/* * * Wireless daemon for Linux * * Copyright (C) 2019 Intel Corporation. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ell/useful.h" #include "src/iwd.h" #include "src/module.h" #include "src/netdev.h" #include "src/station.h" #include "src/common.h" #include "src/network.h" #include "src/resolve.h" #include "src/util.h" #include "src/ie.h" #include "src/netconfig.h" struct netconfig { uint32_t ifindex; struct l_dhcp_client *dhcp_client; struct l_dhcp6_client *dhcp6_client; uint8_t rtm_protocol; uint8_t rtm_v6_protocol; struct l_rtnl_address *v4_address; char **dns4_overrides; char **dns6_overrides; struct ie_fils_ip_addr_response_info *fils_override; const struct l_settings *active_settings; netconfig_notify_func_t notify; void *user_data; struct resolve *resolve; struct l_acd *acd; uint32_t addr4_add_cmd_id; uint32_t addr6_add_cmd_id; uint32_t route4_add_gateway_cmd_id; uint32_t route6_add_cmd_id; }; static struct l_netlink *rtnl; static struct l_queue *netconfig_list; /* * Routing priority offset, configurable in main.conf. The route with lower * priority offset is preferred. */ static uint32_t ROUTE_PRIORITY_OFFSET; static bool ipv6_enabled; static void do_debug(const char *str, void *user_data) { const char *prefix = user_data; l_info("%s%s", prefix, str); } static int write_string(const char *file, const char *value) { size_t l = strlen(value); int fd; int r; fd = L_TFR(open(file, O_WRONLY)); if (fd < 0) return -errno; r = L_TFR(write(fd, value, l)); L_TFR(close(fd)); return r; } static int sysfs_write_ipv6_setting(const char *ifname, const char *setting, const char *value) { int r; L_AUTO_FREE_VAR(char *, file) = l_strdup_printf("/proc/sys/net/ipv6/conf/%s/%s", ifname, setting); r = write_string(file, value); if (r < 0) l_error("Unable to write %s to %s", setting, file); return r; } static void netconfig_free_settings(struct netconfig *netconfig) { l_rtnl_address_free(netconfig->v4_address); netconfig->v4_address = NULL; l_strfreev(netconfig->dns4_overrides); netconfig->dns4_overrides = NULL; l_strfreev(netconfig->dns6_overrides); netconfig->dns6_overrides = NULL; } static void netconfig_free(void *data) { struct netconfig *netconfig = data; l_dhcp_client_destroy(netconfig->dhcp_client); l_dhcp6_client_destroy(netconfig->dhcp6_client); l_free(netconfig); } static struct netconfig *netconfig_find(uint32_t ifindex) { const struct l_queue_entry *entry; for (entry = l_queue_get_entries(netconfig_list); entry; entry = entry->next) { struct netconfig *netconfig = entry->data; if (netconfig->ifindex != ifindex) continue; return netconfig; } return NULL; } static inline char *netconfig_ipv4_to_string(uint32_t addr) { struct in_addr in_addr = { .s_addr = addr }; char *addr_str = l_malloc(INET_ADDRSTRLEN); if (L_WARN_ON(unlikely(!inet_ntop(AF_INET, &in_addr, addr_str, INET_ADDRSTRLEN)))) { l_free(addr_str); return NULL; } return addr_str; } static inline char *netconfig_ipv6_to_string(const uint8_t *addr) { struct in6_addr in6_addr; char *addr_str = l_malloc(INET6_ADDRSTRLEN); memcpy(in6_addr.s6_addr, addr, 16); if (L_WARN_ON(unlikely(!inet_ntop(AF_INET6, &in6_addr, addr_str, INET6_ADDRSTRLEN)))) { l_free(addr_str); return NULL; } return addr_str; } static char **netconfig_get_dns_list(struct netconfig *netconfig, int af, const uint8_t **out_dns_mac) { const struct ie_fils_ip_addr_response_info *fils = netconfig->fils_override; if (af == AF_INET) { const struct l_dhcp_lease *lease; if (netconfig->dns4_overrides) return l_strv_copy(netconfig->dns4_overrides); if (netconfig->rtm_protocol != RTPROT_DHCP) return NULL; if (fils && fils->ipv4_dns) { char **dns_list = l_new(char *, 2); if (!l_memeqzero(fils->ipv4_dns_mac, 6) && out_dns_mac && util_ip_subnet_match( fils->ipv4_prefix_len, &fils->ipv4_addr, &fils->ipv4_dns)) *out_dns_mac = fils->ipv4_dns_mac; dns_list[0] = netconfig_ipv4_to_string(fils->ipv4_dns); return dns_list; } if (!(lease = l_dhcp_client_get_lease(netconfig->dhcp_client))) return NULL; return l_dhcp_lease_get_dns(lease); } else { const struct l_dhcp6_lease *lease; if (netconfig->dns6_overrides) return l_strv_copy(netconfig->dns6_overrides); if (netconfig->rtm_v6_protocol != RTPROT_DHCP) return NULL; if (fils && !l_memeqzero(fils->ipv6_dns, 16)) { char **dns_list = l_new(char *, 2); if (!l_memeqzero(fils->ipv6_dns_mac, 6) && out_dns_mac && util_ip_subnet_match( fils->ipv6_prefix_len, fils->ipv6_addr, fils->ipv6_dns)) *out_dns_mac = fils->ipv6_dns_mac; dns_list[0] = netconfig_ipv6_to_string(fils->ipv6_dns); return dns_list; } if (!