/* Copyright (c) 2012-2015, Matthias Schiffer 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. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT HOLDER 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. */ /** \file Structures and functions for peer management */ #pragma once #include "fastd.h" #include "pqueue.h" /** The state of a peer */ typedef enum fastd_peer_state { STATE_INACTIVE = 0, /**< The peer is not active at the moment */ STATE_PASSIVE, /**< The peer is waiting for incoming connections */ STATE_RESOLVING, /**< The peer is currently resolving its first remote */ STATE_HANDSHAKE, /**< The peer has tried to perform a handshake */ STATE_ESTABLISHED, /**< The peer has established a connection */ } fastd_peer_state_t; /** The config state of a peer */ typedef enum fastd_peer_config_state { CONFIG_NEW = 0, /**< The peer is configured statically, but has not been enabled yet */ CONFIG_STATIC, /**< The peer is configured statically */ CONFIG_DISABLED, /**< The peer is configured statically, but has been disabled because of a configuration error */ #ifdef WITH_DYNAMIC_PEERS CONFIG_DYNAMIC, /**< The peer is configured dynamically (using a on-verify handler) */ #endif } fastd_peer_config_state_t; /** A peer's configuration and state */ struct fastd_peer { /* The following fields are more or less static configuration: */ uint64_t id; /**< A unique ID assigned to each peer */ char *name; /**< The peer's name */ const fastd_peer_group_t *group; /**< The peer group the peer belongs to */ const char *config_source_dir; /**< The directory this peer's configuration was loaded from */ VECTOR(fastd_remote_t) remotes; /**< The vector of the peer's remotes */ bool floating; /**< Specifies if the peer has any floating remotes */ fastd_peer_config_state_t config_state; /**< Specifies the way this peer was configured and if it is enabled */ fastd_protocol_key_t *key; /**< The peer's public key */ fastd_protocol_peer_state_t *protocol_state; /**< Protocol-specific peer state */ char *ifname; /**< Peer-specific interface name */ uint16_t mtu; /**< Peer-specific interface MTU */ /* Starting here, more dynamic fields follow: */ fastd_iface_t *iface; /**< The interface this peer is associated with */ /** The socket used by the peer. This can either be a common bound socket or a dynamic, unbound socket that is used exclusively by this peer */ fastd_socket_t *sock; fastd_peer_address_t local_address; /**< The local address used to communicate with this peer */ fastd_peer_address_t address; /**< The peers current address */ fastd_peer_address_t last_handshake_address; /**< The address the last handshake was sent to */ fastd_peer_address_t last_handshake_response_address; /**< The address the last handshake was received from */ ssize_t next_remote; /**< An index into the field remotes or -1 */ fastd_peer_state_t state; /**< The peer's state */ fastd_pqueue_t handshake_entry; /**< Entry in the handshake queue */ fastd_timeout_t last_handshake_timeout; /**< No handshakes are sent to the peer until this timeout has occured to avoid flooding the peer */ fastd_timeout_t last_handshake_response_timeout; /**< All handshakes from last_handshake_address will be ignored until this timeout has occured */ fastd_timeout_t establish_handshake_timeout; /**< A timeout during which all handshakes for this peer will be ignored after a new connection has been established */ int64_t established; /**< The time this peer connection has been established */ fastd_timeout_t timeout; /**< The timeout after which the peer is reset */ fastd_timeout_t keepalive_timeout; /**< The timeout after which a keepalive is sent to the peer */ fastd_stats_t stats; /**< Traffic statistics */ #ifdef WITH_DYNAMIC_PEERS fastd_timeout_t verify_timeout; /**< Specifies the minimum time after which on-verify may be run again */ fastd_timeout_t verify_valid_timeout; /**< Specifies how long a peer stays valid after a successful on-verify run */ #endif }; /** An entry for a MAC address seen at another peer */ struct fastd_peer_eth_addr { fastd_eth_addr_t addr; /**< The MAC address */ fastd_peer_t *peer; /**< The corresponding peer */ fastd_timeout_t timeout; /**< Timeout after which the address entry will be purged */ }; /** A remote entry */ struct fastd_remote { char *hostname; /**< The hostname or NULL */ fastd_peer_address_t address; /**< The address; if hostname is set only sin.sin_port is used */ size_t n_addresses; /**< The size of the \e addresses array */ size_t current_address; /**< The index of the remote the next handshake will be sent to */ fastd_peer_address_t *addresses; /**< The IP addresses the remote was resolved to */ fastd_timeout_t last_resolve_timeout; /**< Timeout before the remote must not be resolved again */ }; bool fastd_peer_address_equal(const fastd_peer_address_t *addr1, const fastd_peer_address_t *addr2); void fastd_peer_address_simplify(fastd_peer_address_t *addr); void fastd_peer_address_widen(fastd_peer_address_t *addr); /** Returns the port of a fastd_peer_address_t (in network byte order) */ static inline uint16_t