#include #include #include #include #include #include #include #include #include #include #include #include #include /* for getopts */ #include #include "ipconfig.h" #include "netdev.h" #include "bootp_packet.h" #include "bootp_proto.h" #include "dhcp_proto.h" #include "packet.h" static const char sysfs_class_net[] = "/sys/class/net"; static const char *progname; static jmp_buf abort_buf; static char do_not_config; static unsigned int default_caps = CAP_DHCP | CAP_BOOTP | CAP_RARP; static int loop_timeout = -1; static int configured; static int bringup_first = 0; /* DHCP vendor class identifier */ char vendor_class_identifier[260]; int vendor_class_identifier_len; struct state { int state; int restart_state; time_t expire; int retry_period; struct netdev *dev; struct state *next; }; static inline const char *my_inet_ntoa(uint32_t addr) { struct in_addr a; a.s_addr = addr; return inet_ntoa(a); } static void print_device_config(struct netdev *dev) { printf("IP-Config: %s complete (from %s):\n", dev->name, my_inet_ntoa(dev->serverid ? dev->serverid : dev->ip_server)); printf(" address: %-16s ", my_inet_ntoa(dev->ip_addr)); printf("broadcast: %-16s ", my_inet_ntoa(dev->ip_broadcast)); printf("netmask: %-16s\n", my_inet_ntoa(dev->ip_netmask)); printf(" gateway: %-16s ", my_inet_ntoa(dev->ip_gateway)); printf("dns0 : %-16s ", my_inet_ntoa(dev->ip_nameserver[0])); printf("dns1 : %-16s\n", my_inet_ntoa(dev->ip_nameserver[1])); if (dev->hostname[0]) printf(" host : %-64s\n", dev->hostname); if (dev->dnsdomainname[0]) printf(" domain : %-64s\n", dev->dnsdomainname); if (dev->nisdomainname[0]) printf(" nisdomain: %-64s\n", dev->nisdomainname); printf(" rootserver: %s ", my_inet_ntoa(dev->ip_server)); printf("rootpath: %s\n", dev->bootpath); printf(" filename : %s\n", dev->filename); } static void configure_device(struct netdev *dev) { if (do_not_config) return; if (netdev_setmtu(dev)) printf("IP-Config: failed to set MTU on %s to %u\n", dev->name, dev->mtu); if (netdev_setaddress(dev)) printf("IP-Config: failed to set addresses on %s\n", dev->name); if (netdev_setdefaultroute(dev)) printf("IP-Config: failed to set default route on %s\n", dev->name); if (dev->hostname[0] && sethostname(dev->hostname, strlen(dev->hostname))) printf("IP-Config: failed to set hostname '%s' from %s\n", dev->hostname, dev->name); } /* * Escape shell varialbes in git style: * Always start with a single quote ('), then leave all characters * except ' and ! unchanged. */ static void write_option(FILE* f, const char* name, const char* chr) { fprintf(f, "%s='", name); while (*chr) { switch (*chr) { case '!': case '\'': fprintf(f, "'\\%c'", *chr); break; default: fprintf(f, "%c", *chr); break; } ++chr; } fprintf(f, "'\n"); } static void dump_device_config(struct netdev *dev) { char fn[40]; FILE *f; snprintf(fn, sizeof(fn), "/tmp/net-%s.conf", dev->name); f = fopen(fn, "w"); if (f) { write_option(f, "DEVICE", dev->name); write_option(f, "IPV4ADDR", my_inet_ntoa(dev->ip_addr)); write_option(f, "IPV4BROADCAST", my_inet_ntoa(dev->ip_broadcast)); write_option(f, "IPV4NETMASK", my_inet_ntoa(dev->ip_netmask)); write_option(f, "IPV4GATEWAY", my_inet_ntoa(dev->ip_gateway)); write_option(f, "IPV4DNS0", my_inet_ntoa(dev->ip_nameserver[0])); write_option(f, "IPV4DNS1", my_inet_ntoa(dev->ip_nameserver[1])); write_option(f, "HOSTNAME", dev->hostname); write_option(f, "DNSDOMAIN", dev->dnsdomainname); write_option(f, "NISDOMAIN", dev->nisdomainname); write_option(f, "ROOTSERVER", my_inet_ntoa(dev->ip_server)); write_option(f, "ROOTPATH", dev->bootpath); write_option(f, "filename", dev->filename); fclose(f); } } static