/* * OpenGGSN - Gateway GPRS Support Node * Copyright (C) 2002 Mondru AB. * * The contents of this file may be used under the terms of the GNU * General Public License Version 2, provided that the above copyright * notice and this permission notice is included in all copies or * substantial portions of the software. * * The initial developer of the original code is * Jens Jakobsen * * Contributor(s): * */ /* ggsn.c * */ #ifdef __linux__ #define _GNU_SOURCE 1 /* strdup() prototype, broken arpa/inet.h */ #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "tun.h" #include "../gtp/pdp.h" #include "../gtp/gtp.h" #include "cmdline.h" int maxfd = 0; /* For select() */ int tun_fd = -1; /* Network file descriptor */ struct tun_t *tun; /* TUN instance */ struct in_addr net, mask; /* Network interface */ int debug; /* Print debug output */ /* Used to write process ID to file. Assume someone else will delete */ void log_pid(char *pidfile) { FILE *file; mode_t oldmask; oldmask = umask(022); file = fopen(pidfile, "w"); umask(oldmask); if(!file) return; fprintf(file, "%d\n", getpid()); fclose(file); } int encaps_printf(void *p, void *packet, unsigned len) { int i; if (debug) { printf("The packet looks like this:\n"); for( i=0; il, eua->v[2],eua->v[3],eua->v[4],eua->v[5]); } ip_start = ntoh32(net->s_addr & mask->s_addr); ip_end = ntoh32(hton32(ip_start) | ~mask->s_addr); /* By convention the first address is the network address, and the last */ /* address is the broadcast address. This way two IP addresses are "lost" */ ip_start++; if (eua->l == 0) { /* No address supplied. Find one that is available! */ /* This routine does linear search. In order to support millions of * addresses we should instead keep a linked list of available adresses */ for (ip_cur = ip_start; ip_cur < ip_end; ip_cur++) { addr.s_addr = hton32(ip_cur); pdp_ntoeua(&addr, &eua_); if (pdp_ipget(&pdp_, ipif, &eua_) == -1) { pdp_ntoeua(&addr, &pdp->eua); pdp->ipif = ipif; return 0; }; } return EOF; /* No addresses available */ } else { /* Address supplied */ if (pdp_ipget(&pdp_, ipif, eua) == -1) { pdp->ipif = ipif; pdp->eua.l = eua->l; memcpy(pdp->eua.v, eua->v, eua->l); return 0; } else return EOF; /* Specified address not available */ } } int delete_context(struct pdp_t *pdp) { pdp_ipdel(pdp); return 0; } int create_context(struct pdp_t *pdp) { if (debug) printf("Received create PDP context request\n"); pdp->eua.l=0; /* TODO: Indicates dynamic IP */ /* ulcpy(&pdp->qos_neg, &pdp->qos_req, sizeof(pdp->qos_req.v)); */ memcpy(pdp->qos_neg0, pdp->qos_req0, sizeof(pdp->qos_neg)); getip(pdp, tun, &pdp->eua, &net, &mask); pdp_ipset(pdp, pdp->ipif, &pdp->eua); return 0; /* Success */ } int create_tun() { char buf[1024]; char snet[100], smask[100]; if ((tun_fd = tun_newtun((struct tun_t**) &tun)) > maxfd) maxfd = tun_fd; if (tun_fd == -1) { printf("Failed to open tun\n"); exit(1); } strncpy(snet, inet_ntoa(net), 100); strncpy(smask, inet_ntoa(mask), 100); sprintf(buf, "ifconfig %s %s mtu 1450 netmask %s", tun->devname, snet, smask); if (debug) printf("%s\n", buf); system(buf); system("echo 1 > /proc/sys/net/ipv4/ip_forward"); return 0; } int encaps_gtp(void *gsn, struct tun_t *tun, void *pack, unsigned len) { struct pdp_t *pdp; struct in_addr addr; struct ul66_t eua; /*printf("encaps_gtp. Packet received: forwarding to gtp.\n");*/ /* First we need to extract the IP destination address */ memcpy(&addr.s_addr, pack+16, 4); /* This ought to be dest addr */ pdp_ntoeua(&addr, &eua); if (pdp_ipget(&pdp, tun, &eua) == 0) { return gtp_gpdu((struct gsn_t*) gsn, pdp, pack, len); } else { if (debug) printf("Received packet with no destination!!!\n"); return 0; } } int encaps_tun(struct pdp_t *pdp, void *pack, unsigned len) { /* printf("encaps_tun. Packet received: forwarding to tun\n");*/ return tun_encaps((struct tun_t*) pdp->ipif, pack, len); } int main(int argc, char **argv) { /* gengeopt declarations */ struct gengetopt_args_info args_info; struct hostent *host; struct in_addr listen; int gtpfd = -1; /* Network file descriptor */ struct gsn_t *gsn; /* GSN instance */ fd_set fds; /* For select() */ struct timeval idleTime; /* How long to select() */ int i; /* for loop */ struct ul_t qos, apn; unsigned char qosh[3], apnh[256]; int timelimit; /* Number of seconds to be connected */ int starttime; /* Time program was started */ /* open a connection to the syslog daemon */ /*openlog(PACKAGE, LOG_PID, LOG_DAEMON);*/ openlog(PACKAGE, (LOG_PID | LOG_PERROR), LOG_DAEMON); if (cmdline_parser (argc, argv, &args_info) != 0) exit(1); if (args_info.debug_flag) { printf("listen: %s\n", args_info.listen_arg); printf("conf: %s\n", args_info.conf_arg); printf("fg: %d\n", args_info.fg_flag); printf("debug: %d\n", args_info.debug_flag); printf("qos: %#08x\n", args_info.qos_arg); printf("apn: %s\n", args_info.apn_arg); printf("net: %s\n", args_info.net_arg); printf("mask: %s\n", args_info.mask_arg); printf("pidfile: %s\n", args_info.pidfile_arg); printf("statedir: %s\n", args_info.statedir_arg); printf("timelimit: %d\n", args_info.timelimit_arg); } /* Try out our new parser */ if (cmdline_parser_configfile (args_info.conf_arg, &args_info, 0) != 0) exit(1); if (args_info.debug_flag) { printf("cmdline_parser_configfile\n"); printf("listen: %s\n", args_info.listen_arg); printf("conf: %s\n", args_info.conf_arg); printf("fg: %d\n", args_info.fg_flag); printf("debug: %d\n", args_info.debug_flag); printf("qos: %#08x\n", args_info.qos_arg); printf("apn: %s\n", args_info.apn_arg); printf("net: %s\n", args_info.net_arg); printf("mask: %s\n", args_info.mask_arg); printf("pidfile: %s\n", args_info.pidfile_arg); printf("statedir: %s\n", args_info.statedir_arg); printf("timelimit: %d\n", args_info.timelimit_arg); } /* Handle each option */ /* foreground */ /* If flag not given run as a daemon */ if (!args_info.fg_flag) { closelog(); /* Close the standard file descriptors. */ /* Is this really needed ? */ freopen("/dev/null", "w", stdout); freopen("/dev/null", "w", stderr); freopen("/dev/null", "r", stdin); daemon(0, 0); /* Open log again. This time with new pid */ openlog(PACKAGE, LOG_PID, LOG_DAEMON); } /* debug */ debug = args_info.debug_flag; /* pidfile */ /* This has to be done after we have our final pid */ if (args_info.pidfile_arg) { log_pid(args_info.pidfile_arg); } /* listen */ /* If no listen option is specified listen to any local port */ /* Do hostname lookup to translate hostname to IP address */ if (args_info.listen_arg) { if (!(host = gethostbyname(args_info.listen_arg))) { fprintf(stderr, "%s: Invalid listening address: %s!\n", PACKAGE, args_info.listen_arg); syslog(LOG_ERR, "Invalid listening address: %s!", args_info.listen_arg); return 1; } else { memcpy(&listen.s_addr, host->h_addr, host->h_length); } } else { listen.s_addr = htonl(INADDR_ANY); } /* net */ /* Store net as in_addr */ if (args_info.net_arg) { if (!inet_aton(args_info.net_arg, &net)) { fprintf(stderr, "%s: Invalid network address: %s!\n", PACKAGE, args_info.net_arg); syslog(LOG_ERR, "Invalid network address: %s!", args_info.net_arg); return 1; } } /* mask */ /* Store mask as in_addr */ if (args_info.mask_arg) { if (!inet_aton(args_info.mask_arg, &mask)) { fprintf(stderr, "%s: Invalid network mask: %s!\n", PACKAGE, args_info.mask_arg); syslog(LOG_ERR, "Invalid network mask: %s!", args_info.mask_arg); return 1; } } /* Timelimit */ timelimit = args_info.timelimit_arg; starttime = time(NULL); /* qos */ qos.l = 3; qos.v = qosh; qos.v[2] = (args_info.qos_arg) & 0xff; qos.v[1] = ((args_info.qos_arg) >> 8) & 0xff; qos.v[0] = ((args_info.qos_arg) >> 16) & 0xff; /* apn */ if (strlen(args_info.apn_arg)>255) { printf("invalid APN\n"); exit(1); } apn.l = strlen(args_info.apn_arg) + 1; apn.v = apnh; apn.v[0] = (char) strlen(args_info.apn_arg); strncpy(&apn.v[1], args_info.apn_arg, 255); if (debug) printf("gtpclient: Initialising GTP tunnel\n"); if ((gtpfd = gtp_new(&gsn, args_info.statedir_arg, &listen)) > maxfd) maxfd = gtpfd; if ((gtpfd = gtp_fd(gsn)) > maxfd) maxfd = gtpfd; gtp_set_cb_gpdu(gsn, encaps_tun); gtp_set_cb_delete_context(gsn, delete_context); gtp_set_cb_create_context(gsn, create_context); create_tun(); /******************************************************************/ /* Main select loop */ /******************************************************************/ while (((starttime + timelimit) > time(NULL)) || (0 == timelimit)) { FD_ZERO(&fds); if (tun_fd != -1) FD_SET(tun_fd, &fds); if (gtpfd != -1) FD_SET(gtpfd, &fds); gtp_retranstimeout(gsn, &idleTime); switch (select(maxfd + 1, &fds, NULL, NULL, &idleTime)) { case -1: /* Error with select() * if (errno != EINTR) syslog(LOG_ERR, "CTRL: Error with select(), quitting"); *goto leave_clear_call;*/ syslog(LOG_ERR, "GGSN: select = -1"); break; case 0: gtp_retrans(gsn); /* Only retransmit if nothing else */ break; default: break; } if (tun_fd != -1 && FD_ISSET(tun_fd, &fds) && tun_decaps(tun, encaps_gtp, gsn) < 0) { syslog(LOG_ERR, "TUN read failed (fd)=(%d)", tun_fd); } if (gtpfd != -1 && FD_ISSET(gtpfd, &fds) && gtp_decaps(gsn) < 0) { syslog(LOG_ERR, "GTP read failed (gre)=(%d)", gtpfd); } } gtp_free(gsn); return 1; }