package node import ( "crypto/ecdsa" "errors" "math/big" "math/rand" "strings" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/ethdb" blockfactory "github.com/harmony-one/harmony/block/factory" "github.com/harmony-one/harmony/common/denominations" "github.com/harmony-one/harmony/core" common2 "github.com/harmony-one/harmony/internal/common" nodeconfig "github.com/harmony-one/harmony/internal/configs/node" "github.com/harmony-one/harmony/internal/genesis" "github.com/harmony-one/harmony/internal/params" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/shard" "github.com/harmony-one/harmony/shard/committee" ) const ( // GenesisFund is the initial total fund in the genesis block for mainnet. GenesisFund = 12600000000 // TestAccountNumber is the number of test accounts for testnet/devnet/ TestAccountNumber = 100 // ContractDeployerInitFund is the initial fund for the contract deployer account in testnet/devnet. ContractDeployerInitFund = 100000000 // InitFreeFund is the initial fund for permissioned accounts for testnet/devnet/ InitFreeFund = 100 ) // genesisInitializer is a shardchain.DBInitializer adapter. type genesisInitializer struct { node *Node } // InitChainDB sets up a new genesis block in the database for the given shard. func (gi *genesisInitializer) InitChainDB(db ethdb.Database, shardID uint32) error { shardState, _ := committee.WithStakingEnabled.Compute( big.NewInt(core.GenesisEpoch), gi.node.chainConfig, nil, ) if shardID != shard.BeaconChainShardID { // store only the local shard for shard chains c := shardState.FindCommitteeByID(shardID) if c == nil { return errors.New("cannot find local shard in genesis") } shardState = shard.State{*c} } gi.node.SetupGenesisBlock(db, shardID, shardState) return nil } // SetupGenesisBlock sets up a genesis blockchain. func (node *Node) SetupGenesisBlock(db ethdb.Database, shardID uint32, myShardState shard.State) { utils.Logger().Info().Interface("shardID", shardID).Msg("setting up a brand new chain database") if shardID == node.NodeConfig.ShardID { node.isFirstTime = true } // Initialize genesis block and blockchain genesisAlloc := make(core.GenesisAlloc) chainConfig := *params.TestnetChainConfig switch node.NodeConfig.GetNetworkType() { case nodeconfig.Mainnet: chainConfig = *params.MainnetChainConfig if shardID == 0 { foundationAddress := common.HexToAddress("0xE25ABC3f7C3d5fB7FB81EAFd421FF1621A61107c") genesisFunds := big.NewInt(GenesisFund) genesisFunds = genesisFunds.Mul(genesisFunds, big.NewInt(denominations.One)) genesisAlloc[foundationAddress] = core.GenesisAccount{Balance: genesisFunds} } case nodeconfig.Pangaea: chainConfig = *params.PangaeaChainConfig fallthrough // the rest is the same as testnet default: // all other types share testnet config // Test accounts node.AddTestingAddresses(genesisAlloc, TestAccountNumber) // Smart contract deployer account used to deploy initial smart contract contractDeployerKey, _ := ecdsa.GenerateKey(crypto.S256(), strings.NewReader("Test contract key string stream that is fixed so that generated test key are deterministic every time")) contractDeployerAddress := crypto.PubkeyToAddress(contractDeployerKey.PublicKey) contractDeployerFunds := big.NewInt(ContractDeployerInitFund) contractDeployerFunds = contractDeployerFunds.Mul(contractDeployerFunds, big.NewInt(denominations.One)) genesisAlloc[contractDeployerAddress] = core.GenesisAccount{Balance: contractDeployerFunds} node.ContractDeployerKey = contractDeployerKey } gspec := core.Genesis{ Config: &chainConfig, Factory: blockfactory.NewFactory(&chainConfig), Alloc: genesisAlloc, ShardID: shardID, GasLimit: params.GenesisGasLimit, ShardStateHash: myShardState.Hash(), ShardState: myShardState.DeepCopy(), Timestamp: 1561734000, // GMT: Friday, June 28, 2019 3:00:00 PM. PST: Friday, June 28, 2019 8:00:00 AM ExtraData: []byte("Harmony for One and All. Open Consensus for 10B."), } // Store genesis block into db. gspec.MustCommit(db) } // CreateTestBankKeys deterministically generates testing addresses. func CreateTestBankKeys(numAddresses int) (keys []*ecdsa.PrivateKey, err error) { rand.Seed(0) bytes := make([]byte, 1000000) for i := range bytes { bytes[i] = byte(rand.Intn(100)) } reader := strings.NewReader(string(bytes)) for i := 0; i < numAddresses; i++ { key, err := ecdsa.GenerateKey(crypto.S256(), reader) if err != nil { return nil, err } keys = append(keys, key) } return keys, nil } // AddTestingAddresses create the genesis block allocation that contains deterministically // generated testing addresses with tokens. func (node *Node) AddTestingAddresses(gAlloc core.GenesisAlloc, numAddress int) { for _, testBankKey := range node.TestBankKeys { testBankAddress := crypto.PubkeyToAddress(testBankKey.PublicKey) testBankFunds := big.NewInt(InitFreeFund) testBankFunds = testBankFunds.Mul(testBankFunds, big.NewInt(denominations.One)) gAlloc[testBankAddress] = core.GenesisAccount{Balance: testBankFunds} } } // AddNodeAddressesToGenesisAlloc adds to the genesis block allocation the accounts used for network validators/nodes, // including the account used by the nodes of the initial beacon chain and later new nodes. func AddNodeAddressesToGenesisAlloc(genesisAlloc core.GenesisAlloc) { for _, account := range genesis.HarmonyAccounts { testBankFunds := big.NewInt(InitFreeFund) testBankFunds = testBankFunds.Mul(testBankFunds, big.NewInt(denominations.One)) address := common2.ParseAddr(account.Address) genesisAlloc[address] = core.GenesisAccount{Balance: testBankFunds} } }