diff options
-rw-r--r-- | consensus/dexcon/fake_dexcon.go | 4 | ||||
-rw-r--r-- | core/chain_makers.go | 4 | ||||
-rw-r--r-- | core/dexon_chain_makers.go | 4 | ||||
-rw-r--r-- | core/vm/evm/governance.go | 2198 | ||||
-rw-r--r-- | core/vm/evm/governance_abi.go | 1133 | ||||
-rw-r--r-- | core/vm/evm/governance_test.go | 1061 | ||||
-rw-r--r-- | core/vm/evm/oracle.go (renamed from core/vm/oracle.go) | 7 | ||||
-rw-r--r-- | core/vm/evm/oracle_contract_abi.go (renamed from core/vm/oracle_contract_abi.go) | 2 | ||||
-rw-r--r-- | core/vm/evm/oracle_contracts.go (renamed from core/vm/oracle_contracts.go) | 17 | ||||
-rw-r--r-- | core/vm/evm/oracle_contracts_test.go (renamed from core/vm/oracle_contracts_test.go) | 13 |
10 files changed, 27 insertions, 4416 deletions
diff --git a/consensus/dexcon/fake_dexcon.go b/consensus/dexcon/fake_dexcon.go index 430d9bc6b..befda7514 100644 --- a/consensus/dexcon/fake_dexcon.go +++ b/consensus/dexcon/fake_dexcon.go @@ -16,7 +16,7 @@ import ( "github.com/dexon-foundation/dexon/common" "github.com/dexon-foundation/dexon/consensus" "github.com/dexon-foundation/dexon/core/types" - "github.com/dexon-foundation/dexon/core/vm" + "github.com/dexon-foundation/dexon/core/vm/evm" "github.com/dexon-foundation/dexon/crypto" "github.com/dexon-foundation/dexon/rlp" ) @@ -140,7 +140,7 @@ func (n *Node) DKGFinalize(round uint64) *coreTypesDKG.Finalize { func (n *Node) CreateGovTx(nonce uint64, data []byte) *types.Transaction { tx, err := types.SignTx(types.NewTransaction( nonce, - vm.GovernanceContractAddress, + evm.GovernanceContractAddress, big.NewInt(0), uint64(2000000), big.NewInt(1e10), diff --git a/core/chain_makers.go b/core/chain_makers.go index f57eb37ff..50a537964 100644 --- a/core/chain_makers.go +++ b/core/chain_makers.go @@ -27,7 +27,7 @@ import ( "github.com/dexon-foundation/dexon/consensus/misc" "github.com/dexon-foundation/dexon/core/state" "github.com/dexon-foundation/dexon/core/types" - "github.com/dexon-foundation/dexon/core/vm" + "github.com/dexon-foundation/dexon/core/vm/evm" "github.com/dexon-foundation/dexon/ethdb" "github.com/dexon-foundation/dexon/params" ) @@ -103,7 +103,7 @@ func (b *BlockGen) AddTxWithChain(bc *BlockChain, tx *types.Transaction) { b.SetCoinbase(common.Address{}) } b.statedb.Prepare(tx.Hash(), common.Hash{}, len(b.txs)) - receipt, _, err := ApplyTransaction(b.config, bc, &b.header.Coinbase, b.gasPool, b.statedb, b.header, tx, &b.header.GasUsed, vm.Config{}) + receipt, _, err := ApplyTransaction(b.config, bc, &b.header.Coinbase, b.gasPool, b.statedb, b.header, tx, &b.header.GasUsed, evm.Config{}) if err != nil { panic(err) } diff --git a/core/dexon_chain_makers.go b/core/dexon_chain_makers.go index 010b30c84..6901a8bc2 100644 --- a/core/dexon_chain_makers.go +++ b/core/dexon_chain_makers.go @@ -28,7 +28,7 @@ import ( "github.com/dexon-foundation/dexon/consensus" "github.com/dexon-foundation/dexon/core/state" "github.com/dexon-foundation/dexon/core/types" - "github.com/dexon-foundation/dexon/core/vm" + "github.com/dexon-foundation/dexon/core/vm/evm" "github.com/dexon-foundation/dexon/ethdb" "github.com/dexon-foundation/dexon/params" "github.com/dexon-foundation/dexon/rlp" @@ -110,7 +110,7 @@ func (b *DexonBlockGen) ProcessTransactions(c ChainContext) { for _, tx := range b.txs { b.statedb.Prepare(tx.Hash(), common.Hash{}, len(b.txs)) // TODO: fix the chain context parameter - receipt, _, err := ApplyTransaction(b.config, c, &b.header.Coinbase, b.gasPool, b.statedb, b.header, tx, &b.header.GasUsed, vm.Config{}) + receipt, _, err := ApplyTransaction(b.config, c, &b.header.Coinbase, b.gasPool, b.statedb, b.header, tx, &b.header.GasUsed, evm.Config{}) if err != nil { panic(err) } diff --git a/core/vm/evm/governance.go b/core/vm/evm/governance.go deleted file mode 100644 index 18e733342..000000000 --- a/core/vm/evm/governance.go +++ /dev/null @@ -1,2198 +0,0 @@ -// Copyright 2018 The dexon-consensus Authors -// This file is part of the dexon-consensus library. -// -// The dexon-consensus library is free software: you can redistribute it -// and/or modify it under the terms