lnd.xprv/lnwire/channel_update.go

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package lnwire
import (
"bytes"
"fmt"
"io"
"io/ioutil"
"github.com/btcsuite/btcd/chaincfg/chainhash"
)
// ChanUpdateMsgFlags is a bitfield that signals whether optional fields are
// present in the ChannelUpdate.
type ChanUpdateMsgFlags uint8
const (
// ChanUpdateOptionMaxHtlc is a bit that indicates whether the
// optional htlc_maximum_msat field is present in this ChannelUpdate.
ChanUpdateOptionMaxHtlc ChanUpdateMsgFlags = 1 << iota
)
// String returns the bitfield flags as a string.
func (c ChanUpdateMsgFlags) String() string {
return fmt.Sprintf("%08b", c)
}
// HasMaxHtlc returns true if the htlc_maximum_msat option bit is set in the
// message flags.
func (c ChanUpdateMsgFlags) HasMaxHtlc() bool {
return c&ChanUpdateOptionMaxHtlc != 0
}
// ChanUpdateChanFlags is a bitfield that signals various options concerning a
// particular channel edge. Each bit is to be examined in order to determine
// how the ChannelUpdate message is to be interpreted.
type ChanUpdateChanFlags uint8
const (
// ChanUpdateDirection indicates the direction of a channel update. If
// this bit is set to 0 if Node1 (the node with the "smaller" Node ID)
// is updating the channel, and to 1 otherwise.
ChanUpdateDirection ChanUpdateChanFlags = 1 << iota
// ChanUpdateDisabled is a bit that indicates if the channel edge
// selected by the ChanUpdateDirection bit is to be treated as being
// disabled.
ChanUpdateDisabled
)
// IsDisabled determines whether the channel flags has the disabled bit set.
func (c ChanUpdateChanFlags) IsDisabled() bool {
return c&ChanUpdateDisabled == ChanUpdateDisabled
}
// String returns the bitfield flags as a string.
func (c ChanUpdateChanFlags) String() string {
return fmt.Sprintf("%08b", c)
}
// ChannelUpdate message is used after channel has been initially announced.
// Each side independently announces its fees and minimum expiry for HTLCs and
// other parameters. Also this message is used to redeclare initially set
// channel parameters.
type ChannelUpdate struct {
// Signature is used to validate the announced data and prove the
// ownership of node id.
Signature Sig
// ChainHash denotes the target chain that this channel was opened
// within. This value should be the genesis hash of the target chain.
// Along with the short channel ID, this uniquely identifies the
// channel globally in a blockchain.
ChainHash chainhash.Hash
// ShortChannelID is the unique description of the funding transaction.
ShortChannelID ShortChannelID
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// Timestamp allows ordering in the case of multiple announcements. We
// should ignore the message if timestamp is not greater than
// the last-received.
Timestamp uint32
// MessageFlags is a bitfield that describes whether optional fields
// are present in this update. Currently, the least-significant bit
// must be set to 1 if the optional field MaxHtlc is present.
MessageFlags ChanUpdateMsgFlags
// ChannelFlags is a bitfield that describes additional meta-data
// concerning how the update is to be interpreted. Currently, the
// least-significant bit must be set to 0 if the creating node
// corresponds to the first node in the previously sent channel
// announcement and 1 otherwise. If the second bit is set, then the
// channel is set to be disabled.
ChannelFlags ChanUpdateChanFlags
// TimeLockDelta is the minimum number of blocks this node requires to
// be added to the expiry of HTLCs. This is a security parameter
// determined by the node operator. This value represents the required
// gap between the time locks of the incoming and outgoing HTLC's set
// to this node.
TimeLockDelta uint16
// HtlcMinimumMsat is the minimum HTLC value which will be accepted.
HtlcMinimumMsat MilliSatoshi
// BaseFee is the base fee that must be used for incoming HTLC's to
// this particular channel. This value will be tacked onto the required
// for a payment independent of the size of the payment.
BaseFee uint32
// FeeRate is the fee rate that will be charged per millionth of a
// satoshi.
FeeRate uint32
// HtlcMaximumMsat is the maximum HTLC value which will be accepted.
