/* * OpenVPN -- An application to securely tunnel IP networks * over a single TCP/UDP port, with support for SSL/TLS-based * session authentication and key exchange, * packet encryption, packet authentication, and * packet compression. * * Copyright (C) 2002-2018 OpenVPN Inc * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef MROUTE_H #define MROUTE_H #if P2MP_SERVER #include "buffer.h" #include "list.h" #include "route.h" #include #define IP_MCAST_SUBNET_MASK ((in_addr_t)240<<24) #define IP_MCAST_NETWORK ((in_addr_t)224<<24) /* Return status values for mroute_extract_addr_from_packet */ #define MROUTE_EXTRACT_SUCCEEDED (1<<0) #define MROUTE_EXTRACT_BCAST (1<<1) #define MROUTE_EXTRACT_MCAST (1<<2) #define MROUTE_EXTRACT_IGMP (1<<3) #define MROUTE_SEC_EXTRACT_SUCCEEDED (1<<(0+MROUTE_SEC_SHIFT)) #define MROUTE_SEC_EXTRACT_BCAST (1<<(1+MROUTE_SEC_SHIFT)) #define MROUTE_SEC_EXTRACT_MCAST (1<<(2+MROUTE_SEC_SHIFT)) #define MROUTE_SEC_EXTRACT_IGMP (1<<(3+MROUTE_SEC_SHIFT)) #define MROUTE_SEC_SHIFT 4 /* * Choose the largest address possible with * any of our supported types, which is IPv6 * with port number. */ #define MR_MAX_ADDR_LEN 20 /* * Address Types */ #define MR_ADDR_NONE 0 #define MR_ADDR_ETHER 1 #define MR_ADDR_IPV4 2 #define MR_ADDR_IPV6 3 #define MR_ADDR_MASK 3 /* Address type mask indicating that port # is part of address */ #define MR_WITH_PORT 4 /* Address type mask indicating that netbits is part of address */ #define MR_WITH_NETBITS 8 /* Indicates than IPv4 addr was extracted from ARP packet */ #define MR_ARP 16 struct mroute_addr { uint8_t len; /* length of address */ uint8_t unused; uint8_t type; /* MR_ADDR/MR_WITH flags */ uint8_t netbits; /* number of bits in network part of address, * valid if MR_WITH_NETBITS is set */ union { uint8_t raw_addr[MR_MAX_ADDR_LEN]; /* actual address */ uint8_t eth_addr[OPENVPN_ETH_ALEN]; struct { in_addr_t addr; /* _network order_ IPv4 address */ in_port_t port; /* _network order_ TCP/UDP port */ } v4; struct { struct in6_addr addr; in_port_t port; /* _network order_ TCP/UDP port */ } v6; struct { uint8_t prefix[12]; in_addr_t addr; /* _network order_ IPv4 address */ } v4mappedv6; } #ifndef HAVE_ANONYMOUS_UNION_SUPPORT /* Wrappers to support compilers that do not grok anonymous unions */ mroute_union #define raw_addr mroute_union.raw_addr #define eth_addr mroute_union.eth_addr #define v4 mroute_union.v4 #define v6 mroute_union.v6 #define v4mappedv6 mroute_union.v4mappedv6 #endif ; }; /* Double-check that struct packing works as expected */ static_assert(offsetof(struct mroute_addr, v4.port) == offsetof(struct mroute_addr, v4) + 4, "Unexpected struct packing of v4"); static_assert(offsetof(struct mroute_addr, v6.port) == offsetof(struct mroute_addr, v6) + 16, "Unexpected struct packing of v6"); static_assert(offsetof(struct mroute_addr, v4mappedv6.addr) == offsetof(struct mroute_addr, v4mappedv6) + 12, "Unexpected struct packing of v4mappedv6"); /* * Number of bits in an address. Should be raised for IPv6. */ #define MR_HELPER_NET_LEN 129 /* * Used to help maintain CIDR routing table. */ struct mroute_helper { unsigned int cache_generation; /* incremented when route added */ int ageable_ttl_secs; /* host