package shardingconfig import ( "fmt" "math/big" "github.com/harmony-one/harmony/internal/params" "github.com/harmony-one/harmony/numeric" "github.com/harmony-one/harmony/internal/genesis" ) // LocalnetSchedule is the local testnet sharding // configuration schedule. var LocalnetSchedule localnetSchedule // privatekey: 0x1111111111111111111111111111111111111111111111111111111111111111 var feeCollectorLocalnet = mustAddress("0x19E7E376E7C213B7E7e7e46cc70A5dD086DAff2A") type localnetSchedule struct{} const ( localnetV1Epoch = 1 localnetEpochBlock1 = 5 localnetBlocksPerEpoch = 64 localnetBlocksPerEpochV2 = 64 localnetVdfDifficulty = 5000 // This takes about 10s to finish the vdf ) func (ls localnetSchedule) InstanceForEpoch(epoch *big.Int) Instance { switch { case params.LocalnetChainConfig.IsFeeCollectEpoch(epoch): return localnetV3_2 case params.LocalnetChainConfig.IsSixtyPercent(epoch): return localnetV3_1 case params.LocalnetChainConfig.IsTwoSeconds(epoch): return localnetV3 case params.LocalnetChainConfig.IsStaking(epoch): return localnetV2 case epoch.Cmp(big.NewInt(localnetV1Epoch)) >= 0: return localnetV1 default: // genesis return localnetV0 } } func (ls localnetSchedule) BlocksPerEpochOld() uint64 { return localnetBlocksPerEpoch } func (ls localnetSchedule) BlocksPerEpoch() uint64 { return localnetBlocksPerEpochV2 } func (ls localnetSchedule) twoSecondsFirstBlock() uint64 { if params.LocalnetChainConfig.TwoSecondsEpoch.Uint64() == 0 { return 0 } return (params.LocalnetChainConfig.TwoSecondsEpoch.Uint64()-1)*ls.BlocksPerEpochOld() + localnetEpochBlock1 } func (ls localnetSchedule) CalcEpochNumber(blockNum uint64) *big.Int { firstBlock2s := ls.twoSecondsFirstBlock() switch { case blockNum < localnetEpochBlock1: return big.NewInt(0) case blockNum < firstBlock2s: return big.NewInt(int64((blockNum-localnetEpochBlock1)/ls.BlocksPerEpochOld() + 1)) default: extra := uint64(0) if firstBlock2s == 0 { blockNum -= localnetEpochBlock1 extra = 1 } return big.NewInt(int64(extra + (blockNum-firstBlock2s)/ls.BlocksPerEpoch() + params.LocalnetChainConfig.TwoSecondsEpoch.Uint64())) } } func (ls localnetSchedule) IsLastBlock(blockNum uint64) bool { switch { case blockNum < localnetEpochBlock1-1: return false case blockNum == localnetEpochBlock1-1: return true default: firstBlock2s := ls.twoSecondsFirstBlock() switch { case blockNum >= firstBlock2s: if firstBlock2s == 0 { blockNum -= localnetEpochBlock1 } return ((blockNum-firstBlock2s)%ls.BlocksPerEpoch() == ls.BlocksPerEpoch()-1) default: // genesis blocks := ls.BlocksPerEpochOld() return ((blockNum-localnetEpochBlock1)%blocks == blocks-1) } } } func (ls localnetSchedule) EpochLastBlock(epochNum uint64) uint64 { switch { case epochNum == 0: return localnetEpochBlock1 - 1 default: switch { case params.LocalnetChainConfig.IsTwoSeconds(big.NewInt(int64(epochNum))): blocks := ls.BlocksPerEpoch() firstBlock2s := ls.twoSecondsFirstBlock() block2s := (1 + epochNum - params.LocalnetChainConfig.TwoSecondsEpoch.Uint64()) * blocks if firstBlock2s == 0 { return block2s - blocks + localnetEpochBlock1 - 1 } return firstBlock2s + block2s - 1 default: // genesis blocks := ls.BlocksPerEpochOld() return localnetEpochBlock1 + blocks*epochNum - 1 } } } func (ls localnetSchedule) VdfDifficulty() int { return localnetVdfDifficulty } func (ls localnetSchedule) GetNetworkID() NetworkID { return LocalNet } // GetShardingStructure is the sharding structure for localnet. func (ls localnetSchedule) GetShardingStructure(numShard, shardID int) []map[string]interface{} { res := []map[string]interface{}{} for i := 0; i < numShard; i++ { res = append(res, map[string]interface{}{ "current": int(shardID) == i, "shardID": i, "http": fmt.Sprintf("http://127.0.0.1:%d", 9500+2*i), "ws": fmt.Sprintf("ws://127.0.0.1:%d", 9800+2*i), }) } return res } // IsSkippedEpoch returns if an epoch was skipped on shard due to staking epoch func (ls localnetSchedule) IsSkippedEpoch(shardID uint32, epoch *big.Int) bool { return false } var ( localnetReshardingEpoch = []*big.Int{ big.NewInt(0), big.NewInt(localnetV1Epoch), params.LocalnetChainConfig.StakingEpoch, params.LocalnetChainConfig.TwoSecondsEpoch, } // Number of shards, how many slots on each , how many slots owned by Harmony localnetV0 = MustNewInstance(2, 7, 5, 0, numeric.OneDec(), genesis.LocalHarmonyAccounts, genesis.LocalFnAccounts, emptyAllowlist, emptyAddress, localnetReshardingEpoch, LocalnetSchedule.BlocksPerEpochOld()) localnetV1 = MustNewInstance(2, 8, 5, 0, numeric.OneDec(), genesis.LocalHarmonyAccountsV1, genesis.LocalFnAccountsV1, emptyAllowlist, emptyAddress, localnetReshardingEpoch, LocalnetSchedule.BlocksPerEpochOld()) localnetV2 = MustNewInstance(2, 9, 6, 0, numeric.MustNewDecFromStr("0.68"), genesis.LocalHarmonyAccountsV2, genesis.LocalFnAccountsV2, emptyAllowlist, emptyAddress, localnetReshardingEpoch, LocalnetSchedule.BlocksPerEpochOld()) localnetV3 = MustNewInstance(2, 9, 6, 0, numeric.MustNewDecFromStr("0.68"), genesis.LocalHarmonyAccountsV2, genesis.LocalFnAccountsV2, emptyAllowlist, emptyAddress, localnetReshardingEpoch, LocalnetSchedule.BlocksPerEpoch()) localnetV3_1 = MustNewInstance(2, 9, 6, 0, numeric.MustNewDecFromStr("0.68"), genesis.LocalHarmonyAccountsV2, genesis.LocalFnAccountsV2, emptyAllowlist, emptyAddress, localnetReshardingEpoch, LocalnetSchedule.BlocksPerEpoch()) localnetV3_2 = MustNewInstance(2, 9, 6, 0, numeric.MustNewDecFromStr("0.68"), genesis.LocalHarmonyAccountsV2, genesis.LocalFnAccountsV2, emptyAllowlist, feeCollectorLocalnet, localnetReshardingEpoch, LocalnetSchedule.BlocksPerEpoch()) )