uint32_t inet_class_netmask(uint32_t ip) { ip = ntohl(ip); if (IN_CLASSA(ip)) return htonl(IN_CLASSA_NET); if (IN_CLASSB(ip)) return htonl(IN_CLASSB_NET); if (IN_CLASSC(ip)) return htonl(IN_CLASSC_NET); return INADDR_ANY; } static void postprocess_device(struct netdev *dev) { if (dev->ip_netmask == INADDR_ANY) { dev->ip_netmask = inet_class_netmask(dev->ip_addr); printf("IP-Config: %s guessed netmask %s\n", dev->name, my_inet_ntoa(dev->ip_netmask)); } if (dev->ip_broadcast == INADDR_ANY) { dev->ip_broadcast = (dev->ip_addr & dev->ip_netmask) | ~dev->ip_netmask; printf("IP-Config: %s guessed broadcast address %s\n", dev->name, my_inet_ntoa(dev->ip_broadcast)); } if (dev->ip_nameserver[0] == INADDR_ANY) { dev->ip_nameserver[0] = dev->ip_server; printf("IP-Config: %s guessed nameserver address %s\n", dev->name, my_inet_ntoa(dev->ip_nameserver[0])); } } static void complete_device(struct netdev *dev) { postprocess_device(dev); configure_device(dev); dump_device_config(dev); print_device_config(dev); ++configured; dev->next = ifaces; ifaces = dev; } /* * Returns: * 0 = Not handled, try again later * 1 = Handled */ static int process_receive_event(struct state *s, time_t now) { int handled = 1; switch (s->state) { case DEVST_ERROR: return 0; /* Not handled */ case DEVST_COMPLETE: return 0; /* Not handled as already configured */ case DEVST_BOOTP: s->restart_state = DEVST_BOOTP; switch (bootp_recv_reply(s->dev)) { case -1: s->state = DEVST_ERROR; break; case 0: handled = 0; break; case 1: s->state = DEVST_COMPLETE; dprintf("\n bootp reply\n"); break; } break; case DEVST_DHCPDISC: s->restart_state = DEVST_DHCPDISC; switch (dhcp_recv_offer(s->dev)) { case -1: s->state = DEVST_ERROR; break; case 0: handled = 0; break; case DHCPOFFER: /* Offer received */ s->state = DEVST_DHCPREQ; dhcp_send_request(s->dev); break; } break; case DEVST_DHCPREQ: s->restart_state = DEVST_DHCPDISC; switch (dhcp_recv_ack(s->dev)) { case -1: /* error */ s->state = DEVST_ERROR; break; case 0: handled = 0; break; case DHCPACK: /* ACK received */ s->state = DEVST_COMPLETE; break; case DHCPNAK: /* NAK received */ s->state = DEVST_DHCPDISC; break; } break; default: dprintf("\n"); handled = 0; break; } switch (s->state) { case DEVST_COMPLETE: complete_device(s->dev); break; case DEVST_ERROR: /* error occurred, try again in 10 seconds */ s->expire = now + 10; break; } return handled; } static void process_timeout_event(struct state *s, time_t now) { int ret = 0; /* * Is the link up? If not, try again in 1 second. */ if (!netdev_running(s->dev)) { s->expire = now + 1; s->state = s->restart_state; return; } /* * If we had an error, restore a sane state to * restart from. */ if (s->state == DEVST_ERROR) s->state = s->restart_state; /* * Now send a packet depending on our state. */ switch (s->state) { case DEVST_BOOTP: ret = bootp_send_request(s->dev); s->restart_state = DEVST_BOOTP; break; case DEVST_DHCPDISC: ret = dhcp_send_discover(s->dev); s->restart_state = DEVST_DHCPDISC; break; case DEVST_DHCPREQ: ret = dhcp_send_request(s->dev); s->restart_state = DEVST_DHCPDISC; break; } if (ret == -1) { s->state = DEVST_ERROR; s->expire = now + 10; } else { s->expire = now + s->retry_period; s->retry_period *= 2; if (s->retry_period > 60) s->retry_period = 60; } } static struct state *slist; struct netdev *ifaces; /* * Returns: * 0 = No dhcp/bootp packet was received * 1 = A packet was received and handled */ static int do_pkt_recv(int pkt_fd, time_t now) { int ret; struct state *s; for (s = slist; s; s = s->next) { ret |= process_receive_event(s, now); } return ret; } static int loop(void) { #define NR_FDS 1 struct pollfd fds[NR_FDS]; struct state *s; int pkt_fd; int nr = 0, rc = 0; struct timeval now, prev; time_t start; pkt_fd = packet_open(); if (pkt_fd == -1) { perror("packet_open"); return -1; } fds[0].fd = pkt_fd; fds[0].events = POLLRDNORM; gettimeofday(&now, NULL); start = now.tv_sec; while (1) { int timeout = 60; int pending = 0; int done = 0; int timeout_ms; int x; for (s = slist; s; s = s->next) { dprintf("%s: state = %d\n", s->dev->name, s->state); if (s->state == DEVST_COMPLETE) { done++; continue; } pending++; if (s->expire - now.tv_sec <= 0) { dprintf("timeout\n"); process_timeout_event(s, now.tv_sec); } if (timeout > s->expire - now.tv_sec) timeout = s->expire - now.tv_sec; } if (pending == 0 || (bringup_first && done)) break; timeout_ms = timeout * 1000; for (x = 0; x < 2; x++) { int delta_ms; if (timeout_ms <= 0) timeout_ms = 100; nr = poll(fds, NR_FDS, timeout_ms); prev = now; gettimeofday(&now, NULL); if ((fds[0].revents & POLLRDNORM)) { if (do_pkt_recv(pkt_fd, now.tv_sec) == 1) break; } if (loop_timeout >= 0 && now.tv_sec - start >= loop_timeout) { printf("IP-Config: no response after %d " "secs - giving up\n", loop_timeout); rc = -1; goto bail; } delta_ms = (now.tv_sec - prev.tv_sec) * 1000; delta_ms += (now.tv_usec - prev.tv_usec) / 1000; dprintf("Delta: %d ms\n", delta_ms); timeout_ms -= delta_ms; } } bail: packet_close(); return rc; } static int add_one_dev(struct netdev *dev) { struct state *state; state = malloc(sizeof(struct state)); if (!state) return -1; state->dev = dev; state->expire = time(NULL); state->retry_period = 1; /* * Select the state that we start from. */ if (dev->caps & CAP_DHCP && dev->ip_addr == INADDR_ANY) { state->restart_state = state->state = DEVST_DHCPDISC; } else if (dev->caps & CAP_DHCP) { state->restart_state = state->state = DEVST_DHCPREQ; } else if (dev->caps & CAP_BOOTP) { state->restart_state = state->state = DEVST_BOOTP; } state->next = slist; slist = state; return 0; } static void parse_addr(uint32_t * addr, const char *ip) { struct in_addr in; if (inet_aton(ip, &in) == 0) { fprintf(stderr, "%s: can't parse IP address '%s'\n", progname, ip); longjmp(abort_buf, 1); } *addr = in.s_addr; } static unsigned int parse_proto(const char *ip) { unsigned int caps = 0; if (*ip == '\0' || strcmp(ip, "on") == 0 || strcmp(ip, "any") == 0) caps = CAP_BOOTP | CAP_DHCP | CAP_RARP; else if (strcmp(ip, "both") == 0) caps = CAP_BOOTP | CAP_RARP; else if (strcmp(ip, "dhcp") == 0) caps = CAP_BOOTP | CAP_DHCP; else if (strcmp(ip, "bootp") == 0) caps = CAP_BOOTP; else if (strcmp(ip, "rarp") == 0) caps = CAP_RARP; else