package netmap import ( "strconv" "github.com/nspcc-dev/hrw" "github.com/nspcc-dev/neofs-api-go/v2/netmap" ) type ( // Node is a wrapper over NodeInfo. Node struct { ID uint64 Index int Capacity uint64 Price uint64 AttrMap map[string]string InfoV2 *netmap.NodeInfo } // Nodes represents slice of graph leafs. Nodes []*Node ) // NodeState is an enumeration of various states of the NeoFS node. type NodeState uint32 const ( _ NodeState = iota // NodeStateOffline is network unavailable state. NodeStateOffline // NodeStateOnline is an active state in the network. NodeStateOnline ) // Enumeration of well-known attributes. const ( CapacityAttr = "Capacity" PriceAttr = "Price" ) var _ hrw.Hasher = (*Node)(nil) // Hash is a function from hrw.Hasher interface. It is implemented // to support weighted hrw therefore sort function sorts nodes // based on their `N` value. func (n Node) Hash() uint64 { return n.ID } // NetworkAddress returns network address // of the node in a string format. func (n Node) NetworkAddress() string { return n.InfoV2.GetAddress() } // PublicKey returns public key of the node in bytes. func (n Node) PublicKey() []byte { return n.InfoV2.GetPublicKey() } // NodesFromV2 converts slice of v2 netmap.NodeInfo to a generic node slice. func NodesFromV2(infos []netmap.NodeInfo) Nodes { nodes := make(Nodes, len(infos)) for i := range infos { nodes[i] = newNodeV2(i, &infos[i]) } return nodes } func newNodeV2(index int, ni *netmap.NodeInfo) *Node { n := &Node{ ID: hrw.Hash(ni.GetPublicKey()), Index: index, AttrMap: make(map[string]string, len(ni.GetAttributes())), InfoV2: ni, } for _, attr := range ni.GetAttributes() { switch attr.GetKey() { case CapacityAttr: n.Capacity, _ = strconv.ParseUint(attr.GetValue(), 10, 64) case PriceAttr: n.Price, _ = strconv.ParseUint(attr.GetValue(), 10, 64) } n.AttrMap[attr.GetKey()] = attr.GetValue() } return n } // Weights returns slice of nodes weights W. func (n Nodes) Weights(wf weightFunc) []float64 { w := make([]float64, 0, len(n)) for i := range n { w = append(w, wf(n[i])) } return w } // Attribute returns value of attribute k. func (n *Node) Attribute(k string) string { return n.AttrMap[k] } // GetBucketWeight computes weight for a Bucket. func GetBucketWeight(ns Nodes, a aggregator, wf weightFunc) float64 { for i := range ns { a.Add(wf(ns[i])) } return a.Compute() } // NodeStateFromV2 converts v2 NodeState to NodeState. func NodeStateFromV2(s netmap.NodeState) NodeState { switch s { default: return 0 case netmap.Online: return NodeStateOnline case netmap.Offline: return NodeStateOffline } } // ToV2 converts NodeState to v2 NodeState. func (s NodeState) ToV2() netmap.NodeState { switch s { default: return netmap.UnspecifiedState case NodeStateOffline: return netmap.Offline case NodeStateOnline: return netmap.Online } } func (s NodeState) String() string { switch s { default: return "UNSPECIFIED" case NodeStateOffline: return "OFFLINE" case NodeStateOnline: return "ONLINE" } }