package dataformat import ( "encoding/hex" "encoding/json" "fmt" "strconv" "strings" "github.com/lightningnetwork/lnd/channeldb" ) type NumberString uint64 func (n *NumberString) UnmarshalJSON(b []byte) error { if b[0] != '"' { return json.Unmarshal(b, (*uint64)(n)) } var s string if err := json.Unmarshal(b, &s); err != nil { return err } i, err := strconv.Atoi(s) if err != nil { return err } *n = NumberString(i) return nil } type InputFile interface { AsSummaryEntries() ([]*SummaryEntry, error) } type Input interface { AsSummaryEntry() *SummaryEntry } type ListChannelsFile struct { Channels []*ListChannelsChannel `json:"channels"` } func (f *ListChannelsFile) AsSummaryEntries() ([]*SummaryEntry, error) { result := make([]*SummaryEntry, len(f.Channels)) for idx, entry := range f.Channels { result[idx] = entry.AsSummaryEntry() } return result, nil } type ListChannelsChannel struct { RemotePubkey string `json:"remote_pubkey"` ChannelPoint string `json:"channel_point"` Capacity NumberString `json:"capacity"` Initiator bool `json:"initiator"` LocalBalance NumberString `json:"local_balance"` RemoteBalance NumberString `json:"remote_balance"` } func (c *ListChannelsChannel) AsSummaryEntry() *SummaryEntry { return &SummaryEntry{ RemotePubkey: c.RemotePubkey, ChannelPoint: c.ChannelPoint, FundingTXID: FundingTXID(c.ChannelPoint), FundingTXIndex: FundingTXIndex(c.ChannelPoint), Capacity: uint64(c.Capacity), Initiator: c.Initiator, LocalBalance: uint64(c.LocalBalance), RemoteBalance: uint64(c.RemoteBalance), } } type PendingChannelsFile struct { PendingOpen []*PendingChannelsChannel `json:"pending_open_channels"` PendingClosing []*PendingChannelsChannel `json:"pending_closing_channels"` PendingForceClosing []*PendingChannelsChannel `json:"pending_force_closing_channels"` WaitingClose []*PendingChannelsChannel `json:"waiting_close_channels"` } func (f *PendingChannelsFile) AsSummaryEntries() ([]*SummaryEntry, error) { numChannels := len(f.PendingOpen) + len(f.PendingClosing) + len(f.PendingForceClosing) + len(f.WaitingClose) result := make([]*SummaryEntry, numChannels) idx := 0 for _, entry := range f.PendingOpen { result[idx] = entry.AsSummaryEntry() idx++ } for _, entry := range f.PendingClosing { result[idx] = entry.AsSummaryEntry() idx++ } for _, entry := range f.PendingForceClosing { result[idx] = entry.AsSummaryEntry() idx++ } for _, entry := range f.WaitingClose { result[idx] = entry.AsSummaryEntry() idx++ } return result, nil } type PendingChannelsChannel struct { Channel struct { RemotePubkey string `json:"remote_node_pub"` ChannelPoint string `json:"channel_point"` Capacity NumberString `json:"capacity"` LocalBalance NumberString `json:"local_balance"` RemoteBalance NumberString `json:"remote_balance"` } `json:"channel"` } func (c *PendingChannelsChannel) AsSummaryEntry() *SummaryEntry { return &SummaryEntry{ RemotePubkey: c.Channel.RemotePubkey, ChannelPoint: c.Channel.ChannelPoint, FundingTXID: FundingTXID(c.Channel.ChannelPoint), FundingTXIndex: FundingTXIndex(c.Channel.ChannelPoint), Capacity: uint64(c.Channel.Capacity), Initiator: false, LocalBalance: uint64(c.Channel.LocalBalance), RemoteBalance: uint64(c.Channel.RemoteBalance), } } type ChannelDBFile struct { DB *channeldb.ChannelStateDB } func (c *ChannelDBFile) AsSummaryEntries() ([]*SummaryEntry, error) { channels, err := c.DB.FetchAllChannels() if err != nil { return nil, fmt.Errorf("error fetching channels: %v", err) } result := make([]*SummaryEntry, len(channels)) for idx, channel := range channels { result[idx] = &SummaryEntry{ RemotePubkey: hex.EncodeToString( channel.IdentityPub.SerializeCompressed(), ), ChannelPoint: channel.FundingOutpoint.String(), FundingTXID: channel.FundingOutpoint.Hash.String(), FundingTXIndex: channel.FundingOutpoint.Index, Capacity: uint64(channel.Capacity), Initiator: channel.IsInitiator, LocalBalance: uint64( channel.LocalCommitment.LocalBalance.ToSatoshis(), ), RemoteBalance: uint64( channel.LocalCommitment.RemoteBalance.ToSatoshis(), ), } } return result, nil } func (f *SummaryEntryFile) AsSummaryEntries() ([]*SummaryEntry, error) { return f.Channels, nil } func FundingTXID(chanPoint string) string { parts := strings.Split(chanPoint, ":") if len(parts) != 2 { panic(fmt.Errorf("channel point not in format :: %s", chanPoint)) } return parts[0] } func FundingTXIndex(chanPoint string) uint32 { parts := strings.Split(chanPoint, ":") if len(parts) != 2 { panic(fmt.Errorf("channel point %s not in format :", chanPoint)) } return uint32(parseInt(parts[1])) } func parseInt(str string) uint64 { index, err := strconv.Atoi(str) if err != nil { panic(fmt.Errorf("error parsing '%s' as int: %v", str, err)) } return uint64(index) }