// Copyright (c) 2013-2017 The btcsuite developers // Copyright (c) 2015-2016 The Decred developers // code derived from https://github .com/btcsuite/btcd/blob/master/wire/message.go // Copyright (C) 2015-2022 The Lightning Network Developers package lnwire import ( "bytes" "encoding/binary" "fmt" "io" ) // MessageType is the unique 2 byte big-endian integer that indicates the type // of message on the wire. All messages have a very simple header which // consists simply of 2-byte message type. We omit a length field, and checksum // as the Lightning Protocol is intended to be encapsulated within a // confidential+authenticated cryptographic messaging protocol. type MessageType uint16 // The currently defined message types within this current version of the // Lightning protocol. const ( MsgWarning MessageType = 1 MsgStfu = 2 MsgInit = 16 MsgError = 17 MsgPing = 18 MsgPong = 19 MsgOpenChannel = 32 MsgAcceptChannel = 33 MsgFundingCreated = 34 MsgFundingSigned = 35 MsgChannelReady = 36 MsgShutdown = 38 MsgClosingSigned = 39 MsgClosingComplete = 40 MsgClosingSig = 41 MsgDynPropose = 111 MsgDynAck = 113 MsgDynReject = 115 MsgUpdateAddHTLC = 128 MsgUpdateFulfillHTLC = 130 MsgUpdateFailHTLC = 131 MsgCommitSig = 132 MsgRevokeAndAck = 133 MsgUpdateFee = 134 MsgUpdateFailMalformedHTLC = 135 MsgChannelReestablish = 136 MsgChannelAnnouncement = 256 MsgNodeAnnouncement = 257 MsgChannelUpdate = 258 MsgAnnounceSignatures = 259 MsgQueryShortChanIDs = 261 MsgReplyShortChanIDsEnd = 262 MsgQueryChannelRange = 263 MsgReplyChannelRange = 264 MsgGossipTimestampRange = 265 MsgKickoffSig = 777 ) // ErrorEncodeMessage is used when failed to encode the message payload. func ErrorEncodeMessage(err error) error { return fmt.Errorf("failed to encode message to buffer, got %w", err) } // ErrorWriteMessageType is used when failed to write the message type. func ErrorWriteMessageType(err error) error { return fmt.Errorf("failed to write message type, got %w", err) } // ErrorPayloadTooLarge is used when the payload size exceeds the // MaxMsgBody. func ErrorPayloadTooLarge(size int) error { return fmt.Errorf( "message payload is too large - encoded %d bytes, "+ "but maximum message payload is %d bytes", size, MaxMsgBody, ) } // String return the string representation of message type. func (t MessageType) String() string { switch t { case MsgWarning: return "Warning" case MsgStfu: return "Stfu" case MsgInit: return "Init" case MsgOpenChannel: return "MsgOpenChannel" case MsgAcceptChannel: return "MsgAcceptChannel" case MsgFundingCreated: return "MsgFundingCreated" case MsgFundingSigned: return "MsgFundingSigned" case MsgChannelReady: return "ChannelReady" case MsgShutdown: return "Shutdown" case MsgClosingSigned: return "ClosingSigned" case MsgDynPropose: return "DynPropose" case MsgDynAck: return "DynAck" case MsgDynReject: return "DynReject" case MsgKickoffSig: return "KickoffSig" case MsgUpdateAddHTLC: return "UpdateAddHTLC" case MsgUpdateFailHTLC: return "UpdateFailHTLC" case MsgUpdateFulfillHTLC: return "UpdateFulfillHTLC" case MsgCommitSig: return "CommitSig" case MsgRevokeAndAck: return "RevokeAndAck" case MsgUpdateFailMalformedHTLC: return "UpdateFailMalformedHTLC" case MsgChannelReestablish: return "ChannelReestablish" case MsgError: return "Error" case MsgChannelAnnouncement: return "ChannelAnnouncement" case MsgChannelUpdate: return "ChannelUpdate" case MsgNodeAnnouncement: return "NodeAnnouncement" case MsgPing: return "Ping" case MsgAnnounceSignatures: return "AnnounceSignatures" case MsgPong: return "Pong" case MsgUpdateFee: return "UpdateFee" case MsgQueryShortChanIDs: return "QueryShortChanIDs" case MsgReplyShortChanIDsEnd: return "ReplyShortChanIDsEnd" case MsgQueryChannelRange: return "QueryChannelRange" case MsgReplyChannelRange: return "ReplyChannelRange" case MsgGossipTimestampRange: return "GossipTimestampRange" case MsgClosingComplete: return "ClosingComplete" case MsgClosingSig: return "ClosingSig" default: return "" } } // UnknownMessage is an implementation of the error interface that allows the // creation of an error in response to an unknown message. type UnknownMessage struct { messageType MessageType } // Error returns a human readable string describing the error. // // This is part of the error interface. func (u *UnknownMessage) Error() string { return fmt.Sprintf("unable to parse message of unknown type: %v", u.messageType) } // Serializable is an interface which defines a lightning wire serializable // object. type Serializable interface { // Decode reads the bytes stream and converts it to the object. Decode(io.Reader, uint32) error // Encode converts object to the bytes stream and write it into the // write buffer. Encode(*bytes.Buffer, uint32) error } // Message is an interface that defines a lightning wire protocol message. The // interface is general in order to allow implementing types full control over // the representation of its data. type Message interface { Serializable MsgType() MessageType } // LinkUpdater