(lease = l_dhcp6_client_get_lease( netconfig->dhcp6_client))) return NULL; return l_dhcp6_lease_get_dns(lease); } } static void netconfig_set_neighbor_entry_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { if (error) l_error("l_rtnl_neighbor_set_hwaddr failed: %s (%i)", strerror(-error), error); } static int netconfig_set_dns(struct netconfig *netconfig) { const uint8_t *fils_dns4_mac = NULL; const uint8_t *fils_dns6_mac = NULL; char **dns4_list = netconfig_get_dns_list(netconfig, AF_INET, &fils_dns4_mac); char **dns6_list = netconfig_get_dns_list(netconfig, AF_INET6, &fils_dns6_mac); unsigned int n_entries4 = l_strv_length(dns4_list); unsigned int n_entries6 = l_strv_length(dns6_list); char **dns_list; const struct ie_fils_ip_addr_response_info *fils = netconfig->fils_override; if (!dns4_list && !dns6_list) return 0; dns_list = dns4_list; if (dns6_list) { dns_list = l_realloc(dns_list, sizeof(char *) * (n_entries4 + n_entries6 + 1)); memcpy(dns_list + n_entries4, dns6_list, sizeof(char *) * (n_entries6 + 1)); /* Contents now belong to dns_list, so no l_strfreev */ l_free(dns6_list); } resolve_set_dns(netconfig->resolve, dns_list); l_strv_free(dns_list); if (fils_dns4_mac && !l_rtnl_neighbor_set_hwaddr(rtnl, netconfig->ifindex, AF_INET, &fils->ipv4_dns, fils_dns4_mac, 6, netconfig_set_neighbor_entry_cb, NULL, NULL)) l_debug("l_rtnl_neighbor_set_hwaddr failed"); if (fils_dns6_mac && !l_rtnl_neighbor_set_hwaddr(rtnl, netconfig->ifindex, AF_INET6, fils->ipv6_dns, fils_dns6_mac, 6, netconfig_set_neighbor_entry_cb, NULL, NULL)) l_debug("l_rtnl_neighbor_set_hwaddr failed"); return 0; } static void append_domain(char **domains, unsigned int *n_domains, size_t max, char *domain) { unsigned int i; if (*n_domains == max) return; for (i = 0; i < *n_domains; i++) if (!strcmp(domains[i], domain)) return; domains[*n_domains] = domain; *n_domains += 1; } static int netconfig_set_domains(struct netconfig *netconfig) { char *domains[31]; unsigned int n_domains = 0; char *v4_domain = NULL; char **v6_domains = NULL; char **p; memset(domains, 0, sizeof(domains)); /* Allow to override the DHCP domain name with setting entry. */ v4_domain = l_settings_get_string(netconfig->active_settings, "IPv4", "DomainName"); if (!v4_domain && netconfig->rtm_protocol == RTPROT_DHCP) { const struct l_dhcp_lease *lease = l_dhcp_client_get_lease(netconfig->dhcp_client); if (lease) v4_domain = l_dhcp_lease_get_domain_name(lease); } append_domain(domains, &n_domains, L_ARRAY_SIZE(domains) - 1, v4_domain); if (netconfig->rtm_v6_protocol == RTPROT_DHCP) { const struct l_dhcp6_lease *lease = l_dhcp6_client_get_lease(netconfig->dhcp6_client); if (lease) v6_domains = l_dhcp6_lease_get_domains(lease); } for (p = v6_domains; p && *p; p++) append_domain(domains, &n_domains, L_ARRAY_SIZE(domains) - 1, *p); resolve_set_domains(netconfig->resolve, domains); l_strv_free(v6_domains); l_free(v4_domain); return 0; } static struct l_rtnl_address *netconfig_get_static4_address( const struct l_settings *active_settings) { struct l_rtnl_address *ifaddr = NULL; L_AUTO_FREE_VAR(char *, ip) = NULL; L_AUTO_FREE_VAR(char *, netmask) = NULL; struct in_addr in_addr; L_AUTO_FREE_VAR(char *, broadcast) = NULL; uint32_t prefix_len; ip = l_settings_get_string(active_settings, "IPv4", "Address"); if (!ip) return NULL; netmask = l_settings_get_string(active_settings, "IPv4", "Netmask"); if (netmask) { if (inet_pton(AF_INET, netmask, &in_addr) != 1) { l_error("netconfig: Can't parse IPv4 Netmask"); return NULL; } prefix_len = __builtin_popcountl(in_addr.s_addr); if (ntohl(in_addr.s_addr) != util_netmask_from_prefix(prefix_len)) { l_error("netconfig: Invalid IPv4 Netmask"); return NULL; } } else prefix_len = 24; ifaddr = l_rtnl_address_new(ip, prefix_len); if (!ifaddr) { l_error("netconfig: Unable to parse IPv4.Address"); return NULL; } broadcast = l_settings_get_string(active_settings, "IPv4", "Broadcast"); if (broadcast && !l_rtnl_address_set_broadcast(ifaddr, broadcast)) { l_error("netconfig: Unable to parse IPv4.Broadcast"); l_rtnl_address_free(ifaddr); return NULL; } l_rtnl_address_set_noprefixroute(ifaddr, true); return ifaddr; } static char *netconfig_ipv4_get_gateway(struct netconfig *netconfig, const uint8_t **out_mac) { const struct l_dhcp_lease *lease; char *gateway; switch (netconfig->rtm_protocol) { case RTPROT_STATIC: gateway = l_settings_get_string(netconfig->active_settings, "IPv4", "Gateway"); if (!gateway) gateway = l_settings_get_string( netconfig->active_settings, "IPv4", "gateway"); return gateway; case RTPROT_DHCP: if (netconfig->fils_override && netconfig->fils_override->ipv4_gateway) { gateway = netconfig_ipv4_to_string( netconfig->fils_override->ipv4_gateway); if (gateway && !l_memeqzero(netconfig->fils_override-> ipv4_gateway_mac, 6)) *out_mac = netconfig->fils_override-> ipv4_gateway_mac; return gateway; } lease = l_dhcp_client_get_lease(netconfig->dhcp_client); if (!lease) return NULL; return l_dhcp_lease_get_gateway(lease); } return NULL; } static struct l_rtnl_address *netconfig_get_static6_address( const struct l_settings *active_settings) { L_AUTO_FREE_VAR(char *, ip); char *p; struct l_rtnl_address *ret; uint32_t prefix_len = 128; ip = l_settings_get_string(active_settings, "IPv6", "Address"); if (!ip) return NULL; p = strrchr(ip, '/'); if (!p) goto no_prefix_len; *p = '\0'; if (*++p == '\0') goto no_prefix_len; prefix_len = strtoul(p, NULL, 10); if (!unlikely(errno == EINVAL || errno == ERANGE || !prefix_len || prefix_len > 128)) { l_error("netconfig: Invalid prefix '%s' provided in network" " configuration file", p); return NULL; } no_prefix_len: ret = l_rtnl_address_new(ip, prefix_len); if (!ret) l_error("netconfig: Invalid IPv6 address %s is " "provided in network configuration file.", ip); return ret; } static struct l_rtnl_route *netconfig_get_static6_gateway( struct netconfig *netconfig, const uint8_t **out_mac) { L_AUTO_FREE_VAR(char *, gateway); struct l_rtnl_route *ret; const uint8_t *mac = NULL; gateway = l_settings_get_string(netconfig->active_settings, "IPv6", "Gateway"); if (!gateway && netconfig->rtm_v6_protocol == RTPROT_DHCP && netconfig->fils_override && !l_memeqzero(netconfig->fils_override->ipv6_gateway, 16)) { gateway = netconfig_ipv6_to_string( netconfig->fils_override->ipv6_gateway); if (!l_memeqzero(netconfig->fils_override->ipv6_gateway_mac, 6)) mac = netconfig->fils_override->ipv6_gateway_mac; } else if (!gateway) return NULL; ret = l_rtnl_route_new_gateway(gateway); if (!ret) { l_error("netconfig: Invalid IPv6 gateway address %s is " "provided in network configuration file.", gateway); return ret; } l_rtnl_route_set_priority(ret, ROUTE_PRIORITY_OFFSET); l_rtnl_route_set_protocol(ret, RTPROT_STATIC); *out_mac = mac; return ret; } static struct l_rtnl_address *netconfig_get_dhcp4_address( struct netconfig *netconfig) { const struct l_dhcp_lease *lease = l_dhcp_client_get_lease(netconfig->dhcp_client); L_AUTO_FREE_VAR(char *, ip) = NULL; L_AUTO_FREE_VAR(char *, netmask) = NULL; L_AUTO_FREE_VAR(char *, broadcast) = NULL; struct in_addr in_addr; uint32_t prefix_len; struct l_rtnl_address *ret; if (L_WARN_ON(!lease)) return NULL; ip = l_dhcp_lease_get_address(lease); netmask = l_dhcp_lease_get_netmask(lease); broadcast = l_dhcp_lease_get_broadcast(lease); if (netmask && inet_pton(AF_INET, netmask, &in_addr) > 0) prefix_len = __builtin_popcountl(in_addr.s_addr); else prefix_len = 24; ret = l_rtnl_address_new(ip, prefix_len); if (!ret) return ret; if (broadcast) l_rtnl_address_set_broadcast(ret, broadcast); l_rtnl_address_set_noprefixroute(ret, true); return ret; } static void netconfig_ifaddr_added(struct netconfig *netconfig, const struct ifaddrmsg *ifa, uint32_t len) { L_AUTO_FREE_VAR(char *, label) = NULL; L_AUTO_FREE_VAR(char *, ip) = NULL; L_AUTO_FREE_VAR(char *, broadcast) = NULL; l_rtnl_ifaddr4_extract(ifa, len, &label, &ip, &broadcast); l_debug("%s: ifaddr %s/%u broadcast %s", label, ip, ifa->ifa_prefixlen, broadcast); } static void netconfig_ifaddr_deleted(struct netconfig *netconfig, const struct ifaddrmsg *ifa, uint32_t len) { L_AUTO_FREE_VAR(char *, ip); l_rtnl_ifaddr4_extract(ifa, len, NULL, &ip, NULL); l_debug("ifaddr %s/%u", ip, ifa->ifa_prefixlen); } static void netconfig_ifaddr_notify(uint16_t type, const void *data, uint32_t len, void *user_data) { const struct ifaddrmsg *ifa = data; struct netconfig *netconfig; uint32_t bytes; netconfig = netconfig_find(ifa->ifa_index); if (!netconfig) /* Ignore the interfaces which aren't managed by iwd. */ return; bytes = len - NLMSG_ALIGN(sizeof(struct ifaddrmsg)); switch (type) { case RTM_NEWADDR: netconfig_ifaddr_added(netconfig, ifa, bytes); break; case RTM_DELADDR: netconfig_ifaddr_deleted(netconfig, ifa, bytes); break; } } static void netconfig_ifaddr_cmd_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { if (error) { l_error("netconfig: ifaddr command failure. " "Error %d: %s", error, strerror(-error)); return; } if (type != RTM_NEWADDR) return; netconfig_ifaddr_notify(type, data, len, user_data); } static void netconfig_ifaddr_ipv6_added(struct netconfig *netconfig, const struct ifaddrmsg *ifa, uint32_t len) { struct in6_addr in6; L_AUTO_FREE_VAR(char *, ip) = NULL; if (ifa->ifa_flags & IFA_F_TENTATIVE) return; l_rtnl_ifaddr6_extract(ifa, len, &ip); l_debug("ifindex %u: ifaddr %s/%u", netconfig->ifindex, ip, ifa->ifa_prefixlen); if (netconfig->rtm_v6_protocol != RTPROT_DHCP || (netconfig->fils_override && !l_memeqzero(netconfig->fils_override->ipv6_addr, 16))) return; inet_pton(AF_INET6, ip, &in6); if (!IN6_IS_ADDR_LINKLOCAL(&in6)) return; l_dhcp6_client_set_link_local_address(netconfig->dhcp6_client, ip); if (l_dhcp6_client_start(netconfig->dhcp6_client)) return; l_error("netconfig: Failed to start DHCPv6 client for " "interface %u", netconfig->ifindex); } static void netconfig_ifaddr_ipv6_deleted(struct netconfig *netconfig, const struct ifaddrmsg *ifa, uint32_t len) { L_AUTO_FREE_VAR(char *, ip); l_rtnl_ifaddr6_extract(ifa, len, &ip); l_debug("ifindex %u: ifaddr %s/%u", netconfig->ifindex, ip, ifa->ifa_prefixlen); } static void netconfig_ifaddr_ipv6_notify(uint16_t type, const void *data, uint32_t len, void *user_data) { const struct ifaddrmsg *ifa = data; struct netconfig *netconfig; uint32_t bytes; netconfig = netconfig_find(ifa->ifa_index); if (!netconfig) /* Ignore the interfaces which aren't managed by iwd. */ return; bytes = len - NLMSG_ALIGN(sizeof(struct ifaddrmsg)); switch (type) { case RTM_NEWADDR: netconfig_ifaddr_ipv6_added(netconfig, ifa, bytes); break; case RTM_DELADDR: netconfig_ifaddr_ipv6_deleted(netconfig, ifa, bytes); break; } } static void netconfig_ifaddr_ipv6_cmd_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { if (error) { l_error("netconfig: ifaddr IPv6 command failure. " "Error %d: %s", error, strerror(-error)); return; } if (type != RTM_NEWADDR) return; netconfig_ifaddr_ipv6_notify(type, data, len, user_data); } static void netconfig_route_generic_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { if (error) { l_error("netconfig: Failed to add route. Error %d: %s", error, strerror(-error)); return; } } static void netconfig_route_add_cmd_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { struct netconfig *netconfig = user_data; netconfig->route4_add_gateway_cmd_id = 0; if (error) { l_error("netconfig: Failed to add route. Error %d: %s", error, strerror(-error)); return; } if (!netconfig->notify) return; netconfig->notify(NETCONFIG_EVENT_CONNECTED, netconfig->user_data); netconfig->notify = NULL; } static void netconfig_route6_add_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { struct netconfig *netconfig = user_data; netconfig->route6_add_cmd_id = 0; if (error) { l_error("netconfig: Failed to add route. Error %d: %s", error, strerror(-error)); return; } } static bool netconfig_ipv4_routes_install(struct netconfig *netconfig) { L_AUTO_FREE_VAR(char *, gateway) = NULL; const uint8_t *gateway_mac = NULL; struct in_addr in_addr; char ip[INET_ADDRSTRLEN]; char network[INET_ADDRSTRLEN]; unsigned int prefix_len = l_rtnl_address_get_prefix_length(netconfig->v4_address); if (!l_rtnl_address_get_address(netconfig->v4_address, ip) || inet_pton(AF_INET, ip, &in_addr) < 1) return false; in_addr.s_addr = in_addr.s_addr & htonl(0xFFFFFFFFLU << (32 - prefix_len)); if (!inet_ntop(AF_INET, &in_addr, network, INET_ADDRSTRLEN)) return false; if (!l_rtnl_route4_add_connected(rtnl, netconfig->ifindex, prefix_len, network, ip, netconfig->rtm_protocol, netconfig_route_generic_cb, netconfig, NULL)) { l_error("netconfig: Failed to add subnet route."); return false; } gateway = netconfig_ipv4_get_gateway(netconfig, &gateway_mac); if (!gateway) { l_debug("No gateway obtained from %s.", netconfig->rtm_protocol == RTPROT_STATIC ? "setting file" : "DHCPv4 lease"); if (netconfig->notify) { netconfig->notify(NETCONFIG_EVENT_CONNECTED, netconfig->user_data); netconfig->notify = NULL; } return true; } netconfig->route4_add_gateway_cmd_id = l_rtnl_route4_add_gateway(rtnl, netconfig->ifindex, gateway, ip, ROUTE_PRIORITY_OFFSET, netconfig->rtm_protocol, netconfig_route_add_cmd_cb, netconfig, NULL); if (!netconfig->route4_add_gateway_cmd_id) { l_error("netconfig: Failed to add route for: %s gateway.", gateway); return false; } if (gateway_mac) { /* * Attempt to use the gateway MAC address received from the AP * by writing the mapping directly into the netdev's ARP table * so as to save one data frame roundtrip before first IP * connections are established. This is very low-priority but * print error messages just because they may indicate bigger * problems. */ if (!l_rtnl_neighbor_set_hwaddr(rtnl, netconfig->ifindex, AF_INET, &netconfig->fils_override->ipv4_gateway, gateway_mac, 6, netconfig_set_neighbor_entry_cb, NULL, NULL)) l_debug("l_rtnl_neighbor_set_hwaddr