/// <reference types="node" />
import { BitField } from "@node-lightning/core";
import { ShortChannelId } from "@node-lightning/core";
import { ChannelFeatureFlags } from "../flags/ChannelFeatureFlags";
import { MessageType } from "../MessageType";
import { IWireMessage } from "./IWireMessage";
/**
 * Message contains ownership information regarding a channel.
 * It ties each on-chain Bitcoin key to the associated Lightning
 * node key, and vice-versa. Proviing the existance of a channel
 * between node_1 and node_2 requires:
 *   1. proving that the funding pays to bitcoin_key_1 and bitcoin_key_2
 *   2. proving that node_1 owns bitcoin_key_1
 *   3. proving that node_2 owns bitcoin_key_2
 *
 * This also varifies that both nodes want to announce the channel.
 * The required data to perform all of these proofs is available
 * in this message.
 */
export declare class ChannelAnnouncementMessage implements IWireMessage {
    /**
     * Deserializes the Buffer into a ChannelAnnouncementMessage.
     */
    static deserialize(payload: Buffer): ChannelAnnouncementMessage;
    /**
     * Message hashing is after the first 258 bytes of the message
     * and excludes the type and signatures. It performs a double
     * sha-256 hash of the remaining bytes.
     */
    static hash(msg: ChannelAnnouncementMessage): Buffer;
    /**
     * Performs validation the message was signed by each node and the
     * the corresponding bitcoin key is owned by the owner of the node.
     *
     * This is accomplished by:
     * 1. verifying the bitcoinSignatures1/2 are validate signatures
     *    from bitcoinKey1/2
     * 2. verifying the nodeSignature1/2 are validate signatures
     *     from nodeId1/2
     */
    static verifySignatures(msg: ChannelAnnouncementMessage): boolean;
    /**
     * The message type - 256
     */
    type: MessageType;
    /**
     * Validate signature from node_1 of the hash containing the
     * data: features, chainHash, shortChannelId, nodeId1,
     * nodeId1, bitcoinKey1, and bitcoinKey2.
     */
    nodeSignature1: Buffer;
    /**
     * Validate signature from node_2 of the hash containing the
     * data: features, chainHash, shortChannelId, nodeId1,
     * nodeId1, bitcoinKey1, and bitcoinKey2.
     */
    nodeSignature2: Buffer;
    /**
     * Validate signature from bitcoin_key_1 of the hash containing the
     * data: features, chainHash, shortChannelId, nodeId1,
     * nodeId1, bitcoinKey1, and bitcoinKey2.
     */
    bitcoinSignature1: Buffer;
    /**
     * Validate signature from bitcoin_key_2 of the hash containing the
     * data: features, chainHash, shortChannelId, nodeId1,
     * nodeId1, bitcoinKey1, and bitcoinKey2.
     */
    bitcoinSignature2: Buffer;
    /**
     * The channel features are a bitmask
     */
    features: BitField<ChannelFeatureFlags>;
    /**
     * Must set chain_hash to a 32-byte hash that uniquely identifies
     * the chain that the channel opened within.
     */
    chainHash: Buffer;
    /**
     * ShortChannelId is a unique reference to the funding output of the
     * channel.
     */
    shortChannelId: ShortChannelId;
    /**
     * The 33-byte compressed public key identifying the
     * numerically greater of the two DER-encoded keys
     * sorted in ascending numerical order.
     */
    nodeId1: Buffer;
    /**
     * The 33-byte compressed public key identifying the
     * numerically greater of the two DER-encoded keys
     * sorted in ascending numerical order.
     */
    nodeId2: Buffer;
    /**
     * The 33-byte compressed Bitcoin public key used by
     * node_id_1 to create the funding transaction.
     */
    bitcoinKey1: Buffer;
    /**
     * The 33-byte compressed Bitcoin public key used by
     * node_id_2 to create the funding transaction.
     */
    bitcoinKey2: Buffer;
    /**
     * Serializes the intancee into a Buffer suitable
     * for wire transport
     */
    serialize(): Buffer;
}