// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab /* * Ceph - scalable distributed file system * * Copyright (C) 2004-2012 Inktank * * This is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software * Foundation. See file COPYING. * */ #include "common/pick_address.h" #include "include/ipaddr.h" #include "include/str_list.h" #include "common/debug.h" #include "common/errno.h" #include #define dout_subsys ceph_subsys_ const struct sockaddr *find_ip_in_subnet_list( CephContext *cct, const struct ifaddrs *ifa, const std::string &networks, const std::string &interfaces) { std::list nets; get_str_list(networks, nets); std::list ifs; get_str_list(interfaces, ifs); // filter interfaces by name const struct ifaddrs *filtered = 0; if (ifs.empty()) { filtered = ifa; } else { if (nets.empty()) { lderr(cct) << "interface names specified but not network names" << dendl; exit(1); } const struct ifaddrs *t = ifa; struct ifaddrs *head = 0; while (t != NULL) { bool match = false; for (auto& i : ifs) { if (strcmp(i.c_str(), t->ifa_name) == 0) { match = true; break; } } if (match) { struct ifaddrs *n = new ifaddrs; memcpy(n, t, sizeof(*t)); n->ifa_next = head; head = n; } t = t->ifa_next; } if (head == NULL) { lderr(cct) << "no interfaces matching " << ifs << dendl; exit(1); } filtered = head; } struct sockaddr *r = NULL; for (std::list::iterator s = nets.begin(); s != nets.end(); ++s) { struct sockaddr_storage net; unsigned int prefix_len; if (!parse_network(s->c_str(), &net, &prefix_len)) { lderr(cct) << "unable to parse network: " << *s << dendl; exit(1); } const struct ifaddrs *found = find_ip_in_subnet( filtered, (struct sockaddr *) &net, prefix_len); if (found) { r = found->ifa_addr; break; } } if (filtered != ifa) { while (filtered) { struct ifaddrs *t = filtered->ifa_next; delete filtered; filtered = t; } } return r; } // observe this change struct Observer : public md_config_obs_t { const char *keys[2]; explicit Observer(const char *c) { keys[0] = c; keys[1] = NULL; } const char** get_tracked_conf_keys() const override { return (const char **)keys; } void handle_conf_change(const struct md_config_t *conf, const std::set &changed) override { // do nothing. } }; static void fill_in_one_address(CephContext *cct, const struct ifaddrs *ifa, const string networks, const string interfaces, const char *conf_var) { const struct sockaddr *found = find_ip_in_subnet_list(cct, ifa, networks, interfaces); if (!found) { lderr(cct) << "unable to find any IP address in networks '" << networks << "' interfaces '" << interfaces << "'" << dendl; exit(1); } char buf[INET6_ADDRSTRLEN]; int err; err = getnameinfo(found, (found->sa_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6), buf, sizeof(buf), NULL, 0, NI_NUMERICHOST); if (err != 0) { lderr(cct) << "unable to convert chosen address to string: " << gai_strerror(err) << dendl; exit(1); } Observer obs(conf_var); cct->_conf->add_observer(&obs); cct->_conf->set_val_or_die(conf_var, buf); cct->_conf->apply_changes(NULL); cct->_conf->remove_observer(&obs); } void pick_addresses(CephContext *cct, int needs) { struct ifaddrs *ifa; int r = getifaddrs(&ifa); if (r<0) { string err = cpp_strerror(errno); lderr(cct) << "unable to fetch interfaces and addresses: " << err << dendl; exit(1); } if ((needs & CEPH_PICK_ADDRESS_PUBLIC) && cct->_conf->public_addr.is_blank_ip() && !cct->_conf->public_network.empty()) { fill_in_one_address(cct, ifa, cct->_conf->public_network, cct->_conf->get_val("public_network_interface"), "public_addr"); } if ((needs & CEPH_PICK_ADDRESS_CLUSTER) && cct->_conf->cluster_addr.is_blank_ip()) { if (!cct->_conf->cluster_network.empty()) { fill_in_one_address( cct, ifa, cct->_conf->cluster_network, cct->_conf->get_val("cluster_network_interface"), "cluster_addr"); } else { if (!cct->_conf->public_network.empty()) { lderr(cct) << "Public network was set, but cluster network was not set " << dendl; lderr(cct) << " Using public network also for cluster network" << dendl; fill_in_one_address( cct, ifa, cct->_conf->public_network, cct->_conf->get_val("public_network_interface"), "cluster_addr"); } } } freeifaddrs(ifa); } std::string pick_iface(CephContext *cct, const struct sockaddr_storage &network) { struct ifaddrs *ifa; int r = getifaddrs(&ifa); if (r < 0) { string err = cpp_strerror(errno); lderr(cct) << "unable to fetch interfaces and addresses: " << err << dendl; return {}; } unsigned int prefix_len = 0; const struct ifaddrs *found = find_ip_in_subnet(ifa, (const struct sockaddr *) &network, prefix_len); std::string result; if (found) { result = found->ifa_name; } freeifaddrs(ifa); return result; } bool have_local_addr(CephContext *cct, const list& ls, entity_addr_t *match) { struct ifaddrs *ifa; int r = getifaddrs(&ifa); if (r < 0) { lderr(cct) << "unable to fetch interfaces and addresses: " << cpp_strerror(errno) << dendl; exit(1); } bool found = false; for (struct ifaddrs *addrs = ifa; addrs != NULL; addrs = addrs->ifa_next) { if (addrs->ifa_addr) { entity_addr_t a; a.set_sockaddr(addrs->ifa_addr); for (list::const_iterator p = ls.begin(); p != ls.end(); ++p) { if (a.is_same_host(*p)) { *match = *p; found = true; goto out; } } } } out: freeifaddrs(ifa); return found; }