/* * libifupdown/interface.c * Purpose: interface management * * Copyright (c) 2020 Ariadne Conill * Copyright (c) 2020 Maximilian Wilhelm * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * This software is provided 'as is' and without any warranty, express or * implied. In no event shall the authors be liable for any damages arising * from the use of this software. */ #include #include #include #include "libifupdown/interface.h" #include "libifupdown/config-file.h" bool lif_address_parse(struct lif_address *address, const char *presentation) { char buf[512], *netmask_p; strlcpy(buf, presentation, sizeof buf); address->domain = strchr(buf, ':') != NULL ? AF_INET6 : AF_INET; netmask_p = strrchr(buf, '/'); if (netmask_p != NULL) { *netmask_p++ = '\0'; address->netmask = strtol(netmask_p, NULL, 10); } else address->netmask = 0; return !!inet_pton(address->domain, buf, address->addr_buf); } bool lif_address_unparse(const struct lif_address *address, char *buf, size_t buflen, bool with_netmask) { char workbuf[512] = {}; if (!inet_ntop(address->domain, address->addr_buf, workbuf, sizeof workbuf)) return false; if (!with_netmask || !address->netmask) { strlcpy(buf, workbuf, buflen); return true; } snprintf(buf, buflen, "%s/%zu", workbuf, address->netmask); return true; } static inline size_t count_set_bits(const char *netmask) { /* netmask set to CIDR length */ if (strchr(netmask, '.') == NULL) return strtol(netmask, NULL, 10); size_t r = 0; struct in_addr in; if (inet_pton(AF_INET, netmask, &in) == 0) return r; /* take the IP, put it in host endian order, and * flip it so that all the set bits are set to the right. * then we can simply count down from 32 and right-shift * until the bit field is all zero. */ unsigned int bits = htonl(in.s_addr); for (bits = ~bits, r = 32; bits; bits >>= 1, r--) ; return r; } bool lif_address_format_cidr(const struct lif_interface *iface, struct lif_dict_entry *entry, char *buf, size_t buflen) { struct lif_address *addr = entry->data; size_t orig_netmask = addr->netmask; if (!addr->netmask) { /* if netmask is not set, default to 255.255.255.0, ifupdown does so too */ addr->netmask = 24; struct lif_dict_entry *entry = lif_dict_find(&iface->vars, "netmask"); if (entry != NULL) addr->netmask = count_set_bits(entry->data); } if (!lif_address_unparse(addr, buf, buflen, true)) { addr->netmask = orig_netmask; return false; } addr->netmask = orig_netmask; return true; } void lif_interface_init(struct lif_interface *interface, const char *ifname) { memset(interface, '\0', sizeof *interface); interface->ifname = strdup(ifname); lif_interface_use_executor(interface, "link"); /* keep the 'vlan' executor as a config hint for backwards compatibility */ if (strchr(ifname, '.') != NULL) lif_interface_use_executor(interface, "vlan"); } bool lif_interface_address_add(struct lif_interface *interface, const char *address) { struct lif_address *addr = calloc(1, sizeof *addr); if (!lif_address_parse(addr, address)) { free(addr); return false; } lif_interface_use_executor(interface, "static"); lif_dict_add(&interface->vars, "address", addr); return true; } void lif_interface_address_delete(struct lif_interface *interface, const char *address) { struct lif_node *iter, *iter_next; struct lif_address addr; if (!lif_address_parse(&addr, address)) return; LIF_DICT_FOREACH_SAFE(iter, iter_next, &interface->vars) { struct lif_dict_entry *entry = iter->data; if (strcmp(entry->key, "address")) continue; struct lif_address *entry_addr = entry->data; char addr_buf[512] = {}; if (!lif_address_unparse(entry_addr, addr_buf, sizeof addr_buf, addr.netmask != 0)) continue; if (strcmp(addr_buf, address)) continue; lif_dict_delete_entry(&interface->vars, entry); free(entry_addr); } } void