package node import ( msg_pb "github.com/harmony-one/harmony/api/proto/message" "github.com/harmony-one/harmony/api/service" "github.com/harmony-one/harmony/api/service/blockproposal" "github.com/harmony-one/harmony/api/service/clientsupport" "github.com/harmony-one/harmony/api/service/consensus" "github.com/harmony-one/harmony/api/service/discovery" "github.com/harmony-one/harmony/api/service/explorer" "github.com/harmony-one/harmony/api/service/networkinfo" "github.com/harmony-one/harmony/api/service/newclientsupport" "github.com/harmony-one/harmony/api/service/randomness" "github.com/harmony-one/harmony/api/service/staking" nodeconfig "github.com/harmony-one/harmony/internal/configs/node" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/p2p" ) func (node *Node) setupForShardLeader() { nodeConfig, chanPeer := node.initNodeConfiguration(false, false) // Register peer discovery service. No need to do staking for beacon chain node. node.serviceManager.RegisterService(service.PeerDiscovery, discovery.New(node.host, nodeConfig, chanPeer, node.AddBeaconPeer)) // Register networkinfo service. "0" is the beacon shard ID node.serviceManager.RegisterService(service.NetworkInfo, networkinfo.New(node.host, p2p.GroupIDBeacon, chanPeer, nil)) // Register explorer service. node.serviceManager.RegisterService(service.SupportExplorer, explorer.New(&node.SelfPeer, node.Consensus.GetNumPeers)) // Register consensus service. node.serviceManager.RegisterService(service.Consensus, consensus.New(node.BlockChannel, node.Consensus, node.startConsensus)) // Register new block service. node.serviceManager.RegisterService(service.BlockProposal, blockproposal.New(node.Consensus.ReadySignal, node.WaitForConsensusReady)) // Register client support service. node.serviceManager.RegisterService(service.ClientSupport, clientsupport.New(node.blockchain.State, node.CallFaucetContract, node.getDeployedStakingContract, node.SelfPeer.IP, node.SelfPeer.Port)) // Register randomness service node.serviceManager.RegisterService(service.Randomness, randomness.New(node.DRand)) } func (node *Node) setupForShardValidator() { nodeConfig, chanPeer := node.initNodeConfiguration(false, false) // Register client support service. node.serviceManager.RegisterService(service.ClientSupport, clientsupport.New(node.blockchain.State, node.CallFaucetContract, node.getDeployedStakingContract, node.SelfPeer.IP, node.SelfPeer.Port)) // Register peer discovery service. "0" is the beacon shard ID. No need to do staking for beacon chain node. node.serviceManager.RegisterService(service.PeerDiscovery, discovery.New(node.host, nodeConfig, chanPeer, node.AddBeaconPeer)) // Register networkinfo service. "0" is the beacon shard ID node.serviceManager.RegisterService(service.NetworkInfo, networkinfo.New(node.host, p2p.GroupIDBeacon, chanPeer, nil)) } func (node *Node) setupForBeaconLeader() { nodeConfig, chanPeer := node.initNodeConfiguration(true, false) // Register peer discovery service. No need to do staking for beacon chain node. node.serviceManager.RegisterService(service.PeerDiscovery, discovery.New(node.host, nodeConfig, chanPeer, nil)) // Register networkinfo service. node.serviceManager.RegisterService(service.NetworkInfo, networkinfo.New(node.host, p2p.GroupIDBeacon, chanPeer, nil)) // Register consensus service. node.serviceManager.RegisterService(service.Consensus, consensus.New(node.BlockChannel, node.Consensus, node.startConsensus)) // Register new block service. node.serviceManager.RegisterService(service.BlockProposal, blockproposal.New(node.Consensus.ReadySignal, node.WaitForConsensusReady)) // Register client support service. node.serviceManager.RegisterService(service.ClientSupport, clientsupport.New(node.blockchain.State, node.CallFaucetContract, node.getDeployedStakingContract, node.SelfPeer.IP, node.SelfPeer.Port)) // TODO(minhdoan): We will remove the old client support and use the new client support which uses new message protocol. // Register client new support