package dialer import ( "context" "net" "time" "github.com/sagernet/sing-box/adapter" C "github.com/sagernet/sing-box/constant" "github.com/sagernet/sing/common/control" E "github.com/sagernet/sing/common/exceptions" F "github.com/sagernet/sing/common/format" N "github.com/sagernet/sing/common/network" ) func (d *DefaultDialer) dialParallelInterface(ctx context.Context, dialer net.Dialer, network string, addr string, strategy C.NetworkStrategy, fallbackDelay time.Duration) (net.Conn, error) { primaryInterfaces, fallbackInterfaces := selectInterfaces(d.networkManager, strategy) if len(primaryInterfaces)+len(fallbackInterfaces) == 0 { return nil, E.New("no available network interface") } if fallbackDelay == 0 { fallbackDelay = N.DefaultFallbackDelay } returned := make(chan struct{}) defer close(returned) type dialResult struct { net.Conn error primary bool } results := make(chan dialResult) // unbuffered startRacer := func(ctx context.Context, primary bool, iif adapter.NetworkInterface) { perNetDialer := dialer perNetDialer.Control = control.Append(perNetDialer.Control, control.BindToInterface(nil, iif.Name, iif.Index)) conn, err := perNetDialer.DialContext(ctx, network, addr) if err != nil { select { case results <- dialResult{error: E.Cause(err, "dial ", iif.Name, " (", iif.Name, ")"), primary: primary}: case <-returned: } } else { select { case results <- dialResult{Conn: conn}: case <-returned: conn.Close() } } } primaryCtx, primaryCancel := context.WithCancel(ctx) defer primaryCancel() for _, iif := range primaryInterfaces { go startRacer(primaryCtx, true, iif) } var ( fallbackTimer *time.Timer fallbackChan <-chan time.Time ) if len(fallbackInterfaces) > 0 { fallbackTimer = time.NewTimer(fallbackDelay) defer fallbackTimer.Stop() fallbackChan = fallbackTimer.C } var errors []error for { select { case <-fallbackChan: fallbackCtx, fallbackCancel := context.WithCancel(ctx) defer fallbackCancel() for _, iif := range fallbackInterfaces { go startRacer(fallbackCtx, false, iif) } case res := <-results: if res.error == nil { return res.Conn, nil } errors = append(errors, res.error) if len(errors) == len(primaryInterfaces)+len(fallbackInterfaces) { return nil, E.Errors(errors...) } if res.primary && fallbackTimer != nil && fallbackTimer.Stop() { fallbackTimer.Reset(0) } } } } func (d *DefaultDialer) listenSerialInterfacePacket(ctx context.Context, listener net.ListenConfig, network string, addr string, strategy C.NetworkStrategy, fallbackDelay time.Duration) (net.PacketConn, error) { primaryInterfaces, fallbackInterfaces := selectInterfaces(d.networkManager, strategy) if len(primaryInterfaces)+len(fallbackInterfaces) == 0 { return nil, E.New("no available network interface") } if fallbackDelay == 0 { fallbackDelay = N.DefaultFallbackDelay } var errors []error for _, primaryInterface := range primaryInterfaces { perNetListener := listener perNetListener.Control = control.Append(perNetListener.Control, control.BindToInterface(nil, primaryInterface.Name, primaryInterface.Index)) conn, err := perNetListener.ListenPacket(ctx, network, addr) if err == nil { return conn, nil } errors = append(errors, E.Cause(err, "listen ", primaryInterface.Name, " (", primaryInterface.Name, ")")) } for _, fallbackInterface := range fallbackInterfaces { perNetListener := listener perNetListener.Control = control.Append(perNetListener.Control, control.BindToInterface(nil, fallbackInterface.Name, fallbackInterface.Index)) conn, err := perNetListener.ListenPacket(ctx, network, addr) if err == nil { return conn, nil } errors = append(errors, E.Cause(err, "listen ", fallbackInterface.Name, " (", fallbackInterface.Name, ")")) } return nil, E.Errors(errors...) } func selectInterfaces(networkManager adapter.NetworkManager, strategy C.NetworkStrategy) (primaryInterfaces []adapter.NetworkInterface, fallbackInterfaces []adapter.NetworkInterface) { interfaces := networkManager.NetworkInterfaces() switch strategy { case C.NetworkStrategyFallback: defaultIf := networkManager.InterfaceMonitor().DefaultInterface() if defaultIf != nil { for _, iif := range interfaces { if iif.Index == defaultIf.Index { primaryInterfaces = append(primaryInterfaces, iif) } else { fallbackInterfaces = append(fallbackInterfaces, iif) } } } else { primaryInterfaces = interfaces } case C.NetworkStrategyHybrid: primaryInterfaces = interfaces case C.NetworkStrategyWIFI: for _, iif := range interfaces { if iif.Type == C.InterfaceTypeWIFI { primaryInterfaces = append(primaryInterfaces, iif) } else { fallbackInterfaces = append(fallbackInterfaces, iif) } } case C.NetworkStrategyCellular: for _, iif := range interfaces { if iif.Type == C.InterfaceTypeCellular { primaryInterfaces = append(primaryInterfaces, iif) } else { fallbackInterfaces = append(fallbackInterfaces, iif) } } case C.NetworkStrategyEthernet: for _, iif := range interfaces { if iif.Type == C.InterfaceTypeEthernet { primaryInterfaces = append(primaryInterfaces, iif) } else { fallbackInterfaces = append(fallbackInterfaces, iif) } } case C.NetworkStrategyWIFIOnly: for _, iif := range interfaces { if iif.Type == C.InterfaceTypeWIFI { primaryInterfaces = append(primaryInterfaces, iif) } } case C.NetworkStrategyCellularOnly: for _, iif := range interfaces { if iif.Type == C.InterfaceTypeCellular { primaryInterfaces = append(primaryInterfaces, iif) } } case C.NetworkStrategyEthernetOnly: for _, iif := range interfaces { if iif.Type == C.InterfaceTypeEthernet { primaryInterfaces = append(primaryInterfaces, iif) } } default: panic(F.ToString("unknown network strategy: ", strategy)) } return primaryInterfaces, fallbackInterfaces }