/* * * Wireless daemon for Linux * * Copyright (C) 2021 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 "src/util.h" #include "src/iwd.h" #include "src/module.h" #include "src/netdev.h" #include "src/ip-pool.h" struct ip_pool_addr4_record { uint32_t ifindex; struct l_rtnl_address *addr; }; struct ip_pool_addr4_range { uint32_t start; uint32_t end; }; static struct l_queue *used_addr4_list; static struct l_netlink *rtnl; static int ip_pool_addr4_range_compare(const void *a, const void *b, void *user_data) { const struct ip_pool_addr4_range *range_a = a; const struct ip_pool_addr4_range *range_b = b; return range_a->start > range_b->start ? 1 : -1; } /* * Append any address ranges within an input start/end range which contain * at least one full subnet and don't intersect with any subnets already in * use. This may result in the input range being split into multiple ranges * of different sizes or being skipped altogether. * All inputs must be rounded to the subnet boundary and the @used queue * sorted by the subnet start address. */ static void ip_pool_append_range(struct l_queue *to, const struct ip_pool_addr4_range *range, struct l_queue *used, const char *str) { const struct l_queue_entry *entry = l_queue_get_entries(used); const struct ip_pool_addr4_range *used_range = entry ? entry->data : NULL; uint32_t start = range->start; bool print = true; while (range->end > start) { while (used_range && used_range->end <= start) { entry = entry->next; used_range = entry ? entry->data : NULL; } /* No more used ranges that intersect with @start/@range->end */ if (!used_range || range->end <= used_range->start) { struct ip_pool_addr4_range *sub = l_new(struct ip_pool_addr4_range, 1); sub->start = start; sub->end = range->end; l_queue_push_tail(to, sub); l_queue_insert(used, l_memdup(sub, sizeof(*sub)), ip_pool_addr4_range_compare, NULL); return; } if (print) { l_debug("Address spec %s intersects with at least one " "subnet already in use on the system or " "specified in the settings", str); print = false; } /* Now we know @used_range is non-NULL and intersects */ if (start < used_range->start) { struct ip_pool_addr4_range *sub = l_new(struct ip_pool_addr4_range, 1); sub->start = start; sub->end = used_range->start; l_queue_push_tail(to, sub); l_queue_insert(used, l_memdup(sub, sizeof(*sub)), ip_pool_addr4_range_compare, NULL); } /* Skip to the start of the next subnet */ start = used_range->end; } } /* * Select a subnet and a host address from a defined space. * * Returns: 0 when an address was selected and written to *out_addr, * -EEXIST if all available subnet addresses are in use, * -EINVAL if there was a different error. */ int ip_pool_select_addr4(const char **addr_str_list, uint8_t subnet_prefix_len, struct l_rtnl_address **out_addr) { uint32_t total = 0; uint32_t selected; unsigned int i; uint32_t subnet_size = 1 << (32 - subnet_prefix_len); uint32_t host_mask = subnet_size - 1; uint32_t subnet_mask = ~host_mask; uint32_t host_addr = 0; struct l_queue *ranges = l_queue_new(); struct l_queue *used = l_queue_new(); struct in_addr ia; const struct l_queue_entry *entry; int err = -EINVAL; /* Build a sorted list of used/unavailable subnets */ for (entry = l_queue_get_entries((struct l_queue *) used_addr4_list); entry; entry = entry->next) { const struct ip_pool_addr4_record *rec = entry->data; struct ip_pool_addr4_range *range; char addr_str[INET_ADDRSTRLEN]; uint32_t used_subnet_size = 1 << (32 - l_rtnl_address_get_prefix_length(rec->addr)); if (!l_rtnl_address_get_address(rec->addr, addr_str) || inet_aton(addr_str, &ia) < 0) continue; range = l_new(struct ip_pool_addr4_range, 1); range->start = ntohl(ia.s_addr) & subnet_mask; range->end = (range->start + used_subnet_size + subnet_size - 1) & subnet_mask; l_queue_insert(used, range, ip_pool_addr4_range_compare, NULL); } /* Build the list of available subnets */ /* Check for the static IP syntax: Address= */ if (l_strv_length((char **) addr_str_list) == 1 && inet_pton(AF_INET, *addr_str_list, &ia) == 1) { struct ip_pool_addr4_range range; host_addr = ntohl(ia.s_addr); range.start = host_addr & subnet_mask; range.end = range.start + subnet_size; ip_pool_append_range(ranges, &range, used, *addr_str_list); goto check_avail; } for (i = 0; addr_str_list[i]; i++) { struct ip_pool_addr4_range range; uint32_t addr; uint8_t addr_prefix; if (!util_ip_prefix_tohl(addr_str_list[i], &addr_prefix, &addr, NULL, NULL)) { l_error("Can't