failed"); } return true; } static void netconfig_ipv4_ifaddr_add_cmd_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { struct netconfig *netconfig = user_data; netconfig->addr4_add_cmd_id = 0; if (error && error != -EEXIST) { l_error("netconfig: Failed to add IP address. " "Error %d: %s", error, strerror(-error)); return; } if (!netconfig_ipv4_routes_install(netconfig)) { l_error("netconfig: Failed to install IPv4 routes."); return; } netconfig_set_dns(netconfig); netconfig_set_domains(netconfig); } static void netconfig_ipv6_ifaddr_add_cmd_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { struct netconfig *netconfig = user_data; struct l_rtnl_route *gateway; const uint8_t *gateway_mac; netconfig->addr6_add_cmd_id = 0; if (error && error != -EEXIST) { l_error("netconfig: Failed to add IPv6 address. " "Error %d: %s", error, strerror(-error)); return; } gateway = netconfig_get_static6_gateway(netconfig, &gateway_mac); if (gateway) { netconfig->route6_add_cmd_id = l_rtnl_route_add(rtnl, netconfig->ifindex, gateway, netconfig_route6_add_cb, netconfig, NULL); L_WARN_ON(unlikely(!netconfig->route6_add_cmd_id)); l_rtnl_route_free(gateway); if (gateway_mac && !l_rtnl_neighbor_set_hwaddr(rtnl, netconfig->ifindex, AF_INET6, netconfig->fils_override->ipv6_gateway, gateway_mac, 6, netconfig_set_neighbor_entry_cb, NULL, NULL)) l_debug("l_rtnl_neighbor_set_hwaddr failed"); } netconfig_set_dns(netconfig); netconfig_set_domains(netconfig); } static void netconfig_ifaddr_del_cmd_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { if (error == -ENODEV) /* The device is unplugged, we are done. */ return; if (!error) /* * The kernel removes all of the routes associated with the * deleted IP on its own. There is no need to explicitly remove * them. */ return; l_error("netconfig: Failed to delete IP address. " "Error %d: %s", error, strerror(-error)); } static void netconfig_ipv4_dhcp_event_handler(struct l_dhcp_client *client, enum l_dhcp_client_event event, void *userdata) { struct netconfig *netconfig = userdata; l_debug("DHCPv4 event %d", event); switch (event) { case L_DHCP_CLIENT_EVENT_IP_CHANGED: L_WARN_ON(!l_rtnl_ifaddr_delete(rtnl, netconfig->ifindex, netconfig->v4_address, netconfig_ifaddr_del_cmd_cb, netconfig, NULL)); l_rtnl_address_free(netconfig->v4_address); /* Fall through. */ case L_DHCP_CLIENT_EVENT_LEASE_OBTAINED: netconfig->v4_address = netconfig_get_dhcp4_address(netconfig); if (!netconfig->v4_address) { l_error("netconfig: Failed to obtain IP addresses from " "DHCPv4 lease."); return; } L_WARN_ON(!(netconfig->addr4_add_cmd_id = l_rtnl_ifaddr_add(rtnl, netconfig->ifindex, netconfig->v4_address, netconfig_ipv4_ifaddr_add_cmd_cb, netconfig, NULL))); break; case L_DHCP_CLIENT_EVENT_LEASE_RENEWED: break; case L_DHCP_CLIENT_EVENT_LEASE_EXPIRED: L_WARN_ON(!l_rtnl_ifaddr_delete(rtnl, netconfig->ifindex, netconfig->v4_address, netconfig_ifaddr_del_cmd_cb, netconfig, NULL)); l_rtnl_address_free(netconfig->v4_address); netconfig->v4_address = NULL; /* Fall through. */ case L_DHCP_CLIENT_EVENT_NO_LEASE: /* * The requested address is no longer available, try to restart * the client. */ if (!l_dhcp_client_start(client)) l_error("netconfig: Failed to re-start DHCPv4 client " "for interface %u", netconfig->ifindex); break; default: l_error("netconfig: Received unsupported DHCPv4 event: %d", event); } } static void netconfig_dhcp6_event_handler(struct l_dhcp6_client *client, enum l_dhcp6_client_event event, void *userdata) { struct netconfig *netconfig = userdata; switch (event) { case L_DHCP6_CLIENT_EVENT_IP_CHANGED: case L_DHCP6_CLIENT_EVENT_LEASE_OBTAINED: case L_DHCP6_CLIENT_EVENT_LEASE_RENEWED: netconfig_set_dns(netconfig); netconfig_set_domains(netconfig); break; case L_DHCP6_CLIENT_EVENT_LEASE_EXPIRED: l_debug("Lease for interface %u expired", netconfig->ifindex); netconfig_set_dns(netconfig); netconfig_set_domains(netconfig); /* Fall through */ case L_DHCP6_CLIENT_EVENT_NO_LEASE: if (!l_dhcp6_client_start(netconfig->dhcp6_client)) l_error("netconfig: Failed to re-start DHCPv6 client " "for interface %u", netconfig->ifindex); break; } } static void netconfig_remove_v4_address(struct netconfig *netconfig) { if (!netconfig->v4_address) return; L_WARN_ON(!l_rtnl_ifaddr_delete(rtnl, netconfig->ifindex, netconfig->v4_address, netconfig_ifaddr_del_cmd_cb, netconfig, NULL)); l_rtnl_address_free(netconfig->v4_address); netconfig->v4_address = NULL; } static void netconfig_reset_v4(struct netconfig *netconfig) { if (netconfig->rtm_protocol) { netconfig_remove_v4_address(netconfig); l_strfreev(netconfig->dns4_overrides); netconfig->dns4_overrides = NULL; l_dhcp_client_stop(netconfig->dhcp_client); netconfig->rtm_protocol = 0; l_acd_destroy(netconfig->acd); netconfig->acd = NULL; } } static void netconfig_ipv4_acd_event(enum l_acd_event event, void *user_data) { struct netconfig *netconfig = user_data; switch (event) { case L_ACD_EVENT_AVAILABLE: L_WARN_ON(!