if (strcmp(ip, "none") == 0 || strcmp(ip, "static") == 0 || strcmp(ip, "off") == 0) goto bail; else { fprintf(stderr, "%s: invalid protocol '%s'\n", progname, ip); longjmp(abort_buf, 1); } bail: return caps; } static int add_all_devices(struct netdev *template); static int parse_device(struct netdev *dev, const char *ip) { char *cp; int opt; int is_ip = 0; dprintf("IP-Config: parse_device: \"%s\"\n", ip); if (strncmp(ip, "ip=", 3) == 0) { ip += 3; is_ip = 1; } else if (strncmp(ip, "nfsaddrs=", 9) == 0) { ip += 9; is_ip = 1; /* Not sure about this...? */ } if (!strchr(ip, ':')) { /* Only one option, e.g. "ip=dhcp", or an interface name */ if (is_ip) { dev->caps = parse_proto(ip); bringup_first = 1; } else { dev->name = ip; } } else { for (opt = 0; ip && *ip; ip = cp, opt++) { if ((cp = strchr(ip, ':'))) { *cp++ = '\0'; } if (opt > 6) { fprintf(stderr, "%s: too many options for %s\n", progname, dev->name); longjmp(abort_buf, 1); } if (*ip == '\0') continue; dprintf("IP-Config: opt #%d: '%s'\n", opt, ip); switch (opt) { case 0: parse_addr(&dev->ip_addr, ip); dev->caps = 0; break; case 1: parse_addr(&dev->ip_server, ip); break; case 2: parse_addr(&dev->ip_gateway, ip); break; case 3: parse_addr(&dev->ip_netmask, ip); break; case 4: strncpy(dev->hostname, ip, SYS_NMLN - 1); dev->hostname[SYS_NMLN - 1] = '\0'; memcpy(dev->reqhostname, dev->hostname, SYS_NMLN); break; case 5: dev->name = ip; break; case 6: dev->caps = parse_proto(ip); break; } } } if (dev->name == NULL || dev->name[0] == '\0' || strcmp(dev->name, "all") == 0) { add_all_devices(dev); bringup_first = 1; return 0; } return 1; } static void bringup_device(struct netdev *dev) { if (netdev_up(dev) == 0) { if (dev->caps) { add_one_dev(dev); } else { complete_device(dev); } } } static void bringup_one_dev(struct netdev *template, struct netdev *dev) { if (template->ip_addr != INADDR_NONE) dev->ip_addr = template->ip_addr; if (template->ip_server != INADDR_NONE) dev->ip_server = template->ip_server; if (template->ip_gateway != INADDR_NONE) dev->ip_gateway = template->ip_gateway; if (template->ip_netmask != INADDR_NONE) dev->ip_netmask = template->ip_netmask; if (template->ip_nameserver[0] != INADDR_NONE) dev->ip_nameserver[0] = template->ip_nameserver[0]; if (template->ip_nameserver[1] != INADDR_NONE) dev->ip_nameserver[1] = template->ip_nameserver[1]; if (template->hostname[0] != '\0') strcpy(dev->hostname, template->hostname); if (template->reqhostname[0] != '\0') strcpy(dev->reqhostname, template->reqhostname); dev->caps &= template->caps; bringup_device(dev); } static struct netdev *add_device(const char *info) { struct netdev *dev; int i; dev = malloc(sizeof(struct netdev)); if (dev == NULL) { fprintf(stderr, "%s: out of memory\n", progname); longjmp(abort_buf, 1); } memset(dev, 0, sizeof(struct netdev)); dev->caps = default_caps; if (parse_device(dev, info) == 0) goto bail; if (netdev_init_if(dev) == -1) goto bail; if (bootp_init_if(dev) == -1) goto bail; printf("IP-Config: %s hardware address", dev->name); for (i = 0; i < dev->hwlen; i++) printf("%c%02x", i == 0 ? ' ' : ':', dev->hwaddr[i]); printf(" mtu %d%s%s\n", dev->mtu, dev->caps & CAP_DHCP ? " DHCP" : dev->caps & CAP_BOOTP ? " BOOTP" : "", dev->caps & CAP_RARP ? " RARP" : ""); return dev; bail: free(dev); return