/** * @file * * IPv6 address scopes, zones, and scoping policy. * * This header provides the means to implement support for IPv6 address scopes, * as per RFC 4007. An address scope can be either global or more constrained. * In lwIP, we say that an address "has a scope" or "is scoped" when its scope * is constrained, in which case the address is meaningful only in a specific * "zone." For unicast addresses, only link-local addresses have a scope; in * that case, the scope is the link. For multicast addresses, there are various * scopes defined by RFC 4007 and others. For any constrained scope, a system * must establish a (potentially one-to-many) mapping between zones and local * interfaces. For example, a link-local address is valid on only one link (its * zone). That link may be attached to one or more local interfaces. The * decisions on which scopes are constrained and the mapping between zones and * interfaces is together what we refer to as the "scoping policy" - more on * this in a bit. * * In lwIP, each IPv6 address has an associated zone index. This zone index may * be set to "no zone" (IP6_NO_ZONE, 0) or an actual zone. We say that an * address "has a zone" or "is zoned" when its zone index is *not* set to "no * zone." In lwIP, in principle, each address should be "properly zoned," which * means that if the address has a zone if and only if has a scope. As such, it * is a rule that an unscoped (e.g., global) address must never have a zone. * Even though one could argue that there is always one zone even for global * scopes, this rule exists for implementation simplicity. Violation of the * rule will trigger assertions or otherwise result in undesired behavior. * * Backward compatibility prevents us from requiring that applications always * provide properly zoned addresses. We do enforce the rule that the in the * lwIP link layer (everything below netif->output_ip6() and in particular ND6) * *all* addresses are properly zoned. Thus, on the output paths down the * stack, various places deal with the case of addresses that lack a zone. * Some of them are best-effort for efficiency (e.g. the PCB bind and connect * API calls' attempts to add missing zones); ultimately the IPv6 output * handler (@ref ip6_output_if_src) will set a zone if necessary. * * Aside from dealing with scoped addresses lacking a zone, a proper IPv6 * implementation must also ensure that a packet with a scoped source and/or * destination address does not leave its zone. This is currently implemented * in the input and forward functions. However, for output, these checks are * deliberately omitted in order to keep the implementation lightweight. The * routing algorithm in @ref ip6_route will take decisions such that it will * not cause zone violations unless the application sets bad addresses, though. * * In terms of scoping policy, lwIP implements the default policy from RFC 4007 * using macros in this file. This policy considers link-local unicast * addresses and (only) interface-local and link-local multicast addresses as * having a scope. For all these addresses, the zone is equal to the interface. * As shown below in this file, it is possible to implement a custom policy. */ /* * Copyright (c) 2017 The MINIX 3 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. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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 file is part of the lwIP TCP/IP stack. * * Author: David van Moolenbroek * */ #ifndef LWIP_HDR_IP6_ZONE_H #define LWIP_HDR_IP6_ZONE_H #ifdef __cplusplus extern "C" { #endif /** * @defgroup ip6_zones IPv6 Zones * @ingroup ip6 * @{ */ #if LWIP_IPV6 /* don't build if not configured for use in lwipopts.h */ /** Identifier for "no zone". */ #define IP6_NO_ZONE 0 #if LWIP_IPV6_SCOPES /** Zone initializer for static IPv6 address initialization, including comma. */ #define IPADDR6_ZONE_INIT , IP6_NO_ZONE /** Return the zone index of the given IPv6 address; possibly "no zone". */ #define ip6_addr_zone(ip6addr) ((ip6addr)->zone) /** Does the given IPv6 address have a zone set? (0/1) */ #define