lif_interface_fini(struct lif_interface *interface) { struct lif_node *iter, *iter_next; LIF_DICT_FOREACH_SAFE(iter, iter_next, &interface->vars) { struct lif_dict_entry *entry = iter->data; free(entry->data); lif_dict_delete_entry(&interface->vars, entry); } free(interface->ifname); } void lif_interface_use_executor(struct lif_interface *interface, const char *executor) { char *exec_addon = strdup(executor); if (lif_dict_add_once(&interface->vars, "use", exec_addon, (lif_dict_cmp_t) strcmp) == NULL) free(exec_addon); /* pass requires as compatibility env vars to appropriate executors (bridge, bond) */ if (!strcmp(executor, "bridge")) interface->is_bridge = true; else if (!strcmp(executor, "bond")) interface->is_bond = true; if (strcmp(executor, "dhcp") || !lif_config.use_hostname_for_dhcp) return; /* learn a reasonable default hostname */ struct utsname un; if (uname(&un) < 0) return; lif_dict_add(&interface->vars, "hostname", strdup(un.nodename)); } void lif_interface_collection_init(struct lif_dict *collection) { struct lif_interface *if_lo; memset(collection, '\0', sizeof *collection); /* always enable loopback interface as part of a collection */ if_lo = lif_interface_collection_find(collection, "lo"); if_lo->is_auto = true; if_lo->is_explicit = true; lif_interface_use_executor(if_lo, "loopback"); } void lif_interface_collection_fini(struct lif_dict *collection) { struct lif_node *iter, *iter_next; LIF_DICT_FOREACH_SAFE(iter, iter_next, collection) { struct lif_dict_entry *entry = iter->data; struct lif_interface *iface = entry->data; lif_interface_fini(iface); free(iface); lif_dict_delete_entry(collection, entry); } } struct lif_interface * lif_interface_collection_find(struct lif_dict *collection, const char *ifname) { struct lif_dict_entry *entry = lif_dict_find(collection, ifname); if (entry == NULL) { struct lif_interface *iface = calloc(1, sizeof *iface); lif_interface_init(iface, ifname); lif_dict_add(collection, ifname, iface); return iface; } return entry->data; } struct lif_interface * lif_interface_collection_upsert(struct lif_dict *collection, struct lif_interface *interface) { struct lif_dict_entry *entry = lif_dict_find(collection, interface->ifname); if (entry == NULL) { lif_dict_add(collection, interface->ifname, interface); return interface; } if (entry->data == interface) return interface; lif_interface_collection_delete(collection, entry->data); lif_dict_add(collection, interface->ifname, interface); return interface; } void lif_interface_collection_delete(struct lif_dict *collection, struct lif_interface *interface) { struct lif_dict_entry *entry = lif_dict_find(collection, interface->ifname); if (entry == NULL) return; lif_interface_fini(interface); free(interface); lif_dict_delete_entry(collection, entry); } bool lif_interface_collection_inherit(struct lif_interface *interface, struct lif_interface *parent) { /* maybe convert any interface we are inheriting from into a template */ if (lif_config.implicit_template_conversion) parent->is_template = true; lif_dict_add(&interface->vars, "inherit", strdup(parent->ifname)); interface->is_bond = parent->is_bond; interface->is_bridge = parent->is_bridge; /* copy the variables */ struct lif_node *iter; LIF_DICT_FOREACH(iter, &parent->vars) { struct lif_dict_entry *entry = iter->data; if (!strcmp(entry->key, "address")) { struct lif_address *addr = calloc(1, sizeof *addr); struct lif_address *other_addr = entry->data; memcpy(addr, other_addr, sizeof *addr); lif_dict_add(&interface->vars, entry->key, addr); } else { char *value = strdup(entry->data); if (lif_dict_add_once(&interface->vars, entry->key, value, (lif_dict_cmp_t) strcmp) == NULL) free(value); } } return true; }