NULL; } static int add_all_devices(struct netdev *template) { DIR *d; struct dirent *de; struct netdev *dev; char t[PATH_MAX], p[255]; int i, fd; unsigned long flags; d = opendir(sysfs_class_net); if (!d) return 0; while ((de = readdir(d)) != NULL) { /* This excludes devices beginning with dots or "dummy", as well as . or .. */ if (de->d_name[0] == '.' || !strcmp(de->d_name, "..")) continue; i = snprintf(t, PATH_MAX - 1, "%s/%s/flags", sysfs_class_net, de->d_name); if (i < 0 || i >= PATH_MAX - 1) continue; t[i] = '\0'; fd = open(t, O_RDONLY); if (fd < 0) { perror(t); continue; } i = read(fd, &p, sizeof(p) - 1); close(fd); if (i < 0) { perror(t); continue; } p[i] = '\0'; flags = strtoul(p, NULL, 0); /* Heuristic for if this is a reasonable boot interface. This is the same logic the in-kernel ipconfig uses... */ if (!(flags & IFF_LOOPBACK) && (flags & (IFF_BROADCAST | IFF_POINTOPOINT))) { dprintf("Trying to bring up %s\n", de->d_name); if (!(dev = add_device(de->d_name))) continue; bringup_one_dev(template, dev); } } closedir(d); return 1; } static int check_autoconfig(void) { int ndev = 0, nauto = 0; struct state *s; for (s = slist; s; s = s->next) { ndev++; if (s->dev->caps) nauto++; } if (ndev == 0) { if (configured == 0) { fprintf(stderr, "%s: no devices to configure\n", progname); longjmp(abort_buf, 1); } } return nauto; } static void set_vendor_identifier(const char *id) { int len = strlen(id); if (len >= 255) { fprintf(stderr, "%s: invalid vendor class identifier: " "%s\n", progname, id); longjmp(abort_buf, 1); } memcpy(vendor_class_identifier+2, id, len); vendor_class_identifier[0] = 60; vendor_class_identifier[1] = len; vendor_class_identifier_len = len+2; } int main(int argc, char *argv[]) __attribute__ ((weak, alias("ipconfig_main"))); int ipconfig_main(int argc, char *argv[]) { struct netdev *dev; int c, port; int err = 0; /* If progname is set we're invoked from another program */ if (!progname) { struct timeval now; progname = argv[0]; gettimeofday(&now, NULL); srand48(now.tv_usec ^ (now.tv_sec << 24)); } if ((err = setjmp(abort_buf))) return err; /* Default vendor identifier */ set_vendor_identifier("Linux ipconfig"); do { c = getopt(argc, argv, "c:d:i:onp:t:"); if (c == EOF) break; switch (c) { case 'c': default_caps = parse_proto(optarg); break; case 'p': port = atoi(optarg); if (port <= 0 || port > USHRT_MAX) { fprintf(stderr, "%s: invalid port number %d\n", progname, port); longjmp(abort_buf, 1); } cfg_local_port = port; cfg_remote_port = cfg_local_port - 1; break; case 't': loop_timeout = atoi(optarg); if (loop_timeout < 0) { fprintf(stderr, "%s: invalid timeout %d\n", progname, loop_timeout); longjmp(abort_buf, 1); } break; case 'i': set_vendor_identifier(optarg); break; case 'o': bringup_first = 1; break; case 'n': do_not_config = 1; break; case 'd': dev = add_device(optarg); if (dev) bringup_device(dev); break; case '?': fprintf(stderr, "%s: invalid option -%c\n", progname, optopt); longjmp(abort_buf, 1); } } while (1); for (c = optind; c < argc; c++) { dev = add_device(argv[c]); if (dev) bringup_device(dev); } if (check_autoconfig()) { if (cfg_local_port != LOCAL_PORT) { printf("IP-Config: binding source port to %d, " "dest to %d\n", cfg_local_port, cfg_remote_port); } err = loop(); } return err; }