ip6_addr_has_zone(ip6addr) (ip6_addr_zone(ip6addr) != IP6_NO_ZONE) /** Set the zone field of an IPv6 address to a particular value. */ #define ip6_addr_set_zone(ip6addr, zone_idx) ((ip6addr)->zone = (zone_idx)) /** Clear the zone field of an IPv6 address, setting it to "no zone". */ #define ip6_addr_clear_zone(ip6addr) ((ip6addr)->zone = IP6_NO_ZONE) /** Copy the zone field from the second IPv6 address to the first one. */ #define ip6_addr_copy_zone(ip6addr1, ip6addr2) ((ip6addr1).zone = (ip6addr2).zone) /** Is the zone field of the given IPv6 address equal to the given zone index? (0/1) */ #define ip6_addr_equals_zone(ip6addr, zone_idx) ((ip6addr)->zone == (zone_idx)) /** @deprecated Renamed to @ref ip6_addr_zone_eq */ #define ip6_addr_cmp_zone(addr1, addr2) ip6_addr_zone_eq(ip6addr1, ip6addr2) /** Are the zone fields of the given IPv6 addresses equal? (0/1) * This macro must only be used on IPv6 addresses of the same scope. */ #define ip6_addr_zone_eq(ip6addr1, ip6addr2) ((ip6addr1)->zone == (ip6addr2)->zone) /** Symbolic constants for the 'type' parameters in some of the macros. * These exist for efficiency only, allowing the macros to avoid certain tests * when the address is known not to be of a certain type. Dead code elimination * will do the rest. IP6_MULTICAST is supported but currently not optimized. * @see ip6_addr_has_scope, ip6_addr_assign_zone, ip6_addr_lacks_zone. */ enum lwip_ipv6_scope_type { /** Unknown */ IP6_UNKNOWN = 0, /** Unicast */ IP6_UNICAST = 1, /** Multicast */ IP6_MULTICAST = 2 }; /** IPV6_CUSTOM_SCOPES: together, the following three macro definitions, * @ref ip6_addr_has_scope, @ref ip6_addr_assign_zone, and * @ref ip6_addr_test_zone, completely define the lwIP scoping policy. * The definitions below implement the default policy from RFC 4007 Sec. 6. * Should an implementation desire to implement a different policy, it can * define IPV6_CUSTOM_SCOPES to 1 and supply its own definitions for the three * macros instead. */ #ifndef IPV6_CUSTOM_SCOPES #define IPV6_CUSTOM_SCOPES 0 #endif /* !IPV6_CUSTOM_SCOPES */ #if !IPV6_CUSTOM_SCOPES /** * Determine whether an IPv6 address has a constrained scope, and as such is * meaningful only if accompanied by a zone index to identify the scope's zone. * The given address type may be used to eliminate at compile time certain * checks that will evaluate to false at run time anyway. * * This default implementation follows the default model of RFC 4007, where * only interface-local and link-local scopes are defined. * * Even though the unicast loopback address does have an implied link-local * scope, in this implementation it does not have an explicitly assigned zone * index. As such it should not be tested for in this macro. * * @param ip6addr the IPv6 address (const); only its address part is examined. * @param type address type; see @ref lwip_ipv6_scope_type. * @return 1 if the address has a constrained scope, 0 if it does not. */ #define ip6_addr_has_scope(ip6addr, type) \ (ip6_addr_islinklocal(ip6addr) || (((type) != IP6_UNICAST) && \ (ip6_addr_ismulticast_iflocal(ip6addr) || \ ip6_addr_ismulticast_linklocal(ip6addr)))) /** * Assign a zone index to an IPv6 address, based on a network interface. If the * given address has a scope, the assigned zone index is that scope's zone of * the given netif; otherwise, the assigned zone index is "no zone". * * This default implementation follows the default model of RFC 4007, where * only interface-local and link-local scopes are defined, and the zone index * of both of those scopes always equals the index of the network interface. * As such, this default implementation need not distinguish between different * constrained scopes when assigning the zone. * * @param ip6addr the IPv6 address; its address part is examined, and its zone * index is assigned. * @param type address type; see @ref lwip_ipv6_scope_type. * @param netif the network interface (const). */ #define ip6_addr_assign_zone(ip6addr, type, netif) \ (ip6_addr_set_zone((ip6addr), \ ip6_addr_has_scope((ip6addr), (type)) ? netif_get_index(netif) : 0)) /** * Test whether an IPv6 address is "zone-compatible" with a network interface. * That is, test whether the network interface is part of the zone associated * with the address. For efficiency, this macro is only ever called if the * given address is either scoped or zoned, and thus, it need not test this. * If an address is scoped but not zoned, or zoned and not scoped, it is * considered not zone-compatible with any netif. * * This default implementation follows the default model of RFC 4007, where * only interface-local and link-local scopes are defined, and the zone index * of both of those scopes always equals the index of the network interface. * As such, there is always only one matching netif for a specific zone index, * but all call sites of this macro currently support multiple matching netifs * as well (at no additional expense in the common case). * * @param ip6addr the IPv6 address (const). * @param netif the network interface (const). * @return 1 if the address is scope-compatible with the netif, 0 if not. */ #define ip6_addr_test_zone(ip6addr, netif) \ (ip6_addr_equals_zone((ip6addr), netif_get_index(netif))) #endif /* !IPV6_CUSTOM_SCOPES */ /** Does the given IPv6 address have a scope, and as such should also have a * zone to be meaningful, but does not actually have a zone? (0/1) */ #define ip6_addr_lacks_zone(ip6addr, type) \ (!ip6_addr_has_zone(ip6addr) && ip6_addr_has_scope((ip6addr), (type))) /** * Try to select a zone for a scoped address that does not yet have a zone. * Called from PCB bind and connect routines, for two reasons: 1) to save on * this (relatively expensive) selection for every individual packet route * operation and 2) to allow the application to obtain the selected zone from * the PCB as is customary for e.g. getsockname/getpeername BSD socket calls. * * Ideally, callers would always supply a properly zoned address, in which case * this function would not be needed. It exists both for compatibility with the * BSD socket API (which accepts zoneless destination addresses) and for * backward compatibility with pre-scoping lwIP code. * * It may be impossible to select a zone, e.g. if there are no netifs. In that * case, the address's zone field will be left as is. * * @param dest the IPv6 address for which to select and set a zone. * @param src source IPv6 address (const); may be equal to dest. */ #define ip6_addr_select_zone(dest, src) do { struct netif *selected_netif; \ selected_netif = ip6_route((src), (dest)); \ if (selected_netif != NULL) { \ ip6_addr_assign_zone((dest), IP6_UNKNOWN, selected_netif); \ } } while (0) /** * @} */ #else /* LWIP_IPV6_SCOPES */ #define IPADDR6_ZONE_INIT #define ip6_addr_zone(ip6addr) (IP6_NO_ZONE) #define ip6_addr_has_zone(ip6addr) (0) #define ip6_addr_set_zone(ip6addr, zone_idx) #define ip6_addr_clear_zone(ip6addr) #define ip6_addr_copy_zone(ip6addr1, ip6addr2) #define ip6_addr_equals_zone(ip6addr, zone_idx) (1) #define ip6_addr_zone_eq(ip6addr1, ip6addr2) (1) #define IPV6_CUSTOM_SCOPES 0 #define ip6_addr_has_scope(ip6addr, type) (0) #define ip6_addr_assign_zone(ip6addr, type, netif) #define ip6_addr_test_zone(ip6addr, netif) (1) #define ip6_addr_lacks_zone(ip6addr, type) (0) #define ip6_addr_select_zone(ip6addr, src) #endif /* LWIP_IPV6_SCOPES */ #if LWIP_IPV6_SCOPES && LWIP_IPV6_SCOPES_DEBUG /** Verify that the given IPv6 address is properly zoned. */ #define IP6_ADDR_ZONECHECK(ip6addr) LWIP_ASSERT("IPv6 zone check failed", \ ip6_addr_has_scope(ip6addr, IP6_UNKNOWN) == ip6_addr_has_zone(ip6addr)) /** Verify that the given IPv6 address is properly zoned for the given netif. */ #define IP6_ADDR_ZONECHECK_NETIF(ip6addr, netif) LWIP_ASSERT("IPv6 netif zone check failed", \ ip6_addr_has_scope(ip6addr, IP6_UNKNOWN) ? \ (ip6_addr_has_zone(ip6addr) && \ (((netif) == NULL) || ip6_addr_test_zone((ip6addr), (netif)))) : \ !ip6_addr_has_zone(ip6addr)) #else /* LWIP_IPV6_SCOPES && LWIP_IPV6_SCOPES_DEBUG */ #define IP6_ADDR_ZONECHECK(ip6addr) #define IP6_ADDR_ZONECHECK_NETIF(ip6addr, netif) #endif /* LWIP_IPV6_SCOPES && LWIP_IPV6_SCOPES_DEBUG */ #endif /* LWIP_IPV6 */ #ifdef __cplusplus } #endif #endif /* LWIP_HDR_IP6_ZONE_H */