HtlcMaximumMsat MilliSatoshi
// ExtraOpaqueData is the set of data that was appended to this
// message, some of which we may not actually know how to iterate or
// parse. By holding onto this data, we ensure that we're able to
// properly validate the set of signatures that cover these new fields,
// and ensure we're able to make upgrades to the network in a forwards
// compatible manner.
ExtraOpaqueData []byte
}
// A compile time check to ensure ChannelUpdate implements the lnwire.Message
// interface.
var _ Message = (*ChannelUpdate)(nil)
// Decode deserializes a serialized ChannelUpdate stored in the passed
// io.Reader observing the specified protocol version.
//
// This is part of the lnwire.Message interface.
func (a *ChannelUpdate) Decode(r io.Reader, pver uint32) error {
err := ReadElements(r,
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&a.Signature,
a.ChainHash[:],
&a.ShortChannelID,
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&a.Timestamp,
&a.MessageFlags,
&a.ChannelFlags,
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&a.TimeLockDelta,
&a.HtlcMinimumMsat,
&a.BaseFee,
&a.FeeRate,
)
if err != nil {
return err
}
// Now check whether the max HTLC field is present and read it if so.
if a.MessageFlags.HasMaxHtlc() {
if err := ReadElements(r, &a.HtlcMaximumMsat); err != nil {
return err
}
}
// Now that we've read out all the fields that we explicitly know of,
// we'll collect the remainder into the ExtraOpaqueData field. If there
// aren't any bytes, then we'll snip off the slice to avoid carrying
// around excess capacity.
a.ExtraOpaqueData, err = ioutil.ReadAll(r)
if err != nil {
return err
}
if len(a.ExtraOpaqueData) == 0 {
a.ExtraOpaqueData = nil
}
return nil
}
// Encode serializes the target ChannelUpdate into the passed io.Writer
// observing the protocol version specified.
//
// This is part of the lnwire.Message interface.
func (a *ChannelUpdate) Encode(w io.Writer, pver uint32) error {
err := WriteElements(w,
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a.Signature,
a.ChainHash[:],
a.ShortChannelID,
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a.Timestamp,
a.MessageFlags,
a.ChannelFlags,
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a.TimeLockDelta,
a.HtlcMinimumMsat,
a.BaseFee,
a.FeeRate,
)
if err != nil {
return err
}
// Now append optional fields if they are set. Currently, the only
// optional field is max HTLC.
if a.MessageFlags.HasMaxHtlc() {
if err := WriteElements(w, a.HtlcMaximumMsat); err != nil {
return err
}
}
// Finally, append any extra opaque data.
return WriteElements(w, a.ExtraOpaqueData)
}
// MsgType returns the integer uniquely identifying this message type on the
// wire.
//
// This is part of the lnwire.Message interface.
func (a *ChannelUpdate) MsgType() MessageType {
return MsgChannelUpdate
}
// MaxPayloadLength returns the maximum allowed payload size for this message
// observing the specified protocol version.
//
// This is part of the lnwire.Message interface.
func (a *ChannelUpdate) MaxPayloadLength(pver uint32) uint32 {
return 65533
}
// DataToSign is used to retrieve part of the announcement message which should
// be signed.
func (a *ChannelUpdate) DataToSign() ([]byte, error) {
// We should not include the signatures itself.
var w bytes.Buffer
err := WriteElements(&w,
a.ChainHash[:],
a.ShortChannelID,
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a.Timestamp,
a.MessageFlags,
a.ChannelFlags,
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a.TimeLockDelta,
a.HtlcMinimumMsat,
a.BaseFee,
a.FeeRate,
)
if err != nil {
return nil, err
}
// Now append optional fields if they are set. Currently, the only
// optional field is max HTLC.
if a.MessageFlags.HasMaxHtlc() {
if err := WriteElements(&w, a.HtlcMaximumMsat); err != nil {
return nil, err
}
}
// Finally, append any extra opaque data.
if err := WriteElements(&w, a.ExtraOpaqueData); err != nil {
return nil, err
}
return w.Bytes(), nil
}