route cache entry time-to-live*/ int n_net_len; /* length of net_len array */ uint8_t net_len[MR_HELPER_NET_LEN]; /* CIDR netlengths in descending order */ int net_len_refcount[MR_HELPER_NET_LEN]; /* refcount of each netlength */ }; struct openvpn_sockaddr; bool mroute_extract_openvpn_sockaddr(struct mroute_addr *addr, const struct openvpn_sockaddr *osaddr, bool use_port); bool mroute_learnable_address(const struct mroute_addr *addr, struct gc_arena *gc); uint32_t mroute_addr_hash_function(const void *key, uint32_t iv); bool mroute_addr_compare_function(const void *key1, const void *key2); void mroute_addr_init(struct mroute_addr *addr); const char *mroute_addr_print(const struct mroute_addr *ma, struct gc_arena *gc); #define MAPF_SUBNET (1<<0) #define MAPF_IA_EMPTY_IF_UNDEF (1<<1) #define MAPF_SHOW_ARP (1<<2) const char *mroute_addr_print_ex(const struct mroute_addr *ma, const unsigned int flags, struct gc_arena *gc); void mroute_addr_mask_host_bits(struct mroute_addr *ma); struct mroute_helper *mroute_helper_init(int ageable_ttl_secs); void mroute_helper_free(struct mroute_helper *mh); void mroute_helper_add_iroute46(struct mroute_helper *mh, int netbits); void mroute_helper_del_iroute46(struct mroute_helper *mh, int netbits); /* * Given a raw packet in buf, return the src and dest * addresses of the packet. */ static inline unsigned int mroute_extract_addr_from_packet(struct mroute_addr *src, struct mroute_addr *dest, struct mroute_addr *esrc, struct mroute_addr *edest, const struct buffer *buf, int tunnel_type) { unsigned int mroute_extract_addr_ip(struct mroute_addr *src, struct mroute_addr *dest, const struct buffer *buf); unsigned int mroute_extract_addr_ether(struct mroute_addr *src, struct mroute_addr *dest, struct mroute_addr *esrc, struct mroute_addr *edest, const struct buffer *buf); unsigned int ret = 0; verify_align_4(buf); if (tunnel_type == DEV_TYPE_TUN) { ret = mroute_extract_addr_ip(src, dest, buf); } else if (tunnel_type == DEV_TYPE_TAP) { ret = mroute_extract_addr_ether(src, dest, esrc, edest, buf); } return ret; } static inline bool mroute_addr_equal(const struct mroute_addr *a1, const struct mroute_addr *a2) { if (a1->type != a2->type) { return false; } if (a1->netbits != a2->netbits) { return false; } if (a1->len != a2->len) { return false; } return memcmp(a1->raw_addr, a2->raw_addr, a1->len) == 0; } static inline const uint8_t * mroute_addr_hash_ptr(const struct mroute_addr *a) { /* NOTE: depends on ordering of struct mroute_addr */ return (uint8_t *) &a->type; } static inline uint32_t mroute_addr_hash_len(const struct mroute_addr *a) { return (uint32_t) a->len + 2; } static inline void mroute_extract_in_addr_t(struct mroute_addr *dest, const in_addr_t src) { dest->type = MR_ADDR_IPV4; dest->netbits = 0; dest->len = 4; dest->v4.addr = htonl(src); } static inline in_addr_t in_addr_t_from_mroute_addr(const struct mroute_addr *addr) { if ((addr->type & MR_ADDR_MASK) == MR_ADDR_IPV4 && addr->netbits == 0 && addr->len == 4) { return ntohl(addr->v4.addr); } else { return 0; } } static inline void mroute_addr_reset(struct mroute_addr *ma) { ma->len = 0; ma->type = MR_ADDR_NONE; } #endif /* P2MP_SERVER */ #endif /* MROUTE_H */