/* Static network configurator module for netcfg. * * Licensed under the terms of the GNU General Public License */ #include "netcfg.h" #include #include #include #include #include static int netcfg_get_ipaddress(struct debconfclient *client, struct netcfg_interface *interface) { int ret, ok = 0; while (!ok) { debconf_input (client, "critical", "netcfg/get_ipaddress"); ret = debconf_go (client); if (ret) return ret; debconf_get(client, "netcfg/get_ipaddress"); ok = netcfg_parse_cidr_address(client->value, interface); if (!ok) { debconf_capb(client); debconf_input (client, "critical", "netcfg/bad_ipaddress"); debconf_capb(client, "backup"); debconf_go (client); } } return 0; } static int netcfg_get_pointopoint(struct debconfclient *client, struct netcfg_interface *interface) { int ret, ok = 0; union inX_addr addr; while (!ok) { debconf_input(client, "critical", "netcfg/get_pointopoint"); ret = debconf_go(client); if (ret) return ret; debconf_get(client, "netcfg/get_pointopoint"); if (empty_str(client->value)) { /* No P-P is ok */ interface->pointopoint[0] = '\0'; return 0; } ok = inet_pton (interface->address_family, client->value, &addr); if (!ok) { debconf_capb(client); debconf_input (client, "critical", "netcfg/bad_ipaddress"); debconf_go (client); debconf_capb(client, "backup"); } } inet_ntop(interface->address_family, &addr, interface->pointopoint, NETCFG_ADDRSTRLEN); return 0; } static int netcfg_get_netmask(struct debconfclient *client, struct netcfg_interface *interface) { int ret, ok = 0; union inX_addr addr; /* Preseed a vaguely sensible looking default netmask if one wasn't * provided. */ debconf_get (client, "netcfg/get_netmask"); if (empty_str(client->value)) { if (interface->address_family == AF_INET) { debconf_set(client, "netcfg/get_netmask", "255.255.255.0"); } else if (interface->address_family == AF_INET6) { debconf_set(client, "netcfg/get_netmask", "ffff:ffff:ffff:ffff::"); } } while (!ok) { debconf_input (client, "critical", "netcfg/get_netmask"); ret = debconf_go(client); if (ret) return ret; debconf_get (client, "netcfg/get_netmask"); ok = inet_pton (interface->address_family, client->value, &addr); if (!ok) { debconf_capb(client); debconf_input (client, "critical", "netcfg/bad_ipaddress"); debconf_go (client); debconf_capb(client, "backup"); } } inet_ptom(interface->address_family, client->value, &(interface->masklen)); return 0; } static void netcfg_preseed_gateway(struct debconfclient *client, struct netcfg_interface *iface) { char ptr1[NETCFG_ADDRSTRLEN]; union inX_addr gw_addr, ipaddr, mask; inet_pton(iface->address_family, iface->ipaddress, &ipaddr); inet_mton(iface->address_family, iface->masklen, &mask); /* Calculate a potentially-sensible 'default' default gateway, * based on 'the first IP in the subnet' */ if (iface->address_family == AF_INET) { gw_addr.in4.s_addr = ipaddr.in4.s_addr & mask.in4.s_addr; gw_addr.in4.s_addr |= htonl(1); } else if (iface->address_family == AF_INET6) { int i; for (i = 0; i < 4; i++) { gw_addr.in6.s6_addr32[i] = ipaddr.in6.s6_addr32[i] & mask.in6.s6_addr32[i]; } gw_addr.in6.s6_addr32[3] |= htonl(1); } inet_ntop (iface->address_family, &gw_addr, ptr1, NETCFG_ADDRSTRLEN); /* if your chosen static IP address happens to be what we calculated for * the 'default' gateway, obviously that isn't going to work, so stop * guessing, just chop off the last octet, and let the user fill in the blank. * * This won't *quite* work with anything shorter than a /24; such is life. */ if (!strcmp(iface->ipaddress, ptr1)) { char *ptr = strrchr(ptr1, iface->address_family == AF_INET6 ? ':' : '.'); assert (ptr); /* if there's no separator in ptr1 we're in deep shit */ ptr[1] = '\0'; } debconf_get(client, "netcfg/get_gateway"); if (empty_str(client->value)) debconf_set(client, "netcfg/get_gateway", ptr1); } static int netcfg_get_gateway(struct debconfclient *client, struct netcfg_interface *interface) { union inX_addr gw_addr; int ret, ok = 0; char *ptr; while (!ok) { debconf_input (client, "critical", "netcfg/get_gateway"); ret = debconf_go(client); if (ret) return ret; debconf_get(client, "netcfg/get_gateway"); ptr = client->value; if (empty_str(ptr) || /* No gateway, that's fine */ (strcmp(ptr, "none") == 0)) /* special case for preseeding */ { /* clear existing gateway setting */ interface->gateway[0] = '\0'; return 0; } ok = inet_pton (interface->address_family, ptr, &gw_addr); if (!ok) { debconf_capb(client); debconf_input (client, "critical", "netcfg/bad_ipaddress"); debconf_go (client); debconf_capb(client, "backup"); } else { /* Double conversion to ensure that the address is in a normalised, * more readable form, in case the user entered something weird * looking. */ inet_ntop(interface->address_family, &gw_addr, interface->gateway, NETCFG_ADDRSTRLEN); } } return 0; } static int netcfg_write_etc_networks(char *network) { FILE *fp; if ((fp = file_open(NETWORKS_FILE, "w"))) { fprintf(fp, "default\t\t0.0.0.0\n"); fprintf(fp, "loopback\t127.0.0.0\n"); fprintf(fp, "link-local\t169.254.0.0\n"); if (network) { fprintf(fp, "localnet\t%s\n", network); } fclose(fp); return 1; } else { return 0; } } static int netcfg_write_resolvconf_options(const char *domain, const struct netcfg_interface *interface ) { FILE *fp; if (!(fp = file_open(INTERFACES_FILE, "a"))) { return 0; } /* * Write resolvconf options * * This is useful for users who intend to install resolvconf * after the initial installation. * * This code should be kept in sync with the code that writes * this information to the /etc/resolv.conf file. If netcfg * becomes capable of configuring multiple network interfaces * then the user should be asked for dns information on a * per-interface basis so that per-interface dns options * can be written here. */ if (!empty_str(interface->nameservers[0]) || (domain && !empty_str(domain))) { unsigned int i = 0; fprintf(fp, "\t# dns-* options are implemented by the resolvconf package, if installed\n"); if (!empty_str(interface->nameservers[0])) { fprintf(fp, "\tdns-nameservers"); for (i = 0; i < NETCFG_NAMESERVERS_MAX; i++) { if (!empty_str(interface->nameservers[i])) { fprintf(fp, " %s", interface->nameservers[i]); } } fprintf(fp, "\n"); } if (domain && !empty_str(domain)) fprintf(fp, "\tdns-search %s\n", domain); } fclose(fp); return 1; } int netcfg_write_resolv (const char *domain, const struct netcfg_interface *interface) { FILE* fp = NULL; if ((fp = file_open(RESOLV_FILE, "w"))) { unsigned int i = 0; if (domain && !empty_str(domain)) fprintf(fp, "search %s\n", domain); for (i = 0; i < NETCFG_NAMESERVERS_MAX; i++) if (!empty_str(interface->nameservers[i])) fprintf(fp, "nameserver %s\n", interface->nameservers[i]); fclose(fp); return 1; } else return 0; } static int netcfg_activate_static_ipv4(struct debconfclient *client, const struct netcfg_interface *interface) { int rv = 0; char buf[256]; char network[INET_ADDRSTRLEN]; char broadcast[INET_ADDRSTRLEN]; char netmask[INET_ADDRSTRLEN]; netcfg_network_address(interface, network); netcfg_broadcast_address(interface, broadcast); inet_mtop(AF_INET, interface->masklen, netmask, INET_ADDRSTRLEN); #ifdef __GNU__ snprintf(buf, sizeof(buf), "settrans -fgap /servers/socket/2 /hurd/pfinet --interface=%s --address=%s", interface->name, interface->ipaddress); di_snprintfcat(buf, sizeof(buf), " --netmask=%s", netmask); if (!empty_str(interface->gateway)) di_snprintfcat(buf, sizeof(buf), " --gateway=%s", interface->gateway); buf[sizeof(buf) - 1] = '\0'; /* NB: unfortunately we cannot use di_exec_shell_log() here, as the active * translator would capture its pipe and make it hang forever. */ rv |= di_exec_shell(buf); #elif defined(__FreeBSD_kernel__) deconfigure_network(NULL); loop_setup(); interface_up(interface->name); /* Flush all previous addresses, routes */ snprintf(buf, sizeof(buf), "ifconfig %s inet 0 down", interface->name); rv |= di_exec_shell_log(buf); snprintf(buf, sizeof(buf), "ifconfig %s up", interface->name); rv |= di_exec_shell_log(buf); snprintf(buf, sizeof(buf), "ifconfig %s %s", interface->name, interface->ipaddress); /* avoid using a second buffer */ di_snprintfcat(buf, sizeof(buf), " netmask %s", empty_str(interface->pointopoint) ? netmask : "255.255.255.255"); /* avoid using a third buffer */ di_snprintfcat(buf, sizeof(buf), " broadcast %s", broadcast); di_info("executing: %s", buf); rv |= di_exec_shell_log(buf); if (!empty_str(interface->pointopoint)) { snprintf(buf, sizeof(buf), "route add %s", interface->pointopoint); /* avoid using a second buffer */ di_snprintfcat(buf, sizeof(buf), "%s", interface->ipaddress); rv |= di_exec_shell_log(buf); } else if (!empty_str(interface->gateway)) { snprintf(buf, sizeof(buf), "route add default %s", interface->gateway); rv |= di_exec_shell_log(buf); } #else deconfigure_network(NULL); loop_setup(); interface_up(interface->name); /* Flush all previous addresses, routes */ snprintf(buf, sizeof(buf), "ip -f inet addr flush dev %s", interface->name); rv |= di_exec_shell_log(buf); snprintf(buf, sizeof(buf), "ip -f inet route flush dev %s", interface->name); rv |= di_exec_shell_log(buf); /* Add the new IP address, P-t-P peer (if necessary) and netmask */ snprintf(buf, sizeof(buf), "ip addr add %s/%d ", interface->ipaddress, interface->masklen); /* avoid using a second buffer */ di_snprintfcat(buf, sizeof(buf), "broadcast %s dev %s", broadcast, interface->name); if (!empty_str(interface->pointopoint)) di_snprintfcat(buf, sizeof(buf), " peer %s", interface->pointopoint); di_info("executing: %s", buf); rv |= di_exec_shell_log(buf); if (!empty_str(interface->pointopoint)) { snprintf(buf, sizeof(buf), "ip route add default dev %s", interface->name); rv |= di_exec_shell_log(buf); } else if (!empty_str(interface->gateway)) { snprintf(buf, sizeof(buf), "ip route add default via %s", interface->gateway); rv |= di_exec_shell_log(buf); } #endif if (rv != 0) { debconf_capb(client); debconf_input(client, "high", "netcfg/error"); debconf_go(client); debconf_capb(client, "backup"); return -1; } return 0; } static int netcfg_activate_static_ipv6(struct debconfclient *client, const struct netcfg_interface *interface) { int rv = 0; char buf[1024]; #ifdef __GNU__ snprintf(buf, sizeof(buf), "settrans -fgap /servers/socket/2 /hurd/pfinet --interface=%s -A %s/%i", interface->name, interface->ipaddress, interface->masklen); if (!empty_str(interface->gateway)) di_snprintfcat(buf, sizeof(buf), " -G %s", interface->gateway); buf[sizeof(buf) - 1] = '\0'; /* NB: unfortunately we cannot use di_exec_shell_log() here, as the active * translator would capture its pipe and make it hang forever. */ rv |= di_exec_shell(buf); /* Apparently you need to setup the same thing on two separate sockets * if you're doing IPv6. No wonder nobody uses Hurd. */ snprintf(buf, sizeof(buf), "settrans -fgap /servers/socket/26 /hurd/pfinet --interface=%s -A %s/%i", interface->name, interface->ipaddress, interface->masklen); if (!empty_str(interface->gateway)) di_snprintfcat(buf, sizeof(buf), " -G %s", interface->gateway); buf[sizeof(buf) - 1] = '\0'; rv |= di_exec_shell(buf); #elif defined(__FreeBSD_kernel__) deconfigure_network(NULL); loop_setup(); interface_up(interface->name); /* Flush all previous addresses, routes */ snprintf(buf, sizeof(buf), "ifconfig %s inet 0 down", interface->name); rv |= di_exec_shell_log(buf); snprintf(buf, sizeof(buf), "ifconfig %s up", interface->name); rv |= di_exec_shell_log(buf); snprintf(buf, sizeof(buf), "ifconfig %s inet6 %s prefixlen %i", interface->name, interface->ipaddress, interface->masklen); di_info("executing: %s", buf); rv |= di_exec_shell_log(buf); if (!empty_str(interface->gateway)) { snprintf(buf, sizeof(buf), "/lib/freebsd/route add -inet6 default %s", interface->gateway); rv |= di_exec_shell_log(buf); } #else deconfigure_network(NULL); loop_setup(); interface_up(interface->name); /* Flush all previous addresses, routes */ snprintf(buf, sizeof(buf), "ip -f inet6 addr flush dev %s", interface->name); rv |= di_exec_shell_log(buf); snprintf(buf, sizeof(buf), "ip -f inet6 route flush dev %s", interface->name); rv |= di_exec_shell_log(buf); /* Now down and up the interface, to get LL and SLAAC addresses back, * since flushing the addresses and routes gets rid of all that * sort of thing. */ interface_down(interface->name); interface_up(interface->name); /* Add the new IP address and netmask */ snprintf(buf, sizeof(buf), "ip addr add %s/%d dev %s", interface->ipaddress, interface->masklen, interface->name); di_info("executing: %s", buf); rv |= di_exec_shell_log(buf); if (!empty_str(interface->gateway)) { snprintf(buf, sizeof(buf), "ip route add default via %s", interface->gateway); rv |= di_exec_shell_log(buf); } #endif if (rv != 0) { debconf_capb(client); debconf_input(client, "high", "netcfg/error"); debconf_go(client); debconf_capb(client, "backup"); return -1; } return 0; } static int netcfg_activate_static(struct debconfclient *client, const struct netcfg_interface *interface) { int rv = -1; if (interface->address_family == AF_INET) { rv = netcfg_activate_static_ipv4(client, interface); } else if (interface->address_family == AF_INET6) { rv = netcfg_activate_static_ipv6(client, interface); } else { fprintf(stderr, "Can't happen: unknown address family"); rv = -1; } if (rv != 0) { /* No point looking for link if the address configuration didn't * work. */ return -1; } /* Wait to detect link. Don't error out if we fail, though; link detection * may not work on this NIC or something. */ netcfg_detect_link(client, interface); /* Configuration appeared to go OK. Now we need to wait until the * interface is actually configured by the kernel. For IPv4, this * *should* be close to instantaneous, but for IPv6 there can be an * appreciable delay because the kernel does duplicate address detection * before making the interface active. The delay in activating the * interface can cause untold grief and misery for later parts of the * network configuration process that expect to have a working network * (rDNS preseeding of the hostname is the one that has caused this code * to be written). */ if (interface->address_family == AF_INET6) { nc_v6_wait_for_complete_configuration(interface); } return 0; } int netcfg_get_static(struct debconfclient *client, struct netcfg_interface *iface) { char *nameservers = NULL; char *none; char netmask[INET_ADDRSTRLEN]; enum { BACKUP, GET_HOSTNAME, GET_IPADDRESS, GET_POINTOPOINT, GET_NETMASK, GET_GATEWAY, GATEWAY_UNREACHABLE, GET_NAMESERVERS, CONFIRM, GET_DOMAIN, QUIT } state = GET_IPADDRESS; debconf_metaget(client, "netcfg/internal-none", "description"); none = client->value ? strdup(client->value) : strdup(""); for (;;) { switch (state) { case BACKUP: return RETURN_TO_MAIN; break; case GET_IPADDRESS: