package libbox import ( "bufio" "net" "slices" "strings" "time" "github.com/sagernet/sing-box/experimental/clashapi" "github.com/sagernet/sing-box/experimental/clashapi/trafficontrol" "github.com/sagernet/sing/common/binary" E "github.com/sagernet/sing/common/exceptions" M "github.com/sagernet/sing/common/metadata" "github.com/gofrs/uuid/v5" ) func (c *CommandClient) handleConnectionsConn(conn net.Conn) { defer conn.Close() reader := bufio.NewReader(conn) var connections Connections for { rawConnections = nil err := binary.ReadData(reader, binary.BigEndian, &connections.connections) if err != nil { c.handler.Disconnected(err.Error()) return } c.handler.WriteConnections(&connections) } } func (s *CommandServer) handleConnectionsConn(conn net.Conn) error { var interval int64 err := binary.Read(conn, binary.BigEndian, &interval) if err != nil { return E.Cause(err, "read interval") } ticker := time.NewTicker(time.Duration(interval)) defer ticker.Stop() ctx := connKeepAlive(conn) var trafficManager *trafficontrol.Manager for { service := s.service if service != nil { clashServer := service.instance.Router().ClashServer() if clashServer == nil { return E.New("Clash API disabled") } trafficManager = clashServer.(*clashapi.Server).TrafficManager() break } select { case <-ctx.Done(): return ctx.Err() case <-ticker.C: } } var ( connections = make(map[uuid.UUID]*Connection) outConnections []Connection ) writer := bufio.NewWriter(conn) for { outConnections = outConnections[:0] for _, connection := range trafficManager.Connections() { outConnections = append(outConnections, newConnection(connections, connection, false)) } for _, connection := range trafficManager.ClosedConnections() { outConnections = append(outConnections, newConnection(connections, connection, true)) } err = binary.WriteData(writer, binary.BigEndian, outConnections) if err != nil { return err } err = writer.Flush() if err != nil { return err } select { case <-ctx.Done(): return ctx.Err() case <-ticker.C: } } } const ( ConnectionStateAll = iota ConnectionStateActive ConnectionStateClosed ) type Connections struct { connections []Connection filteredConnections []Connection outConnections *[]Connection } func (c *Connections) FilterState(state int32) { c.filteredConnections = c.filteredConnections[:0] switch state { case ConnectionStateAll: c.filteredConnections = append(c.filteredConnections, c.connections...) case ConnectionStateActive: for _, connection := range c.connections { if connection.ClosedAt == 0 { c.filteredConnections = append(c.filteredConnections, connection) } } case ConnectionStateClosed: for _, connection := range c.connections { if connection.ClosedAt != 0 { c.filteredConnections = append(c.filteredConnections, connection) } } } } func (c *Connections) SortByDate() { slices.SortStableFunc(c.filteredConnections, func(x, y Connection) int { if x.CreatedAt < y.CreatedAt { return 1 } else if x.CreatedAt > y.CreatedAt { return -1 } else { return strings.Compare(y.ID, x.ID) } }) } func (c *Connections) SortByTraffic() { slices.SortStableFunc(c.filteredConnections, func(x, y Connection) int { xTraffic := x.Uplink + x.Downlink yTraffic := y.Uplink + y.Downlink if xTraffic < yTraffic { return 1 } else if xTraffic > yTraffic { return -1 } else { return strings.Compare(y.ID, x.ID) } }) } func (c *Connections) SortByTrafficTotal() { slices.SortStableFunc(c.filteredConnections, func(x, y Connection) int { xTraffic := x.UplinkTotal + x.DownlinkTotal yTraffic := y.UplinkTotal + y.DownlinkTotal if xTraffic < yTraffic { return 1 } else if xTraffic > yTraffic { return -1 } else { return strings.Compare(y.ID, x.ID) } }) } func (c *Connections) Iterator() ConnectionIterator { return newPtrIterator(c.filteredConnections) } type Connection struct { ID string Inbound string InboundType string IPVersion int32 Network string Source string Destination string Domain string Protocol string User string FromOutbound string CreatedAt int64 ClosedAt int64 Uplink int64 Downlink int64 UplinkTotal int64 DownlinkTotal int64 Rule string Outbound string OutboundType string ChainList []string } func (c *Connection) Chain() StringIterator { return newIterator(c.ChainList) } func (c *Connection) DisplayDestination() string { destination := M.ParseSocksaddr(c.Destination) if destination.IsIP() && c.Domain != "" { destination = M.Socksaddr{ Fqdn: c.Domain, Port: destination.Port, } return destination.String() } return c.Destination } type ConnectionIterator interface { Next() *Connection HasNext() bool } func newConnection(connections map[uuid.UUID]*Connection, metadata trafficontrol.TrackerMetadata, isClosed bool) Connection { if oldConnection, loaded := connections[metadata.ID]; loaded { if isClosed { if oldConnection.ClosedAt == 0 { oldConnection.Uplink = 0 oldConnection.Downlink = 0 oldConnection.ClosedAt = metadata.ClosedAt.UnixMilli() } return *oldConnection } lastUplink := oldConnection.UplinkTotal lastDownlink := oldConnection.DownlinkTotal uplinkTotal := metadata.Upload.Load() downlinkTotal := metadata.Download.Load() oldConnection.Uplink = uplinkTotal - lastUplink oldConnection.Downlink = downlinkTotal - lastDownlink oldConnection.UplinkTotal = uplinkTotal oldConnection.DownlinkTotal = downlinkTotal return *oldConnection } var rule string if metadata.Rule != nil { rule = metadata.Rule.String() } uplinkTotal := metadata.Upload.Load() downlinkTotal := metadata.Download.Load() uplink := uplinkTotal downlink := downlinkTotal var closedAt int64 if !metadata.ClosedAt.IsZero() { closedAt = metadata.ClosedAt.UnixMilli() uplink = 0 downlink = 0 } connection := Connection{ ID: metadata.ID.String(), Inbound: metadata.Metadata.Inbound, InboundType: metadata.Metadata.InboundType, IPVersion: int32(metadata.Metadata.IPVersion), Network: metadata.Metadata.Network, Source: metadata.Metadata.Source.String(), Destination: metadata.Metadata.Destination.String(), Domain: metadata.Metadata.Domain, Protocol: metadata.Metadata.Protocol, User: metadata.Metadata.User, FromOutbound: metadata.Metadata.Outbound, CreatedAt: metadata.CreatedAt.UnixMilli(), ClosedAt: closedAt, Uplink: uplink, Downlink: downlink, UplinkTotal: uplinkTotal, DownlinkTotal: downlinkTotal, Rule: rule, Outbound: metadata.Outbound, OutboundType: metadata.OutboundType, ChainList: metadata.Chain, } connections[metadata.ID] = &connection return connection }