(netconfig->addr4_add_cmd_id = l_rtnl_ifaddr_add(rtnl, netconfig->ifindex, netconfig->v4_address, netconfig_ipv4_ifaddr_add_cmd_cb, netconfig, NULL))); return; case L_ACD_EVENT_CONFLICT: /* * Conflict found, no IP was actually set so just free/unset * anything we set prior to starting ACD. */ l_error("netconfig: statically configured address conflict!"); l_rtnl_address_free(netconfig->v4_address); netconfig->v4_address = NULL; netconfig->rtm_protocol = 0; break; case L_ACD_EVENT_LOST: /* * Set IP but lost it some time after. Full (IPv4) reset in this * case. */ l_error("netconfig: statically configured address was lost"); netconfig_remove_v4_address(netconfig); break; } } static bool netconfig_ipv4_select_and_install(struct netconfig *netconfig) { struct netdev *netdev = netdev_find(netconfig->ifindex); bool set_address = (netconfig->rtm_protocol == RTPROT_STATIC); if (netconfig->rtm_protocol == RTPROT_DHCP && netconfig->fils_override && netconfig->fils_override->ipv4_addr) { L_AUTO_FREE_VAR(char *, addr_str) = netconfig_ipv4_to_string( netconfig->fils_override->ipv4_addr); uint8_t prefix_len = netconfig->fils_override->ipv4_prefix_len; if (unlikely(!addr_str)) return false; if (L_WARN_ON(unlikely(!(netconfig->v4_address = l_rtnl_address_new(addr_str, prefix_len))))) return false; l_rtnl_address_set_noprefixroute(netconfig->v4_address, true); set_address = true; /* * TODO: If netconfig->fils_override->ipv4_lifetime is set, * start a timeout to renew the address using FILS IP Address * Assignment or perhaps just start the DHCP client at that * time. */ } if (set_address) { char ip[INET6_ADDRSTRLEN]; if (L_WARN_ON(!netconfig->v4_address || !l_rtnl_address_get_address( netconfig->v4_address, ip))) return false; netconfig->acd = l_acd_new(netconfig->ifindex); l_acd_set_event_handler(netconfig->acd, netconfig_ipv4_acd_event, netconfig, NULL); if (getenv("IWD_ACD_DEBUG")) l_acd_set_debug(netconfig->acd, do_debug, "[ACD] ", NULL); if (!l_acd_start(netconfig->acd, ip)) { l_error("failed to start ACD, continuing anyways"); l_acd_destroy(netconfig->acd); netconfig->acd = NULL; L_WARN_ON(!(netconfig->addr4_add_cmd_id = l_rtnl_ifaddr_add(rtnl, netconfig->ifindex, netconfig->v4_address, netconfig_ipv4_ifaddr_add_cmd_cb, netconfig, NULL))); } return true; } l_dhcp_client_set_address(netconfig->dhcp_client, ARPHRD_ETHER, netdev_get_address(netdev), ETH_ALEN); if (l_dhcp_client_start(netconfig->dhcp_client)) return true; l_error("netconfig: Failed to start DHCPv4 client for interface %u", netconfig->ifindex); return false; } static bool netconfig_ipv6_select_and_install(struct netconfig *netconfig) { struct netdev *netdev = netdev_find(netconfig->ifindex); struct l_rtnl_address *address = NULL; if (netconfig->rtm_v6_protocol == RTPROT_UNSPEC) { l_debug("IPV6 configuration disabled"); return true; } sysfs_write_ipv6_setting(netdev_get_name(netdev), "disable_ipv6", "0"); if (netconfig->rtm_v6_protocol == RTPROT_STATIC) address = netconfig_get_static6_address( netconfig->active_settings); else if (netconfig->rtm_v6_protocol == RTPROT_DHCP && netconfig->fils_override && !l_memeqzero(netconfig->fils_override->ipv6_addr, 16)) { uint8_t prefix_len = netconfig->fils_override->ipv6_prefix_len; L_AUTO_FREE_VAR(char *, addr_str) = netconfig_ipv6_to_string( netconfig->fils_override->ipv6_addr); if (unlikely(!addr_str)) return false; if (L_WARN_ON(unlikely(!(address = l_rtnl_address_new(addr_str, prefix_len))))) return false; l_rtnl_address_set_noprefixroute(address, true); /* * TODO: If netconfig->fils_override->ipv6_lifetime is set, * start a timeout to renew the address using FILS IP Address * Assignment or perhaps just start the DHCP client at that * time. */ } if (address) { L_WARN_ON(!