fastd_peer_address_get_port(const fastd_peer_address_t *addr) { switch (addr->sa.sa_family) { case AF_INET: return addr->in.sin_port; case AF_INET6: return addr->in6.sin6_port; default: return 0; } } bool fastd_peer_add(fastd_peer_t *peer); void fastd_peer_reset(fastd_peer_t *peer); void fastd_peer_delete(fastd_peer_t *peer); void fastd_peer_free(fastd_peer_t *peer); bool fastd_peer_set_established(fastd_peer_t *peer); bool fastd_peer_may_connect(fastd_peer_t *peer); void fastd_peer_handle_resolve(fastd_peer_t *peer, fastd_remote_t *remote, size_t n_addresses, const fastd_peer_address_t *addresses); bool fastd_peer_owns_address(const fastd_peer_t *peer, const fastd_peer_address_t *addr); bool fastd_peer_matches_address(const fastd_peer_t *peer, const fastd_peer_address_t *addr); bool fastd_peer_claim_address(fastd_peer_t *peer, fastd_socket_t *sock, const fastd_peer_address_t *local_addr, const fastd_peer_address_t *remote_addr, bool force); void fastd_peer_reset_socket(fastd_peer_t *peer); void fastd_peer_schedule_handshake(fastd_peer_t *peer, int delay); fastd_peer_t * fastd_peer_find_by_id(uint64_t id); void fastd_peer_set_shell_env(fastd_shell_env_t *env, const fastd_peer_t *peer, const fastd_peer_address_t *local_addr, const fastd_peer_address_t *peer_addr); void fastd_peer_exec_shell_command(const fastd_shell_command_t *command, const fastd_peer_t *peer, const fastd_peer_address_t *local_addr, const fastd_peer_address_t *peer_addr, bool sync); /** Schedules a handshake with the default delay and jitter The default relay is between 17.5 and 22.5 seconds */ static inline void fastd_peer_schedule_handshake_default(fastd_peer_t *peer) { fastd_peer_schedule_handshake(peer, fastd_rand(17500, 22500)); } /** Cancels a scheduled handshake */ static inline void fastd_peer_unschedule_handshake(fastd_peer_t *peer) { fastd_pqueue_remove(&peer->handshake_entry); } #ifdef WITH_DYNAMIC_PEERS /** Call to signal that there is currently an asychronous on-verify command running for the peer */ static inline void fastd_peer_set_verifying(fastd_peer_t *peer) { peer->verify_timeout = ctx.now + MIN_VERIFY_INTERVAL; } /** Marks the peer verification as successful or failed */ static inline void fastd_peer_set_verified(fastd_peer_t *peer, bool ok) { peer->verify_valid_timeout = ctx.now + (ok ? VERIFY_VALID_TIME : 0); } #endif /** Checks if there's a handshake queued for the peer */ static inline bool fastd_peer_handshake_scheduled(fastd_peer_t *peer) { return fastd_pqueue_linked(&peer->handshake_entry); } /** Checks if a peer is floating (is has at least one floating remote or no remotes at all) */ static inline bool fastd_peer_is_floating(const fastd_peer_t *peer) { return (!VECTOR_LEN(peer->remotes) || peer->floating); } /** Checks if a peer is not statically configured, but added after a on-verify run */ static inline bool fastd_peer_is_dynamic(UNUSED const fastd_peer_t *peer) { #ifdef WITH_DYNAMIC_PEERS return peer->config_state == CONFIG_DYNAMIC; #else return false; #endif } /** Checks if a peer is enabled */ static inline bool fastd_peer_is_enabled(const fastd_peer_t *peer) { switch (peer->config_state) { case CONFIG_STATIC: #ifdef WITH_DYNAMIC_PEERS case CONFIG_DYNAMIC: #endif return true; default: return false; } } /** Returns the currently active remote entry */ static inline fastd_remote_t * fastd_peer_get_next_remote(fastd_peer_t *peer) { if (peer->next_remote < 0) return NULL; return &VECTOR_INDEX(peer->remotes, peer->next_remote); } /** Checks if the peer currently has an established connection */ static inline bool fastd_peer_is_established(const fastd_peer_t *peer) { switch(peer->state) { case STATE_ESTABLISHED: return true; default: return false; } } /** Signals that a valid packet was received from the peer */ static inline void fastd_peer_seen(fastd_peer_t *peer) { peer->timeout = ctx.now + PEER_STALE_TIME; } /** Checks if a peer uses dynamic sockets (which means that each connection attempt uses a new socket) */ static inline bool fastd_peer_is_socket_dynamic(const fastd_peer_t *peer) { return (!peer->sock || !peer->sock->addr); } /** Returns the MTU to use for a peer */ static inline uint16_t fastd_peer_get_mtu(const fastd_peer_t *peer) { if (conf.mode == MODE_TAP) return conf.mtu; if (peer && peer->mtu) return peer->mtu; return conf.mtu; } /** Checks if a MAC address is a normal unicast address */ static inline bool fastd_eth_addr_is_unicast(fastd_eth_addr_t addr) { return ((addr.data[0] & 1) == 0); } void fastd_peer_eth_addr_add(fastd_peer_t *peer, fastd_eth_addr_t addr); bool fastd_peer_find_by_eth_addr(const fastd_eth_addr_t addr, fastd_peer_t **peer); void fastd_peer_handle_handshake_queue(void); void fastd_peer_maintenance(void); void fastd_peer_reset_all(void); /** Adds statistics for a single packet of a given size */ static inline void fastd_stats_add(UNUSED fastd_peer_t *peer, UNUSED fastd_stat_type_t stat, UNUSED size_t bytes) { #ifdef WITH_STATUS_SOCKET if (!bytes) return; ctx.stats.packets[stat]++; ctx.stats.bytes[stat] += bytes; peer->stats.packets[stat]++; peer->stats.bytes[stat] += bytes; #endif }