package lnwire import ( "bytes" "io" "math" "github.com/btcsuite/btcd/chaincfg/chainhash" ) // ReplyChannelRange is the response to the QueryChannelRange message. It // includes the original query, and the next streaming chunk of encoded short // channel ID's as the response. We'll also include a byte that indicates if // this is the last query in the message. type ReplyChannelRange struct { // ChainHash denotes the target chain that we're trying to synchronize // channel graph state for. ChainHash chainhash.Hash // FirstBlockHeight is the first block in the query range. The // responder should send all new short channel IDs from this block // until this block plus the specified number of blocks. FirstBlockHeight uint32 // NumBlocks is the number of blocks beyond the first block that short // channel ID's should be sent for. NumBlocks uint32 // Complete denotes if this is the conclusion of the set of streaming // responses to the original query. Complete uint8 // EncodingType is a signal to the receiver of the message that // indicates exactly how the set of short channel ID's that follow have // been encoded. EncodingType ShortChanIDEncoding // ShortChanIDs is a slice of decoded short channel ID's. ShortChanIDs []ShortChannelID // ExtraData is the set of data that was appended to this message to // fill out the full maximum transport message size. These fields can // be used to specify optional data such as custom TLV fields. ExtraData ExtraOpaqueData // noSort indicates whether or not to sort the short channel ids before // writing them out. // // NOTE: This should only be used for testing. noSort bool } // NewReplyChannelRange creates a new empty ReplyChannelRange message. func NewReplyChannelRange() *ReplyChannelRange { return &ReplyChannelRange{} } // A compile time check to ensure ReplyChannelRange implements the // lnwire.Message interface. var _ Message = (*ReplyChannelRange)(nil) // Decode deserializes a serialized ReplyChannelRange message stored in the // passed io.Reader observing the specified protocol version. // // This is part of the lnwire.Message interface. func (c *ReplyChannelRange) Decode(r io.Reader, pver uint32) error { err := ReadElements(r, c.ChainHash[:], &c.FirstBlockHeight, &c.NumBlocks, &c.Complete, ) if err != nil { return err } c.EncodingType, c.ShortChanIDs, err = decodeShortChanIDs(r) if err != nil { return err } return c.ExtraData.Decode(r) } // Encode serializes the target ReplyChannelRange into the passed io.Writer // observing the protocol version specified. // // This is part of the lnwire.Message interface. func (c *ReplyChannelRange) Encode(w *bytes.Buffer, pver uint32) error { if err := WriteBytes(w, c.ChainHash[:]); err != nil { return err } if err := WriteUint32(w, c.FirstBlockHeight); err != nil { return err } if err := WriteUint32(w, c.NumBlocks); err != nil { return err } if err := WriteUint8(w, c.Complete); err != nil { return err } err := encodeShortChanIDs(w, c.EncodingType, c.ShortChanIDs, c.noSort) if err != nil { return err } return WriteBytes(w, c.ExtraData) } // MsgType returns the integer uniquely identifying this message type on the // wire. // // This is part of the lnwire.Message interface. func (c *ReplyChannelRange) MsgType() MessageType { return MsgReplyChannelRange } // LastBlockHeight returns the last block height covered by the range of a // QueryChannelRange message. func (c *ReplyChannelRange) LastBlockHeight() uint32 { // Handle overflows by casting to uint64. lastBlockHeight := uint64(c.FirstBlockHeight) + uint64(c.NumBlocks) - 1 if lastBlockHeight > math.MaxUint32 { return math.MaxUint32 } return uint32(lastBlockHeight) }