package net import ( "context" "strings" "github.com/libp2p/go-libp2p-core/network" "github.com/libp2p/go-libp2p-core/peer" "github.com/libp2p/go-libp2p-core/protocol" rcmgr "github.com/libp2p/go-libp2p-resource-manager" "golang.org/x/xerrors" "github.com/filecoin-project/lotus/api" ) func (a *NetAPI) NetStat(ctx context.Context, scope string) (result api.NetStat, err error) { switch { case scope == "all": rapi, ok := a.ResourceManager.(rcmgr.ResourceManagerState) if !ok { return result, xerrors.Errorf("rexource manager does not support ResourceManagerState API") } stat := rapi.Stat() result.System = &stat.System result.Transient = &stat.Transient if len(stat.Services) > 0 { result.Services = stat.Services } if len(stat.Protocols) > 0 { result.Protocols = make(map[string]network.ScopeStat, len(stat.Protocols)) for proto, stat := range stat.Protocols { result.Protocols[string(proto)] = stat } } if len(stat.Peers) > 0 { result.Peers = make(map[string]network.ScopeStat, len(stat.Peers)) for p, stat := range stat.Peers { result.Peers[p.Pretty()] = stat } } return result, nil case scope == "system": err = a.ResourceManager.ViewSystem(func(s network.ResourceScope) error { stat := s.Stat() result.System = &stat return nil }) return result, err case scope == "transient": err = a.ResourceManager.ViewTransient(func(s network.ResourceScope) error { stat := s.Stat() result.Transient = &stat return nil }) return result, err case strings.HasPrefix(scope, "svc:"): svc := scope[4:] err = a.ResourceManager.ViewService(svc, func(s network.ServiceScope) error { stat := s.Stat() result.Services = map[string]network.ScopeStat{ svc: stat, } return nil }) return result, err case strings.HasPrefix(scope, "proto:"): proto := scope[6:] err = a.ResourceManager.ViewProtocol(protocol.ID(proto), func(s network.ProtocolScope) error { stat := s.Stat() result.Protocols = map[string]network.ScopeStat{ proto: stat, } return nil }) return result, err case strings.HasPrefix(scope, "peer:"): p := scope[5:] pid, err := peer.Decode(p) if err != nil { return result, xerrors.Errorf("invalid peer ID: %s: %w", p, err) } err = a.ResourceManager.ViewPeer(pid, func(s network.PeerScope) error { stat := s.Stat() result.Peers = map[string]network.ScopeStat{ p: stat, } return nil }) return result, err default: return result, xerrors.Errorf("invalid scope %s", scope) } } func (a *NetAPI) NetLimit(ctx context.Context, scope string) (result api.NetLimit, err error) { getLimit := func(s network.ResourceScope) error { limiter, ok := s.(rcmgr.ResourceScopeLimiter) if !ok { return xerrors.Errorf("resource scope doesn't implement ResourceScopeLimiter interface") } limit := limiter.Limit() result.Memory = limit.GetMemoryLimit() result.Streams = limit.GetStreamTotalLimit() result.StreamsInbound = limit.GetStreamLimit(network.DirInbound) result.StreamsOutbound = limit.GetStreamLimit(network.DirOutbound) result.Conns = limit.GetConnTotalLimit() result.ConnsInbound = limit.GetConnLimit(network.DirInbound) result.ConnsOutbound = limit.GetConnLimit(network.DirOutbound) result.FD = limit.GetFDLimit() return nil } switch { case scope == "system": err = a.ResourceManager.ViewSystem(func(s network.ResourceScope) error { return getLimit(s) }) return result, err case scope == "transient": err = a.ResourceManager.ViewTransient(func(s network.ResourceScope) error { return getLimit(s) }) return result, err case strings.HasPrefix(scope, "svc:"): svc := scope[4:] err = a.ResourceManager.ViewService(svc, func(s network.ServiceScope) error { return getLimit(s) }) return result, err case strings.HasPrefix(scope, "proto:"): proto := scope[6:] err = a.ResourceManager.ViewProtocol(protocol.ID(proto), func(s network.ProtocolScope) error { return getLimit(s) }) return result, err case strings.HasPrefix(scope, "peer:"): p := scope[5:] pid, err := peer.Decode(p) if err != nil { return result, xerrors.Errorf("invalid peer ID: %s: %w", p, err) } err = a.ResourceManager.ViewPeer(pid, func(s network.PeerScope) error { return getLimit(s) }) return result, err default: return result, xerrors.Errorf("invalid scope %s", scope) } } func (a *NetAPI) NetSetLimit(ctx context.Context, scope string, limit api.NetLimit) error { setLimit := func(s network.ResourceScope) error { limiter, ok := s.(rcmgr.ResourceScopeLimiter) if !ok { return xerrors.Errorf("resource scope doesn't implement ResourceScopeLimiter interface") } newLimit := &rcmgr.BaseLimit{ Memory: limit.Memory, Streams: limit.Streams, StreamsInbound: limit.StreamsInbound, StreamsOutbound: limit.StreamsOutbound, Conns: limit.Conns, ConnsInbound: limit.ConnsInbound, ConnsOutbound: limit.ConnsOutbound, FD: limit.FD, } limiter.SetLimit(newLimit) return nil } switch { case scope == "system": err := a.ResourceManager.ViewSystem(func(s network.ResourceScope) error { return setLimit(s) }) return err case scope == "transient": err := a.ResourceManager.ViewTransient(func(s network.ResourceScope) error { return setLimit(s) }) return err case strings.HasPrefix(scope, "svc:"): svc := scope[4:] err := a.ResourceManager.ViewService(svc, func(s network.ServiceScope) error { return setLimit(s) }) return err case strings.HasPrefix(scope, "proto:"): proto := scope[6:] err := a.ResourceManager.ViewProtocol(protocol.ID(proto), func(s network.ProtocolScope) error { return setLimit(s) }) return err case strings.HasPrefix(scope, "peer:"): p := scope[5:] pid, err := peer.Decode(p) if err != nil { return xerrors.Errorf("invalid peer ID: %s: %w", p, err) } err = a.ResourceManager.ViewPeer(pid, func(s network.PeerScope) error { return setLimit(s) }) return err default: return xerrors.Errorf("invalid scope %s", scope) } }