(netconfig->addr6_add_cmd_id = l_rtnl_ifaddr_add(rtnl, netconfig->ifindex, address, netconfig_ipv6_ifaddr_add_cmd_cb, netconfig, NULL))); l_rtnl_address_free(address); return true; } /* DHCPv6 or RA, update MAC */ l_dhcp6_client_set_address(netconfig->dhcp6_client, ARPHRD_ETHER, netdev_get_address(netdev), ETH_ALEN); return true; } static int validate_dns_list(int family, char **dns_list) { unsigned int n_valid = 0; struct in_addr in_addr; struct in6_addr in6_addr; char **p; for (p = dns_list; *p; p++) { int r; if (family == AF_INET) r = inet_pton(AF_INET, *p, &in_addr); else if (family == AF_INET6) r = inet_pton(AF_INET6, *p, &in6_addr); else r = -EAFNOSUPPORT; if (r > 0) { n_valid += 1; continue; } l_error("netconfig: Invalid DNS address '%s'.", *p); return -EINVAL; } return n_valid; } bool netconfig_load_settings(struct netconfig *netconfig, const struct l_settings *active_settings) { char *mdns; bool send_hostname; bool v6_enabled; char hostname[HOST_NAME_MAX + 1]; char **dns4_overrides = NULL; char **dns6_overrides = NULL; struct l_rtnl_address *v4_address = NULL; struct l_rtnl_address *v6_address = NULL; dns4_overrides = l_settings_get_string_list(active_settings, "IPv4", "DNS", ' '); if (dns4_overrides) { int r = validate_dns_list(AF_INET, dns4_overrides); if (unlikely(r <= 0)) { l_strfreev(dns4_overrides); dns4_overrides = NULL; if (r < 0) goto err_dns4; } if (r == 0) l_error("netconfig: Empty IPv4.DNS entry, skipping..."); } dns6_overrides = l_settings_get_string_list(active_settings, "IPv6", "DNS", ' '); if (dns6_overrides) { int r = validate_dns_list(AF_INET6, dns6_overrides); if (unlikely(r <= 0)) { l_strfreev(dns6_overrides); dns6_overrides = NULL; if (r < 0) goto err_dns6; } if (r == 0) l_error("netconfig: Empty IPv6.DNS entry, skipping..."); } if (!l_settings_get_bool(active_settings, "IPv4", "SendHostname", &send_hostname)) send_hostname = false; if (send_hostname) { if (gethostname(hostname, sizeof(hostname)) != 0) { l_warn("netconfig: Unable to get hostname. " "Error %d: %s", errno, strerror(errno)); send_hostname = false; } } mdns = l_settings_get_string(active_settings, "Network", "MulticastDNS"); if (l_settings_has_key(active_settings, "IPv4", "Address")) { v4_address = netconfig_get_static4_address(active_settings); if (unlikely(!v4_address)) { l_error("netconfig: Can't parse IPv4 address"); goto err_v4_addr; } } if (!l_settings_get_bool(active_settings, "IPv6", "Enabled", &v6_enabled)) v6_enabled = ipv6_enabled; if (l_settings_has_key(active_settings, "IPv6", "Address")) { v6_address = netconfig_get_static6_address(active_settings); l_rtnl_address_free(v6_address); if (unlikely(!v6_address)) { l_error("netconfig: Can't parse IPv6 address"); goto err_v6_addr; } } /* No more validation steps for now, commit new values */ netconfig->rtm_protocol = v4_address ? RTPROT_STATIC : RTPROT_DHCP; if (!v6_enabled) netconfig->rtm_v6_protocol = RTPROT_UNSPEC; else if (v6_address) netconfig->rtm_v6_protocol = RTPROT_STATIC; else netconfig->rtm_v6_protocol = RTPROT_DHCP; if (send_hostname) l_dhcp_client_set_hostname(netconfig->dhcp_client, hostname); resolve_set_mdns(netconfig->resolve, mdns); l_free(mdns); netconfig_free_settings(netconfig); if (netconfig->rtm_protocol == RTPROT_STATIC) netconfig->v4_address = v4_address; netconfig->active_settings = active_settings; netconfig->dns4_overrides = dns4_overrides; netconfig->dns6_overrides = dns6_overrides; return true; err_v6_addr: l_rtnl_address_free(v4_address); err_v4_addr: l_free(mdns); l_strfreev(dns6_overrides); err_dns6: l_strfreev(dns4_overrides); err_dns4: return false; } bool netconfig_configure(struct netconfig *netconfig, netconfig_notify_func_t notify, void *user_data) { netconfig->notify = notify; netconfig->user_data = user_data; if (unlikely(!netconfig_ipv4_select_and_install(netconfig))) return false; if (unlikely(!netconfig_ipv6_select_and_install(netconfig))) return false; return true; } bool netconfig_reconfigure(struct netconfig *netconfig) { if (netconfig->rtm_protocol == RTPROT_DHCP) { /* TODO l_dhcp_client sending a DHCP inform request */ } if (netconfig->rtm_v6_protocol == RTPROT_DHCP) { /* TODO l_dhcp_v6_client sending a DHCP inform request */ } return true; } bool netconfig_reset(struct netconfig *netconfig) { struct netdev *netdev = netdev_find(netconfig->ifindex); if (netconfig->route4_add_gateway_cmd_id) { l_netlink_cancel(rtnl, netconfig->route4_add_gateway_cmd_id); netconfig->route4_add_gateway_cmd_id = 0; } if (netconfig->route6_add_cmd_id) { l_netlink_cancel(rtnl, netconfig->route6_add_cmd_id); netconfig->route6_add_cmd_id = 0; } if (netconfig->addr4_add_cmd_id) { l_netlink_cancel(rtnl, netconfig->addr4_add_cmd_id); netconfig->addr4_add_cmd_id = 0; } if (netconfig->addr6_add_cmd_id) { l_netlink_cancel(rtnl, netconfig->addr6_add_cmd_id); netconfig->addr6_add_cmd_id = 0; } if (netconfig->rtm_protocol || netconfig->rtm_v6_protocol) resolve_revert(netconfig->resolve); netconfig_reset_v4(netconfig); if (netconfig->rtm_v6_protocol) { l_strfreev(netconfig->dns6_overrides); netconfig->dns6_overrides = NULL; l_dhcp6_client_stop(netconfig->dhcp6_client); netconfig->rtm_v6_protocol = 0; sysfs_write_ipv6_setting(netdev_get_name(netdev), "disable_ipv6", "1"); } l_free(l_steal_ptr(netconfig->fils_override)); return true; } char *netconfig_get_dhcp_server_ipv4(struct netconfig *netconfig) { const struct l_dhcp_lease *lease; if (!netconfig->dhcp_client) return NULL; lease = l_dhcp_client_get_lease(netconfig->dhcp_client); if (!lease) return NULL; return l_dhcp_lease_get_server_id(lease); } bool netconfig_get_fils_ip_req(struct netconfig *netconfig, struct ie_fils_ip_addr_request_info *info) { /* * Fill in the fields used for building the FILS IP Address Assigment * IE during connection if we're configured to do automatic network * configuration (usually DHCP). If we're configured with static * values return false to mean the IE should not be sent. */ if (netconfig->rtm_protocol != RTPROT_DHCP && netconfig->rtm_v6_protocol != RTPROT_DHCP) return false; memset(info, 0, sizeof(*info)); info->ipv4 = (netconfig->rtm_protocol == RTPROT_DHCP); info->ipv6 = (netconfig->rtm_v6_protocol == RTPROT_DHCP); info->dns = (info->ipv4 && !netconfig->dns4_overrides) || (info->ipv6 && !netconfig->dns6_overrides); return true; } void netconfig_handle_fils_ip_resp(struct netconfig *netconfig, const struct ie_fils_ip_addr_response_info *info) { l_free(netconfig->fils_override); netconfig->fils_override = l_memdup(info, sizeof(*info)); } struct netconfig *netconfig_new(uint32_t ifindex) { struct netdev *netdev = netdev_find(ifindex); struct netconfig *netconfig; struct l_icmp6_client *icmp6; if (!netconfig_list) return NULL; l_debug("Starting netconfig for interface: %d", ifindex); netconfig = netconfig_find(ifindex); if (netconfig) return netconfig; netconfig = l_new(struct netconfig, 1); netconfig->ifindex = ifindex; netconfig->resolve = resolve_new(ifindex); netconfig->dhcp_client = l_dhcp_client_new(ifindex); l_dhcp_client_set_event_handler(netconfig->dhcp_client, netconfig_ipv4_dhcp_event_handler, netconfig, NULL); if (getenv("IWD_DHCP_DEBUG")) l_dhcp_client_set_debug(netconfig->dhcp_client, do_debug, "[DHCPv4] ", NULL); netconfig->dhcp6_client = l_dhcp6_client_new(ifindex); l_dhcp6_client_set_event_handler(netconfig->dhcp6_client, netconfig_dhcp6_event_handler, netconfig, NULL); l_dhcp6_client_set_lla_randomized(netconfig->dhcp6_client, true); l_dhcp6_client_set_nodelay(netconfig->dhcp6_client, true); l_dhcp6_client_set_rtnl(netconfig->dhcp6_client, rtnl); if (getenv("IWD_DHCP_DEBUG")) l_dhcp6_client_set_debug(netconfig->dhcp6_client, do_debug, "[DHCPv6] ", NULL); icmp6 = l_dhcp6_client_get_icmp6(netconfig->dhcp6_client); l_icmp6_client_set_rtnl(icmp6, rtnl); l_icmp6_client_set_route_priority(icmp6, ROUTE_PRIORITY_OFFSET); l_queue_push_tail(netconfig_list, netconfig); sysfs_write_ipv6_setting(netdev_get_name(netdev), "accept_ra", "0"); sysfs_write_ipv6_setting(netdev_get_name(netdev), "disable_ipv6", "1"); return netconfig; } void netconfig_destroy(struct netconfig *netconfig) { if (!netconfig_list) return; l_debug(""); l_queue_remove(netconfig_list, netconfig); netconfig_reset(netconfig); resolve_free(netconfig->resolve); netconfig_free(netconfig); } static int netconfig_init(void) { uint32_t r; if (netconfig_list) return -EALREADY; rtnl = iwd_get_rtnl(); r = l_netlink_register(rtnl, RTNLGRP_IPV4_IFADDR, netconfig_ifaddr_notify, NULL, NULL); if (!r) { l_error("netconfig: Failed to register for RTNL link address" " notifications."); goto error; } r = l_rtnl_ifaddr4_dump(rtnl, netconfig_ifaddr_cmd_cb, NULL, NULL); if (!r) { l_error("netconfig: Failed to get addresses from RTNL link."); goto error; } r = l_netlink_register(rtnl, RTNLGRP_IPV6_IFADDR, netconfig_ifaddr_ipv6_notify, NULL, NULL); if (!r) { l_error("netconfig: Failed to register for RTNL link IPv6 " "address notifications."); goto error; } r = l_rtnl_ifaddr6_dump(rtnl, netconfig_ifaddr_ipv6_cmd_cb, NULL, NULL); if (!r) { l_error("netconfig: Failed to get IPv6 addresses from RTNL" " link."); goto error; } if (!l_settings_get_uint(iwd_get_config(), "Network", "RoutePriorityOffset", &ROUTE_PRIORITY_OFFSET)) ROUTE_PRIORITY_OFFSET = 300; if (!l_settings_get_bool(iwd_get_config(), "Network", "EnableIPv6", &ipv6_enabled)) ipv6_enabled = false; netconfig_list = l_queue_new(); return 0; error: rtnl = NULL; return r; } static void netconfig_exit(void) { if (!netconfig_list) return; rtnl = NULL; l_queue_destroy(netconfig_list, netconfig_free); } IWD_MODULE(netconfig, netconfig_init, netconfig_exit)