if (netcfg_get_ipaddress (client, iface)) { state = BACKUP; } else { if (strncmp(iface->name, "plip", 4) == 0 || strncmp(iface->name, "slip", 4) == 0 || strncmp(iface->name, "ctc", 3) == 0 || strncmp(iface->name, "escon", 5) == 0 || strncmp(iface->name, "iucv", 4) == 0) state = GET_POINTOPOINT; else if (iface->masklen == 0) { state = GET_NETMASK; } else { state = GET_GATEWAY; } } break; case GET_POINTOPOINT: if (iface->address_family == AF_INET6) { debconf_capb(client); /* Turn off backup */ debconf_input(client, "high", "netcfg/no_ipv6_pointopoint"); debconf_go(client); state = GET_IPADDRESS; debconf_capb(client, "backup"); break; } state = netcfg_get_pointopoint(client, iface) ? GET_IPADDRESS : GET_NAMESERVERS; break; case GET_NETMASK: state = netcfg_get_netmask(client, iface) ? GET_IPADDRESS : GET_GATEWAY; break; case GET_GATEWAY: netcfg_preseed_gateway(client, iface); if (netcfg_get_gateway(client, iface)) state = GET_NETMASK; else if (strlen(iface->gateway) > 0 && !netcfg_gateway_reachable(iface)) state = GATEWAY_UNREACHABLE; else state = GET_NAMESERVERS; break; case GATEWAY_UNREACHABLE: debconf_capb(client); /* Turn off backup */ debconf_input(client, "high", "netcfg/gateway_unreachable"); debconf_go(client); state = GET_GATEWAY; debconf_capb(client, "backup"); break; case GET_NAMESERVERS: if (nameservers) free(nameservers); state = (netcfg_get_nameservers (client, &nameservers, iface->gateway)) ? GET_GATEWAY : CONFIRM; break; case GET_HOSTNAME: { char buf[MAXHOSTNAMELEN + 1] = { 0 }; debconf_get(client, "netcfg/hostname"); if (!empty_str(client->value)) { strncpy(buf, client->value, MAXHOSTNAMELEN); preseed_hostname_from_fqdn(client, buf); } else if (get_hostname_from_dns(iface, buf, sizeof(buf))) preseed_hostname_from_fqdn(client, buf); } state = (netcfg_get_hostname(client, "netcfg/get_hostname", hostname, 1)) ? GET_NAMESERVERS : GET_DOMAIN; break; case GET_DOMAIN: if (!have_domain) { state = (netcfg_get_domain (client, domain, "high")) ? GET_HOSTNAME : QUIT; } else { di_info("domain = %s", domain); state = QUIT; } break; case CONFIRM: inet_mtop(AF_INET, iface->masklen, netmask, INET_ADDRSTRLEN); debconf_subst(client, "netcfg/confirm_static", "interface", iface->name); debconf_subst(client, "netcfg/confirm_static", "ipaddress", empty_str(iface->ipaddress) ? none : iface->ipaddress); debconf_subst(client, "netcfg/confirm_static", "pointopoint", empty_str(iface->pointopoint) ? none : iface->pointopoint); debconf_subst(client, "netcfg/confirm_static", "netmask", empty_str(netmask) ? none : netmask); debconf_subst(client, "netcfg/confirm_static", "gateway", empty_str(iface->gateway) ? none : iface->gateway); debconf_subst(client, "netcfg/confirm_static", "nameservers", (nameservers ? nameservers : none)); netcfg_nameservers_to_array(nameservers, iface); free(nameservers); nameservers = NULL; debconf_capb(client); /* Turn off backup for yes/no confirmation */ debconf_input(client, "medium", "netcfg/confirm_static"); debconf_go(client); debconf_get(client, "netcfg/confirm_static"); if (strstr(client->value, "true")) { state = GET_HOSTNAME; netcfg_write_resolv(domain, iface); netcfg_activate_static(client, iface); } else state = GET_IPADDRESS; debconf_capb(client, "backup"); break; case QUIT: { char network[INET_ADDRSTRLEN]; if (iface->address_family == AF_INET) { netcfg_network_address(iface, network); netcfg_write_etc_networks(network); } else { netcfg_write_etc_networks(NULL); } netcfg_write_common(iface->ipaddress, hostname, domain); netcfg_write_loopback(); netcfg_write_interface(iface); netcfg_write_resolvconf_options(domain, iface); netcfg_write_resolv(domain, iface); } return 0; break; } } return 0; }