service. node.serviceManager.RegisterService(service.NewClientSupport, newclientsupport.New()) // Register randomness service node.serviceManager.RegisterService(service.Randomness, randomness.New(node.DRand)) // Register explorer service. node.serviceManager.RegisterService(service.SupportExplorer, explorer.New(&node.SelfPeer, node.Consensus.GetNumPeers)) } func (node *Node) setupForBeaconValidator() { nodeConfig, chanPeer := node.initNodeConfiguration(true, false) // Register client support service. node.serviceManager.RegisterService(service.ClientSupport, clientsupport.New(node.blockchain.State, node.CallFaucetContract, node.getDeployedStakingContract, node.SelfPeer.IP, node.SelfPeer.Port)) // Register peer discovery service. No need to do staking for beacon chain node. node.serviceManager.RegisterService(service.PeerDiscovery, discovery.New(node.host, nodeConfig, chanPeer, nil)) // Register networkinfo service. node.serviceManager.RegisterService(service.NetworkInfo, networkinfo.New(node.host, p2p.GroupIDBeacon, chanPeer, nil)) } func (node *Node) setupForNewNode() { // TODO determine the role of new node, currently assume it is beacon node nodeConfig, chanPeer := node.initNodeConfiguration(true, true) // Register staking service. node.serviceManager.RegisterService(service.Staking, staking.New(node.host, node.AccountKey, node.beaconChain, node.NodeConfig.ConsensusPubKey.GetAddress())) // Register peer discovery service. "0" is the beacon shard ID node.serviceManager.RegisterService(service.PeerDiscovery, discovery.New(node.host, nodeConfig, chanPeer, node.AddBeaconPeer)) // Register networkinfo service. "0" is the beacon shard ID node.serviceManager.RegisterService(service.NetworkInfo, networkinfo.New(node.host, p2p.GroupIDBeacon, chanPeer, nil)) // TODO: how to restart networkinfo and discovery service after receiving shard id info from beacon chain? } func (node *Node) setupForClientNode() { nodeConfig, chanPeer := node.initNodeConfiguration(false, true) // Register peer discovery service. node.serviceManager.RegisterService(service.PeerDiscovery, discovery.New(node.host, nodeConfig, chanPeer, node.AddBeaconPeer)) // Register networkinfo service. "0" is the beacon shard ID node.serviceManager.RegisterService(service.NetworkInfo, networkinfo.New(node.host, p2p.GroupIDBeacon, chanPeer, nil)) } func (node *Node) setupForArchivalNode() { nodeConfig, chanPeer := node.initNodeConfiguration(false, false) // Register peer discovery service. node.serviceManager.RegisterService(service.PeerDiscovery, discovery.New(node.host, nodeConfig, chanPeer, node.AddBeaconPeer)) // Register networkinfo service. "0" is the beacon shard ID node.serviceManager.RegisterService(service.NetworkInfo, networkinfo.New(node.host, p2p.GroupIDBeacon, chanPeer, nil)) //TODO: Add Syncing as a service. } // ServiceManagerSetup setups service store. func (node *Node) ServiceManagerSetup() { node.serviceManager = &service.Manager{} node.serviceMessageChan = make(map[service.Type]chan *msg_pb.Message) switch node.NodeConfig.Role() { case nodeconfig.ShardLeader: node.setupForShardLeader() case nodeconfig.ShardValidator: node.setupForShardValidator() case nodeconfig.BeaconLeader: node.setupForBeaconLeader() case nodeconfig.BeaconValidator: node.setupForBeaconValidator() case nodeconfig.NewNode: node.setupForNewNode() case nodeconfig.ClientNode: node.setupForClientNode() case nodeconfig.ArchivalNode: node.setupForArchivalNode() } node.serviceManager.SetupServiceMessageChan(node.serviceMessageChan) } // RunServices runs registered services. func (node *Node) RunServices() { if node.serviceManager == nil { utils.GetLogInstance().Info("Service manager is not set up yet.") return } node.serviceManager.RunServices() } // StopServices runs registered services. func (node *Node) StopServices() { if node.serviceManager == nil { utils.GetLogInstance().Info("Service manager is not set up yet.") return } node.serviceManager.StopServicesByRole([]service.Type{}) }