/* $NetBSD: getaddrinfo.c,v 1.82 2006/03/25 12:09:40 rpaulo Exp $ */ /* $KAME: getaddrinfo.c,v 1.29 2000/08/31 17:26:57 itojun Exp $ */ /* * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the project nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ /* * This is an adaptation of Android's implementation of RFC 6724 * (in Android's getaddrinfo.c). It has some cosmetic differences * from Android's getaddrinfo.c, but Android's getaddrinfo.c was * used as a guide or example of a way to implement the RFC 6724 spec when * this was written. */ #include "address_sorting_internal.h" #include #include #include #include #include #include // Scope values increase with increase in scope. static const int kIPv6AddrScopeLinkLocal = 1; static const int kIPv6AddrScopeSiteLocal = 2; static const int kIPv6AddrScopeGlobal = 3; static address_sorting_source_addr_factory* g_current_source_addr_factory = NULL; static bool address_sorting_get_source_addr(const address_sorting_address* dest, address_sorting_address* source) { return g_current_source_addr_factory->vtable->get_source_addr( g_current_source_addr_factory, dest, source); } bool address_sorting_get_source_addr_for_testing( const address_sorting_address* dest, address_sorting_address* source) { return address_sorting_get_source_addr(dest, source); } static int ipv6_prefix_match_length(const struct sockaddr_in6* sa, const struct sockaddr_in6* sb) { unsigned char* a = (unsigned char*)&sa->sin6_addr; unsigned char* b = (unsigned char*)&sb->sin6_addr; int cur_bit = 0; while (cur_bit < 128) { int high_bit = 1 << (CHAR_BIT - 1); int a_val = a[cur_bit / CHAR_BIT] & (high_bit >> (cur_bit % CHAR_BIT)); int b_val = b[cur_bit / CHAR_BIT] & (high_bit >> (cur_bit % CHAR_BIT)); if (a_val == b_val) { cur_bit++; } else { break; } } return cur_bit; } static int in6_is_addr_loopback(const struct in6_addr* ipv6_address) { uint32_t* bits32 = (uint32_t*)ipv6_address; return bits32[0] == 0 && bits32[1] == 0 && bits32[2] == 0 && bits32[3] == htonl(1); } static int in6_is_addr_v4mapped(const struct in6_addr* ipv6_address) { uint32_t* bits32 = (uint32_t*)ipv6_address; return bits32[0] == 0 && bits32[1] == 0 && bits32[2] == htonl(0x0000ffff); } static int in6_is_addr_v4compat(const struct in6_addr* ipv6_address) { uint32_t* bits32 = (uint32_t*)ipv6_address; return bits32[0] == 0 && bits32[1] == 0 && bits32[2] == 0 && bits32[3] != 0 && bits32[3] != htonl(1); } static int in6_is_addr_sitelocal(const struct in6_addr* ipv6_address) { uint8_t* bytes = (uint8_t*)ipv6_address; return bytes[0] == 0xfe && (bytes[1] & 0xc0) == 0xc0; } static int in6_is_addr_linklocal(const struct in6_addr* ipv6_address) { uint8_t* bytes = (uint8_t*)ipv6_address; return bytes[0] == 0xfe && (bytes[1] & 0xc0) == 0x80; } static int in6_is_addr_6to4(const struct in6_addr* ipv6_address) { uint8_t* bytes = (uint8_t*)ipv6_address; return bytes[0] == 0x20 && bytes[1] == 0x02; } static int in6_is_addr_ula(const struct in6_addr* ipv6_address) { uint8_t* bytes = (uint8_t*)ipv6_address; return (bytes[0] & 0xfe) == 0xfc; } static int in6_is_addr_teredo(const struct in6_addr* ipv6_address) { uint8_t* bytes = (uint8_t*)ipv6_address; return bytes[0] == 0x20 && bytes[1] == 0x01 && bytes[2] == 0x00 && bytes[3] == 0x00; } static int in6_is_addr_6bone(const struct in6_addr* ipv6_address) { uint8_t* bytes = (uint8_t*)ipv6_address; return bytes[0] == 0x3f && bytes[1] == 0xfe; } address_sorting_family address_sorting_abstract_get_family( const address_sorting_address* address) { switch (((struct sockaddr*)address)->sa_family) { case AF_INET: return ADDRESS_SORTING_AF_INET; case AF_INET6: return ADDRESS_SORTING_AF_INET6; default: return ADDRESS_SORTING_UNKNOWN_FAMILY; } } static int get_label_value(const address_sorting_address* resolved_addr) { if (address_sorting_abstract_get_family(resolved_addr) == ADDRESS_SORTING_AF_INET) { return 4; } else if (address_sorting_abstract_get_family(resolved_addr) != ADDRESS_SORTING_AF_INET6) { return 1; } struct sockaddr_in6* ipv6_addr = (struct sockaddr_in6*)&resolved_addr->addr; if (in6_is_addr_loopback(&ipv6_addr->sin6_addr)) { return 0; } else if (in6_is_addr_v4mapped(&ipv6_addr->sin6_addr)) { return 4; } else if (in6_is_addr_6to4(&ipv6_addr->sin6_addr)) { return 2; } else if (in6_is_addr_teredo(&ipv6_addr->sin6_addr)) { return 5; } else if (in6_is_addr_ula(&ipv6_addr->sin6_addr)) { return 13; } else if (in6_is_addr_v4compat(&ipv6_addr->sin6_addr)) { return 3; } else if (in6_is_addr_sitelocal(&ipv6_addr->sin6_addr)) { return 11; } else if (in6_is_addr_6bone(&ipv6_addr->sin6_addr)) { return 12; } return 1; } static int get_precedence_value(const address_sorting_address* resolved_addr) { if (address_sorting_abstract_get_family(resolved_addr) == ADDRESS_SORTING_AF_INET) { return 35; } else if (address_sorting_abstract_get_family(resolved_addr) != ADDRESS_SORTING_AF_INET6) { return 1; } struct sockaddr_in6* ipv6_addr = (struct sockaddr_in6*)&resolved_addr->addr; if (in6_is_addr_loopback(&ipv6_addr->sin6_addr)) { return 50; } else if (in6_is_addr_v4mapped(&ipv6_addr->sin6_addr)) { return 35; } else if (in6_is_addr_6to4(&ipv6_addr->sin6_addr)) { return 30; } else if (in6_is_addr_teredo(&ipv6_addr->sin6_addr)) { return 5; } else if (in6_is_addr_ula(&ipv6_addr->sin6_addr)) { return 3; } else if (in6_is_addr_v4compat(&ipv6_addr->sin6_addr) || in6_is_addr_sitelocal(&ipv6_addr->sin6_addr) || in6_is_addr_6bone(&ipv6_addr->sin6_addr)) { return 1; } return 40; } static int sockaddr_get_scope(const address_sorting_address* resolved_addr) { if (address_sorting_abstract_get_family(resolved_addr) == ADDRESS_SORTING_AF_INET) { return kIPv6AddrScopeGlobal; } else if (address_sorting_abstract_get_family(resolved_addr) == ADDRESS_SORTING_AF_INET6) { struct sockaddr_in6* ipv6_addr = (struct sockaddr_in6*)&resolved_addr->addr; if (in6_is_addr_loopback(&ipv6_addr->sin6_addr) || in6_is_addr_linklocal(&ipv6_addr->sin6_addr)) { return kIPv6AddrScopeLinkLocal; } if (in6_is_addr_sitelocal(&ipv6_addr->sin6_addr)) { return kIPv6AddrScopeSiteLocal; } return kIPv6AddrScopeGlobal; } return 0; } static int compare_source_addr_exists(const address_sorting_sortable* first, const address_sorting_sortable* second) { if (first->source_addr_exists != second->source_addr_exists) { return first->source_addr_exists ? -1 : 1; } return 0; } static int compare_source_dest_scope_matches( const address_sorting_sortable* first, const address_sorting_sortable* second) { bool first_src_dst_scope_matches = false; if (sockaddr_get_scope(&first->dest_addr) == sockaddr_get_scope(&first->source_addr)) { first_src_dst_scope_matches = true; } bool second_src_dst_scope_matches = false; if (sockaddr_get_scope(&second->dest_addr) == sockaddr_get_scope(&second->source_addr)) { second_src_dst_scope_matches = true; } if (first_src_dst_scope_matches != second_src_dst_scope_matches) { return first_src_dst_scope_matches ? -1 : 1; } return 0; } static int compare_source_dest_labels_match( const address_sorting_sortable* first, const address_sorting_sortable* second) { bool first_label_matches = false; if (get_label_value(&first->dest_addr) == get_label_value(&first->source_addr)) { first_label_matches = true; } bool second_label_matches = false; if (get_label_value(&second->dest_addr) == get_label_value(&second->source_addr)) { second_label_matches = true; } if (first_label_matches != second_label_matches) { return first_label_matches ? -1 : 1; } return 0; } static int compare_dest_precedence(const address_sorting_sortable* first, const address_sorting_sortable* second) { return get_precedence_value(&second->dest_addr) - get_precedence_value(&first->dest_addr); } static int compare_dest_scope(const address_sorting_sortable* first, const address_sorting_sortable* second) { return sockaddr_get_scope(&first->dest_addr) - sockaddr_get_scope(&second->dest_addr); } static int compare_source_dest_prefix_match_lengths( const address_sorting_sortable* first, const address_sorting_sortable* second) { if (first->source_addr_exists && address_sorting_abstract_get_family(&first->source_addr) == ADDRESS_SORTING_AF_INET6 && second->source_addr_exists && address_sorting_abstract_get_family(&second->source_addr) == ADDRESS_SORTING_AF_INET6) { int first_match_length = ipv6_prefix_match_length((struct sockaddr_in6*)&first->source_addr.addr, (struct sockaddr_in6*)&first->dest_addr.addr); int second_match_length = ipv6_prefix_match_length( (struct sockaddr_in6*)&second->source_addr.addr, (struct sockaddr_in6*)&second->dest_addr.addr); return second_match_length - first_match_length; } return 0; } static int rfc_6724_compare(const void* a, const void* b) { const address_sorting_sortable* first = (address_sorting_sortable*)a; const address_sorting_sortable* second = (address_sorting_sortable*)b; int out = 0; if ((out = compare_source_addr_exists(first, second))) { return out; } if ((out = compare_source_dest_scope_matches(first, second))) { return out; } if ((out = compare_source_dest_labels_match(first, second))) { return out; } // TODO: Implement rule 3; avoid deprecated addresses. // TODO: Implement rule 4; avoid temporary addresses. if ((out = compare_dest_precedence(first, second))) { return out; } // TODO: Implement rule 7; prefer native transports. if ((out = compare_dest_scope(first, second))) { return out; } if ((out = compare_source_dest_prefix_match_lengths(first, second))) { return out; } // Prefer that the sort be stable otherwise return (int)(first->original_index - second->original_index); } void address_sorting_override_source_addr_factory_for_testing( address_sorting_source_addr_factory* factory) { if (g_current_source_addr_factory == NULL) { abort(); } g_current_source_addr_factory->vtable->destroy(g_current_source_addr_factory); g_current_source_addr_factory = factory; } static void sanity_check_private_fields_are_unused( const address_sorting_sortable* sortable) { address_sorting_address expected_source_addr; memset(&expected_source_addr, 0, sizeof(expected_source_addr)); if (memcmp(&expected_source_addr, &sortable->source_addr, sizeof(address_sorting_address)) || sortable->original_index || sortable->source_addr_exists) { abort(); } } void address_sorting_rfc_6724_sort(address_sorting_sortable* sortables, size_t sortables_len) { for (size_t i = 0; i < sortables_len; i++) { sanity_check_private_fields_are_unused(&sortables[i]); sortables[i].original_index = i; sortables[i].source_addr_exists = address_sorting_get_source_addr( &sortables[i].dest_addr, &sortables[i].source_addr); } qsort(sortables, sortables_len, sizeof(address_sorting_sortable), rfc_6724_compare); } void address_sorting_init() { if (g_current_source_addr_factory != NULL) { abort(); } g_current_source_addr_factory = address_sorting_create_source_addr_factory_for_current_platform(); } void address_sorting_shutdown() { if (g_current_source_addr_factory == NULL) { abort(); } g_current_source_addr_factory->vtable->destroy(g_current_source_addr_factory); g_current_source_addr_factory = NULL; }