#include #include #include #include #include #include #include #include #include #include #include #include /* Temporary structure for us to read peer message in */ struct peer { struct daemon *daemon; /* The ID of the peer */ struct node_id id; /* Where it's connected to/from. */ struct wireaddr_internal addr; /* Crypto state for writing/reading peer initmsg */ struct crypto_state cs; /* Buffer for reading/writing message. */ u8 *msg; }; static bool contains_common_chain(struct bitcoin_blkid *chains) { for (size_t i = 0; i < tal_count(chains); i++) { if (bitcoin_blkid_eq(&chains[i], &chainparams->genesis_blockhash)) return true; } return false; } /* Here in case we need to read another message. */ static struct io_plan *read_init(struct io_conn *conn, struct peer *peer); static struct io_plan *peer_init_received(struct io_conn *conn, struct peer *peer) { u8 *msg = cryptomsg_decrypt_body(tmpctx, &peer->cs, peer->msg); u8 *globalfeatures, *features; struct tlv_init_tlvs *tlvs = tlv_init_tlvs_new(msg); if (!msg) return io_close(conn); status_peer_io(LOG_IO_IN, &peer->id, msg); /* BOLT #1: * * A receiving node: * - upon receiving a message of _odd_, unknown type: * - MUST ignore the received message. */ if (unlikely(is_unknown_msg_discardable(msg))) return read_init(conn, peer); if (!fromwire_init(tmpctx, msg, &globalfeatures, &features, tlvs)) { status_peer_debug(&peer->id, "bad fromwire_init '%s', closing", tal_hex(tmpctx, msg)); return io_close(conn); } /* BOLT-ef7c97c02b6fa67a1df1af30b3843eb576100ebd #1: * The receiving node: * ... * - upon receiving `networks` containing no common chains * - MAY fail the connection. */ if (tlvs->networks) { if (!contains_common_chain(tlvs->networks)) { status_peer_debug(&peer->id, "No common chain with this peer '%s', closing", tal_hex(tmpctx, msg)); msg = towire_errorfmt(NULL, NULL, "No common network"); msg = cryptomsg_encrypt_msg(NULL, &peer->cs, take(msg)); return io_write(conn, msg, tal_count(msg), io_close_cb, NULL); } } /* The globalfeatures field is now unused, but there was a * window where it was: combine the two. */ features = featurebits_or(tmpctx, take(features), globalfeatures); /* Usually return io_close_taken_fd, but may wait for old peer to * be disconnected if it's a reconnect. */ return peer_connected(conn, peer->daemon, &peer->id, &peer->addr, &peer->cs, take(features)); } static struct io_plan *peer_init_hdr_received(struct io_conn *conn, struct peer *peer) { u16 len; if (!cryptomsg_decrypt_header(&peer->cs, peer->msg, &len)) return io_close(conn); tal_free(peer->msg); peer->msg = tal_arr(peer, u8, (u32)len + CRYPTOMSG_BODY_OVERHEAD); return io_read(conn, peer->msg, tal_count(peer->msg), peer_init_received, peer); } static struct io_plan *read_init(struct io_conn *conn, struct peer *peer) { /* Free our sent init msg. */ tal_free(peer->msg); /* BOLT #1: * * The receiving node: * - MUST wait to receive `init` before sending any other messages. */ peer->msg = tal_arr(peer, u8, CRYPTOMSG_HDR_SIZE); return io_read(conn, peer->msg, tal_bytelen(peer->msg), peer_init_hdr_received, peer); } #if DEVELOPER static struct io_plan *peer_write_postclose(struct io_conn *conn, struct peer *peer) { dev_sabotage_fd(io_conn_fd(conn)); return read_init(conn, peer); } #endif struct io_plan *peer_exchange_initmsg(struct io_conn *conn, struct daemon *daemon, const struct feature_set *our_features, const struct crypto_state *cs, const struct node_id *id, const struct wireaddr_internal *addr) { /* If conn is closed, forget peer */ struct peer *peer = tal(conn, struct peer); struct io_plan *(*next)(struct io_conn *, struct peer *); struct tlv_init_tlvs *tlvs; peer->daemon = daemon; peer->id = *id; peer->addr = *addr; peer->cs = *cs; /* BOLT-ef7c97c02b6fa67a1df1af30b3843eb576100ebd #1: * * The sending node: * - MUST send `init` as the first Lightning message for any * connection. * ... * - SHOULD set `networks` to all chains it will gossip or open * channels for. */ tlvs = tlv_init_tlvs_new(tmpctx); tlvs->networks = tal_dup_arr(tlvs, struct bitcoin_blkid, &chainparams->genesis_blockhash, 1, 0); /* Initially, there were two sets of feature bits: global and local. * Local affected peer nodes only, global affected everyone. Both were * sent in the `init` message, but node_announcement only advertized * globals. * * But we didn't have any globals for a long time, and it turned out * that people wanted us to broadcast local features so they could do * peer selection. We agreed that the number spaces should be distinct, * but debate still raged on how to handle them. * * Meanwhile, we finally added a global bit to the spec, so now it * matters. And LND v0.8 decided to make option_static_remotekey a * GLOBAL bit, not a local bit, so we need to send that as a global * bit here. * * Finally, we agreed that bits below 13 could be put in both, but * from now on they'll all go in initfeatures. */ peer->msg = towire_init(NULL, our_features->bits[GLOBAL_INIT_FEATURE], our_features->bits[INIT_FEATURE], tlvs); status_peer_io(LOG_IO_OUT, &peer->id, peer->msg); peer->msg = cryptomsg_encrypt_msg(peer, &peer->cs, take(peer->msg)); next = read_init; #if DEVELOPER switch (dev_disconnect(WIRE_INIT)) { case DEV_DISCONNECT_BEFORE: dev_sabotage_fd(io_conn_fd(conn)); break; case DEV_DISCONNECT_DROPPKT: peer->msg = tal_free(peer->msg); /* FALL THRU */ case DEV_DISCONNECT_AFTER: next = peer_write_postclose; break; case DEV_DISCONNECT_BLACKHOLE: dev_blackhole_fd(io_conn_fd(conn)); break; case DEV_DISCONNECT_NORMAL: break; } #endif /* DEVELOPER */ return io_write(conn, peer->msg, tal_bytelen(peer->msg), next, peer); }