package node import ( "fmt" "os" "testing" "time" "github.com/harmony-one/harmony/crypto" "github.com/harmony-one/harmony/crypto/pki" "github.com/harmony-one/harmony/consensus" "github.com/harmony-one/harmony/p2p" proto_node "github.com/harmony-one/harmony/proto/node" ) func TestNewNewNode(test *testing.T) { leader := p2p.Peer{IP: "1", Port: "2"} validator := p2p.Peer{IP: "3", Port: "5"} consensus := consensus.NewConsensus("1", "2", "0", []p2p.Peer{leader, validator}, leader) node := New(consensus, nil) if node.Consensus == nil { test.Error("Consensus is not initialized for the node") } if node.blockchain == nil { test.Error("Blockchain is not initialized for the node") } if len(node.blockchain.Blocks) != 1 { test.Error("Genesis block is not initialized for the node") } if len(node.blockchain.Blocks[0].Transactions) != 1 { test.Error("Coinbase TX is not initialized for the node") } if node.UtxoPool == nil { test.Error("Utxo pool is not initialized for the node") } } func TestCountNumTransactionsInBlockchain(test *testing.T) { leader := p2p.Peer{IP: "1", Port: "2"} validator := p2p.Peer{IP: "3", Port: "5"} consensus := consensus.NewConsensus("1", "2", "0", []p2p.Peer{leader, validator}, leader) node := New(consensus, nil) node.AddTestingAddresses(1000) if node.countNumTransactionsInBlockchain() != 1001 { test.Error("Count of transactions in the blockchain is incorrect") } } func TestAddPeers(test *testing.T) { priKey1 := crypto.Ed25519Curve.Scalar().SetInt64(int64(333)) pubKey1 := pki.GetPublicKeyFromScalar(priKey1) priKey2 := crypto.Ed25519Curve.Scalar().SetInt64(int64(999)) pubKey2 := pki.GetPublicKeyFromScalar(priKey2) peers1 := []p2p.Peer{ { IP: "127.0.0.1", Port: "8888", PubKey: pubKey1, Ready: true, ValidatorID: 1, }, { IP: "127.0.0.1", Port: "9999", PubKey: pubKey2, Ready: false, ValidatorID: 2, }, } leader := p2p.Peer{IP: "1", Port: "2"} validator := p2p.Peer{IP: "3", Port: "5"} consensus := consensus.NewConsensus("1", "2", "0", []p2p.Peer{leader, validator}, leader) node := New(consensus, nil) r1 := node.AddPeers(peers1) e1 := 2 if r1 != e1 { test.Errorf("Add %v peers, expectd %v", r1, e1) } r2 := node.AddPeers(peers1) e2 := 0 if r2 != e2 { test.Errorf("Add %v peers, expectd %v", r2, e2) } } func sendPingMessage(leader p2p.Peer) { priKey1 := crypto.Ed25519Curve.Scalar().SetInt64(int64(333)) pubKey1 := pki.GetPublicKeyFromScalar(priKey1) p1 := p2p.Peer{ IP: "127.0.0.1", Port: "9999", PubKey: pubKey1, } ping1 := proto_node.NewPingMessage(p1) buf1 := ping1.ConstructPingMessage() fmt.Println("waiting for 5 seconds ...") time.Sleep(5 * time.Second) p2p.SendMessage(leader, buf1) fmt.Println("sent ping message ...") } func sendPongMessage(leader p2p.Peer) { priKey1 := crypto.Ed25519Curve.Scalar().SetInt64(int64(333)) pubKey1 := pki.GetPublicKeyFromScalar(priKey1) p1 := p2p.Peer{ IP: "127.0.0.1", Port: "9998", PubKey: pubKey1, } priKey2 := crypto.Ed25519Curve.Scalar().SetInt64(int64(999)) pubKey2 := pki.GetPublicKeyFromScalar(priKey2) p2 := p2p.Peer{ IP: "127.0.0.1", Port: "9999", PubKey: pubKey2, } pong1 := proto_node.NewPongMessage([]p2p.Peer{p1, p2}, nil) buf1 := pong1.ConstructPongMessage() fmt.Println("waiting for 10 seconds ...") time.Sleep(10 * time.Second) p2p.SendMessage(leader, buf1) fmt.Println("sent pong message ...") } func exitServer() { fmt.Println("wait 15 seconds to terminate the process ...") time.Sleep(15 * time.Second) os.Exit(0) } func TestPingPongHandler(test *testing.T) { leader := p2p.Peer{IP: "127.0.0.1", Port: "8881"} validator := p2p.Peer{IP: "127.0.0.1", Port: "9991"} consensus := consensus.NewConsensus("127.0.0.1", "8881", "0", []p2p.Peer{leader, validator}, leader) node := New(consensus, nil) // go sendPingMessage(leader) go sendPongMessage(leader) go exitServer() node.StartServer("8881") }