obsolete*/ break; case 'd': debug= 1; break; default: usage(); } } } if (i != argc) usage(); /* Debug level signals. */ sa.sa_handler= sig_handler; sigemptyset(&sa.sa_mask); sa.sa_flags= 0; sigaction(SIGUSR1, &sa, nil); sigaction(SIGUSR2, &sa, nil); if (udp_device == nil && (udp_device= getenv("UDP_DEVICE")) == nil) udp_device= UDP_DEVICE; if (ip_device == nil && (ip_device= getenv("IP_DEVICE")) == nil) ip_device= IP_DEVICE; if (offset_arg == nil) { priority_offset= PRIO_OFF_DEF; } else { arg= strtol(offset_arg, &offset_end, 0); if (*offset_end != 0 || (priority_offset= arg) != arg) usage(); } if ((service= getservbyname("route", "udp")) == nil) { fprintf(stderr, "irdpd: unable to look up the port number for the 'route' service\n"); exit(1); } route_port= (udpport_t) service->s_port; if ((rip_fd= open(udp_device, O_RDWR)) < 0) fatal(udp_device); udpopt.nwuo_flags= NWUO_COPY | NWUO_LP_SET | NWUO_DI_LOC | NWUO_EN_BROAD | NWUO_RP_SET | NWUO_RA_ANY | NWUO_RWDATALL | NWUO_DI_IPOPT; udpopt.nwuo_locport= route_port; udpopt.nwuo_remport= route_port; if (ioctl(rip_fd, NWIOSUDPOPT, &udpopt) < 0) fatal("setting UDP options failed"); if ((irdp_fd= open(ip_device, O_RDWR)) < 0) fatal(ip_device); ipopt.nwio_flags= NWIO_COPY | NWIO_EN_LOC | NWIO_EN_BROAD | NWIO_REMANY | NWIO_PROTOSPEC | NWIO_HDR_O_SPEC | NWIO_RWDATALL; ipopt.nwio_tos= 0; ipopt.nwio_ttl= 1; ipopt.nwio_df= 0; ipopt.nwio_hdropt.iho_opt_siz= 0; ipopt.nwio_rem= HTONL(0xFFFFFFFFL); ipopt.nwio_proto= IPPROTO_ICMP; if (ioctl(irdp_fd, NWIOSIPOPT, &ipopt) < 0) fatal("can't configure ICMP channel"); asyn_init(&asyn); while (1) { ssize_t r; if (do_rip) { /* Try a RIP read. */ r= asyn_read(&asyn, rip_fd, rip_buf, sizeof(rip_buf)); if (r < 0) { if (errno == EIO) fatal(udp_device); if (errno != EINPROGRESS) report(udp_device); } else { now= time(nil); rip_incoming(r); } } if (do_rdisc) { /* Try an IRDP read. */ r= asyn_read(&asyn, irdp_fd, irdp_buf, sizeof(irdp_buf)); if (r < 0) { if (errno == EIO) fatal(ip_device); if (errno != EINPROGRESS) report(ip_device); } else { now= time(nil); irdp_incoming(r); } } fflush(stdout); /* Compute the next wakeup call. */ timeout= next_sol < next_advert ? next_sol : next_advert; /* Wait for a RIP or IRDP packet or a timeout. */ tv.tv_sec= timeout; tv.tv_usec= 0; if (asyn_wait(&asyn, 0, timeout == NEVER ? nil : &tv) < 0) { /* Timeout? */ if (errno != EINTR && errno != EAGAIN) fatal("asyn_wait()"); now= time(nil); time_functions(); } } }