package identitychain import ( "fmt" "net" "os" "sync" "github.com/simple-rules/harmony-benchmark/log" "github.com/simple-rules/harmony-benchmark/p2p" "github.com/simple-rules/harmony-benchmark/waitnode" ) var mutex sync.Mutex var identityPerBlock = 100000 // IdentityChain (Blockchain) keeps Identities per epoch, currently centralized! type IdentityChain struct { Identities []*IdentityBlock PendingIdentities []*waitnode.WaitNode log log.Logger Peer p2p.Peer SelectedIdentitites []*waitnode.WaitNode EpochNum int PeerToShardMap map[p2p.Peer]int ShardLeaderMap map[int]p2p.Peer PubKey string CurrentEpochStartTime int64 NumberOfShards int NumberOfNodesInShard int } func seekRandomNumber(EpochNum int, SelectedIdentitites []*waitnode.WaitNode) int { return 10 } //GlobalBlockchainConfig stores global level blockchain configurations. type GlobalBlockchainConfig struct { NumberOfShards int EpochTimeSecs int16 MaxNodesInShard int } //Shard func (IDC *IdentityChain) Shard() { num := seekRandomNumber(IDC.EpochNum, IDC.SelectedIdentitites) fmt.Println(num) } // SelectIds func (IDC *IdentityChain) SelectIds() { selectNumber := IDC.NumberOfNodesInShard - len(IDC.Identities) IB := IDC.GetLatestBlock() currentIDS := IB.GetIdentities() pending := IDC.PendingIdentities[:selectNumber] IDC.SelectedIdentitites = append(currentIDS, pending...) IDC.PendingIdentities = []*waitnode.WaitNode{} } //Checks how many new shards we need. Currently we say 0. func needNewShards() int { return 0 } // GetLatestBlock gests the latest block at the end of the chain func (IDC *IdentityChain) GetLatestBlock() *IdentityBlock { if len(IDC.Identities) == 0 { return nil } return IDC.Identities[len(IDC.Identities)-1] } //UpdateIdentityChain is to create the Blocks to be added to the chain func (IDC *IdentityChain) UpdateIdentityChain() { //If there are no more Identities registring the blockchain is dead if len(IDC.PendingIdentities) == 0 { // This is abd, because previous block might not be alive return } if len(IDC.Identities) == 0 { block := NewGenesisBlock() IDC.Identities = append(IDC.Identities, block) } else { prevBlock := IDC.GetLatestBlock() prevBlockHash := prevBlock.CalculateBlockHash() NewIdentities := IDC.PendingIdentities[:identityPerBlock] IDC.PendingIdentities = []*waitnode.WaitNode{} //All other blocks are dropped, we need to inform them that they are dropped? IDBlock := NewBlock(NewIdentities, prevBlockHash) IDC.Identities = append(IDC.Identities, IDBlock) } } //StartServer a server and process the request by a handler. func (IDC *IdentityChain) StartServer() { fmt.Println("Starting server...") IDC.log.Info("Starting IDC server...") //log.Info does nothing for me! (ak) IDC.listenOnPort() } func (IDC *IdentityChain) listenOnPort() { listen, err := net.Listen("tcp4", ":"+IDC.Peer.Port) if err != nil { IDC.log.Crit("Socket listen port failed") os.Exit(1) } else { fmt.Println("Starting server...now listening") IDC.log.Info("Identity chain is now listening ..") //log.Info does nothing for me! (ak) remove this } defer listen.Close() for { conn, err := listen.Accept() if err != nil { IDC.log.Crit("Error listening on port. Exiting", IDC.Peer.Port) continue } else { fmt.Println("I am accepting connections now") } go IDC.IdentityChainHandler(conn) } } // New Create a new Node func New(Peer p2p.Peer) *IdentityChain { IDC := IdentityChain{} IDC.Peer = Peer IDC.log = log.New() return &IDC }