package lnwire import ( "io" "github.com/roasbeef/btcd/btcec" "github.com/roasbeef/btcd/chaincfg/chainhash" "github.com/roasbeef/btcutil" ) // OpenChannel is the message Alice sends to Bob if we should like to create a // channel with Bob where she's the sole provider of funds to the channel. // Single funder channels simplify the initial funding workflow, are supported // by nodes backed by SPV Bitcoin clients, and have a simpler security models // than dual funded channels. type OpenChannel struct { // ChainHash is the target chain that the initiator wishes to open a // channel within. ChainHash chainhash.Hash // PendingChannelID serves to uniquely identify the future channel // created by the initiated single funder workflow. PendingChannelID [32]byte // FundingAmount is the amount of satoshis that the initiator of the // channel wishes to use as the total capacity of the channel. The // initial balance of the funding will be this value minus the push // amount (if set). FundingAmount btcutil.Amount // PushAmount is the value that the initiating party wishes to "push" // to the responding as part of the first commitment state. If the // responder accepts, then this will be their initial balance. PushAmount MilliSatoshi // DustLimit is the specific dust limit the sender of this message // would like enforced on their version of the commitment transaction. // Any output below this value will be "trimmed" from the commitment // transaction, with the amount of the HTLC going to dust. DustLimit btcutil.Amount // MaxValueInFlight represents the maximum amount of coins that can be // pending within the channel at any given time. If the amount of funds // in limbo exceeds this amount, then the channel will be failed. MaxValueInFlight MilliSatoshi // ChannelReserve is the amount of BTC that the receiving party MUST // maintain a balance above at all times. This is a safety mechanism to // ensure that both sides always have skin in the game during the // channel's lifetime. ChannelReserve btcutil.Amount // HtlcMinimum is the smallest HTLC that the sender of this message // will accept. HtlcMinimum MilliSatoshi // FeePerKiloWeight is the initial fee rate that the initiator suggests // for both commitment transaction. This value is expressed in sat per // kilo-weight. FeePerKiloWeight uint32 // CsvDelay is the number of blocks to use for the relative time lock // in the pay-to-self output of both commitment transactions. CsvDelay uint16 // MaxAcceptedHTLCs is the total number of incoming HTLC's that the // sender of this channel will accept. MaxAcceptedHTLCs uint16 // FundingKey is the key that should be used on behalf of the sender // within the 2-of-2 multi-sig output that it contained within the // funding transaction. FundingKey *btcec.PublicKey // RevocationPoint is the base revocation point for the sending party. // Any commitment transaction belonging to the receiver of this message // should use this key and their per-commitment point to derive the // revocation key for the commitment transaction. RevocationPoint *btcec.PublicKey // PaymentPoint is the base payment point for the sending party. This // key should be combined with the per commitment point for a // particular commitment state in order to create the key that should // be used in any output that pays directly to the sending party, and // also within the HTLC covenant transactions. PaymentPoint *btcec.PublicKey // DelayedPaymentPoint is the delay point for the sending party. This // key should be combined with the per commitment point to derive the // keys that are used in outputs of the sender's commitment transaction // where they claim funds. DelayedPaymentPoint *btcec.PublicKey // FirstCommitmentPoint is the first commitment point for the sending // party. This value should be combined with the receiver's revocation // base point in order to derive the revocation keys that are placed // within the commitment transaction of the sender. FirstCommitmentPoint *btcec.PublicKey // ChannelFlags is a bit-field which allows the initiator of the // channel to specify further behavior surrounding the channel. // Currently, the least significant bit of this bit field indicates the // initiator of the channel wishes to advertise this channel publicly. ChannelFlags byte } // A compile time check to ensure OpenChannel implements the lnwire.Message // interface. var _ Message = (*OpenChannel)(nil) // Encode serializes the target OpenChannel into the passed io.Writer // implementation. Serialization will observe the rules defined by the passed // protocol version. // // This is part of the lnwire.Message interface. func (o *OpenChannel) Encode(w io.Writer, pver uint32) error { return writeElements(w, o.ChainHash[:], o.PendingChannelID[:], o.FundingAmount, o.PushAmount, o.DustLimit, o.MaxValueInFlight, o.ChannelReserve, o.HtlcMinimum, o.FeePerKiloWeight, o.CsvDelay, o.MaxAcceptedHTLCs, o.FundingKey, o.RevocationPoint, o.PaymentPoint, o.DelayedPaymentPoint, o.FirstCommitmentPoint, o.ChannelFlags, ) } // Decode deserializes the serialized OpenChannel stored in the passed // io.Reader into the target OpenChannel using the deserialization rules // defined by the passed protocol version. // // This is part of the lnwire.Message interface. func (o *OpenChannel) Decode(r io.Reader, pver uint32) error { return readElements(r, o.ChainHash[:], o.PendingChannelID[:], &o.FundingAmount, &o.PushAmount, &o.DustLimit, &o.MaxValueInFlight, &o.ChannelReserve, &o.HtlcMinimum, &o.FeePerKiloWeight, &o.CsvDelay, &o.MaxAcceptedHTLCs, &o.FundingKey, &o.RevocationPoint, &o.PaymentPoint, &o.DelayedPaymentPoint, &o.FirstCommitmentPoint, &o.ChannelFlags, ) } // MsgType returns the MessageType code which uniquely identifies this message // as a OpenChannel on the wire. // // This is part of the lnwire.Message interface. func (o *OpenChannel) MsgType() MessageType { return MsgOpenChannel } // MaxPayloadLength returns the maximum allowed payload length for a // OpenChannel message. // // This is part of the lnwire.Message interface. func (o *OpenChannel) MaxPayloadLength(uint32) uint32 { // (32 * 2) + (8 * 6) + (4 * 1) + (2 * 2) + (33 * 5) + 1 return 286 }