is an interface implemented by most messages in BOLT 2 that are // allowed to update the channel state. type LinkUpdater interface { // All LinkUpdater messages are messages and so we embed the interface // so that we can treat it as a message if all we know about it is that // it is a LinkUpdater message. Message // TargetChanID returns the channel id of the link for which this // message is intended. TargetChanID() ChannelID } // makeEmptyMessage creates a new empty message of the proper concrete type // based on the passed message type. func makeEmptyMessage(msgType MessageType) (Message, error) { var msg Message switch msgType { case MsgWarning: msg = &Warning{} case MsgStfu: msg = &Stfu{} case MsgInit: msg = &Init{} case MsgOpenChannel: msg = &OpenChannel{} case MsgAcceptChannel: msg = &AcceptChannel{} case MsgFundingCreated: msg = &FundingCreated{} case MsgFundingSigned: msg = &FundingSigned{} case MsgChannelReady: msg = &ChannelReady{} case MsgShutdown: msg = &Shutdown{} case MsgClosingSigned: msg = &ClosingSigned{} case MsgDynPropose: msg = &DynPropose{} case MsgDynAck: msg = &DynAck{} case MsgDynReject: msg = &DynReject{} case MsgKickoffSig: msg = &KickoffSig{} case MsgUpdateAddHTLC: msg = &UpdateAddHTLC{} case MsgUpdateFailHTLC: msg = &UpdateFailHTLC{} case MsgUpdateFulfillHTLC: msg = &UpdateFulfillHTLC{} case MsgCommitSig: msg = &CommitSig{} case MsgRevokeAndAck: msg = &RevokeAndAck{} case MsgUpdateFee: msg = &UpdateFee{} case MsgUpdateFailMalformedHTLC: msg = &UpdateFailMalformedHTLC{} case MsgChannelReestablish: msg = &ChannelReestablish{} case MsgError: msg = &Error{} case MsgChannelAnnouncement: msg = &ChannelAnnouncement{} case MsgChannelUpdate: msg = &ChannelUpdate{} case MsgNodeAnnouncement: msg = &NodeAnnouncement{} case MsgPing: msg = &Ping{} case MsgAnnounceSignatures: msg = &AnnounceSignatures1{} case MsgPong: msg = &Pong{} case MsgQueryShortChanIDs: msg = &QueryShortChanIDs{} case MsgReplyShortChanIDsEnd: msg = &ReplyShortChanIDsEnd{} case MsgQueryChannelRange: msg = &QueryChannelRange{} case MsgReplyChannelRange: msg = &ReplyChannelRange{} case MsgGossipTimestampRange: msg = &GossipTimestampRange{} case MsgClosingComplete: msg = &ClosingComplete{} case MsgClosingSig: msg = &ClosingSig{} default: // If the message is not within our custom range and has not // specifically been overridden, return an unknown message. // // Note that we do not allow custom message overrides to replace // known message types, only protocol messages that are not yet // known to lnd. if msgType < CustomTypeStart && !IsCustomOverride(msgType) { return nil, &UnknownMessage{msgType} } msg = &Custom{ Type: msgType, } } return msg, nil } // WriteMessage writes a lightning Message to a buffer including the necessary // header information and returns the number of bytes written. If any error is // encountered, the buffer passed will be reset to its original state since we // don't want any broken bytes left. In other words, no bytes will be written // if there's an error. Either all or none of the message bytes will be written // to the buffer. // // NOTE: this method is not concurrent safe. func WriteMessage(buf *bytes.Buffer, msg Message, pver uint32) (int, error) { // Record the size of the bytes already written in buffer. oldByteSize := buf.Len() // cleanBrokenBytes is a helper closure that helps reset the buffer to // its original state. It truncates all the bytes written in current // scope. var cleanBrokenBytes = func(b *bytes.Buffer) int { b.Truncate(oldByteSize) return 0 } // Write the message type. var mType [2]byte binary.BigEndian.PutUint16(mType[:], uint16(msg.MsgType())) msgTypeBytes, err := buf.Write(mType[:]) if err != nil { return cleanBrokenBytes(buf), ErrorWriteMessageType(err) } // Use the write buffer to encode our message. if err := msg.Encode(buf, pver); err != nil { return cleanBrokenBytes(buf), ErrorEncodeMessage(err) } // Enforce maximum overall message payload. The write buffer now has // the size of len(originalBytes) + len(payload) + len(type). We want // to enforce the payload here, so we subtract it by the length of the // type and old bytes. lenp := buf.Len() - oldByteSize - msgTypeBytes if lenp > MaxMsgBody { return cleanBrokenBytes(buf), ErrorPayloadTooLarge(lenp) } return buf.Len() - oldByteSize, nil } // ReadMessage reads, validates, and parses the next Lightning message from r // for the provided protocol version. func ReadMessage(r io.Reader, pver uint32) (Message, error) { // First, we'll read out the first two bytes of the message so we can // create the proper empty message. var mType [2]byte if _, err := io.ReadFull(r, mType[:]); err != nil { return nil, err } msgType := MessageType(binary.BigEndian.Uint16(mType[:])) // Now that we know the target message type, we can create the proper // empty message type and decode the message into it. msg, err := makeEmptyMessage(msgType) if err != nil { return nil, err } if err := msg.Decode(r, pver); err != nil { return nil, err } return msg, nil }