parse %s as a subnet address", addr_str_list[i]); goto cleanup; } if (addr_prefix > subnet_prefix_len) { l_debug("Address spec %s smaller than requested " "subnet (prefix len %i)", addr_str_list[i], subnet_prefix_len); continue; } range.start = addr & subnet_mask; range.end = range.start + (1 << (32 - addr_prefix)); ip_pool_append_range(ranges, &range, used, addr_str_list[i]); } check_avail: if (l_queue_isempty(ranges)) { l_error("No IP subnets available for new Access Point after " "eliminating those already in use on the system"); err = -EEXIST; goto cleanup; } if (host_addr) goto done; /* Count available @subnet_prefix_len-sized subnets */ for (entry = l_queue_get_entries(ranges); entry; entry = entry->next) { struct ip_pool_addr4_range *range = entry->data; total += (range->end - range->start) >> (32 - subnet_prefix_len); } selected = l_getrandom_uint32() % total; /* Find the @selected'th @subnet_prefix_len-sized subnet */ for (entry = l_queue_get_entries(ranges);; entry = entry->next) { struct ip_pool_addr4_range *range = entry->data; uint32_t count = (range->end - range->start) >> (32 - subnet_prefix_len); if (selected < count) { host_addr = range->start + (selected << (32 - subnet_prefix_len)); break; } selected -= count; } if ((host_addr & 0xff) == 0) host_addr += 1; done: err = 0; ia.s_addr = htonl(host_addr); *out_addr = l_rtnl_address_new(inet_ntoa(ia), subnet_prefix_len); cleanup: l_queue_destroy(ranges, l_free); l_queue_destroy(used, l_free); return err; } static void ip_pool_addr4_record_free(void *data) { struct ip_pool_addr4_record *rec = data; l_rtnl_address_free(rec->addr); l_free(rec); } static bool ip_pool_addr4_match_ifindex(const void *a, const void *b) { const struct ip_pool_addr4_record *addr = a; return addr->ifindex == L_PTR_TO_UINT(b); } struct l_rtnl_address *ip_pool_get_addr4(uint32_t ifindex) { const struct ip_pool_addr4_record *rec = l_queue_find(used_addr4_list, ip_pool_addr4_match_ifindex, L_UINT_TO_PTR(ifindex)); return rec ? l_rtnl_address_clone(rec->addr) : 0; } static bool ip_pool_addr4_match_free(void *data, void *user_data) { const struct ip_pool_addr4_record *a = data; const struct ip_pool_addr4_record *b = user_data; char a_addr_str[INET_ADDRSTRLEN]; char b_addr_str[INET_ADDRSTRLEN]; if (a->ifindex != b->ifindex || l_rtnl_address_get_prefix_length(a->addr) != l_rtnl_address_get_prefix_length(b->addr)) return false; if (!l_rtnl_address_get_address(a->addr, a_addr_str) || !l_rtnl_address_get_address(b->addr, b_addr_str) || strcmp(a_addr_str, b_addr_str)) return false; ip_pool_addr4_record_free(data); return true; } static void ip_pool_addr_notify(uint16_t type, const void *data, uint32_t len, void *user_data) { const struct ifaddrmsg *ifa = data; struct l_rtnl_address *addr; if (ifa->ifa_family != AF_INET || ifa->ifa_prefixlen < 1) return; len -= NLMSG_ALIGN(sizeof(struct ifaddrmsg)); addr = l_rtnl_ifaddr_extract(ifa, len); if (!addr) return; if (type == RTM_NEWADDR) { struct ip_pool_addr4_record *rec; rec = l_new(struct ip_pool_addr4_record, 1); rec->ifindex = ifa->ifa_index; rec->addr = l_steal_ptr(addr); l_queue_push_tail(used_addr4_list, rec); } else if (type == RTM_DELADDR) { struct ip_pool_addr4_record rec; rec.ifindex = ifa->ifa_index; rec.addr = addr; l_queue_foreach_remove(used_addr4_list, ip_pool_addr4_match_free, &rec); } l_rtnl_address_free(addr); } static void ip_pool_addr4_dump_cb(int error, uint16_t type, const void *data, uint32_t len, void *user_data) { if (error) { l_error("addr4_dump_cb: %s (%i)", strerror(-error), -error); return; } ip_pool_addr_notify(type, data, len, user_data); } static int ip_pool_init(void) { const struct l_settings *settings = iwd_get_config(); bool netconfig_enabled; if (!l_settings_get_bool(settings, "General", "EnableNetworkConfiguration", &netconfig_enabled)) netconfig_enabled = false; if (!netconfig_enabled) return 0; rtnl = iwd_get_rtnl(); if (!l_netlink_register(rtnl, RTNLGRP_IPV4_IFADDR, ip_pool_addr_notify, NULL, NULL)) { l_error("Failed to register for RTNL link notifications"); return -EIO; } if (!l_rtnl_ifaddr4_dump(rtnl, ip_pool_addr4_dump_cb, NULL, NULL)) { l_error("Sending the IPv4 addr dump req failed"); return -EIO; } used_addr4_list = l_queue_new(); return 0; } static void ip_pool_exit(void) { l_queue_destroy(used_addr4_list, ip_pool_addr4_record_free); used_addr4_list = NULL; } IWD_MODULE(ip_pool, ip_pool_init, ip_pool_exit)