of the GNU Lesser General Public License as -// published by the Free Software Foundation, either version 3 of the License, -// or (at your option) any later version. -// -// The dexon-consensus library is distributed in the hope that it will be -// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of -// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser -// General Public License for more details. -// -// You should have received a copy of the GNU Lesser General Public License -// along with the dexon-consensus library. If not, see -// <http://www.gnu.org/licenses/>. - -package evm - -import ( - "bytes" - "errors" - "math/big" - "sort" - "strings" - - "github.com/dexon-foundation/dexon/accounts/abi" - "github.com/dexon-foundation/dexon/common" - "github.com/dexon-foundation/dexon/core/types" - "github.com/dexon-foundation/dexon/crypto" - "github.com/dexon-foundation/dexon/params" - "github.com/dexon-foundation/dexon/rlp" - - coreCommon "github.com/dexon-foundation/dexon-consensus/common" - "github.com/dexon-foundation/dexon-consensus/core" - coreCrypto "github.com/dexon-foundation/dexon-consensus/core/crypto" - coreUtils "github.com/dexon-foundation/dexon-consensus/core/utils" - "github.com/dexon-foundation/dexon/core/vm" - - "github.com/dexon-foundation/dexon-consensus/core/crypto/ecdsa" - coreTypes "github.com/dexon-foundation/dexon-consensus/core/types" - dkgTypes "github.com/dexon-foundation/dexon-consensus/core/types/dkg" -) - -var GovernanceContractAddress = common.HexToAddress("63751838d6485578b23e8b051d40861ecc416794") - -var abiObject abi.ABI -var GovernanceContractName2Method map[string]abi.Method -var sig2Method map[string]abi.Method -var events map[string]abi.Event - -type Bytes32 [32]byte - -type ReportType uint64 - -const ( - ReportTypeInvalidDKG = iota - ReportTypeForkVote - ReportTypeForkBlock -) - -func init() { - var err error - - // Parse governance contract ABI. - abiObject, err = abi.JSON(strings.NewReader(GovernanceABIJSON)) - if err != nil { - panic(err) - } - - sig2Method = make(map[string]abi.Method) - GovernanceContractName2Method = make(map[string]abi.Method) - - // Construct dispatch table. - for _, method := range abiObject.Methods { - sig2Method[string(method.Id())] = method - GovernanceContractName2Method[method.Name] = method - } - - events = make(map[string]abi.Event) - - // Event cache. - for _, event := range abiObject.Events { - events[event.Name] = event - } -} - -// RunGovernanceContract executes governance contract. -func RunGovernanceContract(evm *EVM, input []byte, contract *vm.Contract) (ret []byte, err error) { - if len(input) < 4 { - return nil, nil - } - - // Parse input. - method, exists := sig2Method[string(input[:4])] - if !exists { - return nil, errExecutionReverted - } - - // Dispatch method call. - g := newGovernanceContract(evm, contract) - arguments := input[4:] - - switch method.Name { - case "addDKGComplaint": - args := struct { - Round *big.Int - Complaint []byte - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.addDKGComplaint(args.Round, args.Complaint) - case "addDKGMasterPublicKey": - args := struct { - Round *big.Int - PublicKey []byte - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.addDKGMasterPublicKey(args.Round, args.PublicKey) - case "addDKGMPKReady": - args := struct { - Round *big.Int - MPKReady []byte - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.addDKGMPKReady(args.Round, args.MPKReady) - case "addDKGFinalize": - args := struct { - Round *big.Int - Finalize []byte - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.addDKGFinalize(args.Round, args.Finalize) - case "delegate": - address := common.Address{} - if err := method.Inputs.Unpack(&address, arguments); err != nil { - return nil, errExecutionReverted - } - return g.delegate(address) - case "delegatorsLength": - address := common.Address{} - if err := method.Inputs.Unpack(&address, arguments); err != nil { - return nil, errExecutionReverted - } - res, err := method.Outputs.Pack(g.state.LenDelegators(address)) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "nodesLength": - res, err := method.Outputs.Pack(g.state.LenNodes()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "payFine": - address := common.Address{} - if err := method.Inputs.Unpack(&address, arguments); err != nil { - return nil, errExecutionReverted - } - return g.payFine(address) - case "proposeCRS": - args := struct { - Round *big.Int - SignedCRS []byte - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.proposeCRS(args.Round, args.SignedCRS) - case "report": - args := struct { - Type *big.Int - Arg1 []byte - Arg2 []byte - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.report(args.Type, args.Arg1, args.Arg2) - case "stake": - args := struct { - PublicKey []byte - Name string - Email string - Location string - Url string - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.stake(args.PublicKey, args.Name, args.Email, args.Location, args.Url) - case "snapshotRound": - args := struct { - Round *big.Int - Height *big.Int - }{} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - return g.snapshotRound(args.Round, args.Height) - case "transferOwnership": - var newOwner common.Address - if err := method.Inputs.Unpack(&newOwner, arguments); err != nil { - return nil, errExecutionReverted - } - return g.transferOwnership(newOwner) - case "undelegate": - address := common.Address{} - if err := method.Inputs.Unpack(&address, arguments); err != nil { - return nil, errExecutionReverted - } - return g.undelegate(address) - case "unstake": - return g.unstake() - case "updateConfiguration": - var cfg rawConfigStruct - if err := method.Inputs.Unpack(&cfg, arguments); err != nil { - return nil, errExecutionReverted - } - return g.updateConfiguration(&cfg) - case "withdraw": - address := common.Address{} - if err := method.Inputs.Unpack(&address, arguments); err != nil { - return nil, errExecutionReverted - } - return g.withdraw(address) - - // -------------------------------- - // Solidity auto generated methods. - // -------------------------------- - - case "blockGasLimit": - res, err := method.Outputs.Pack(g.state.BlockGasLimit()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "crs": - round := new(big.Int) - if err := method.Inputs.Unpack(&round, arguments); err != nil { - return nil, errExecutionReverted - } - res, err := method.Outputs.Pack(g.state.CRS(round)) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "delegators": - nodeAddr, index := common.Address{}, new(big.Int) - args := []interface{}{&nodeAddr, &index} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - delegator := g.state.Delegator(nodeAddr, index) - res, err := method.Outputs.Pack(delegator.Owner, delegator.Value, delegator.UndelegatedAt) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "delegatorsOffset": - nodeAddr, delegatorAddr := common.Address{}, common.Address{} - args := []interface{}{&nodeAddr, &delegatorAddr} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - res, err := method.Outputs.Pack(g.state.DelegatorsOffset(nodeAddr, delegatorAddr)) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "dkgComplaints": - round, index := new(big.Int), new(big.Int) - args := []interface{}{&round, &index} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - complaints := g.state.DKGComplaints(round) - if int(index.Uint64()) >= len(complaints) { - return nil, errExecutionReverted - } - complaint := complaints[index.Uint64()] - res, err := method.Outputs.Pack(complaint) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "dkgReadys": - round, addr := new(big.Int), common.Address{} - args := []interface{}{&round, &addr} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - ready := g.state.DKGMPKReady(round, addr) - res, err := method.Outputs.Pack(ready) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "dkgReadysCount": - round := new(big.Int) - if err := method.Inputs.Unpack(&round, arguments); err != nil { - return nil, errExecutionReverted - } - count := g.state.DKGMPKReadysCount(round) - res, err := method.Outputs.Pack(count) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - - case "dkgFinalizeds": - round, addr := new(big.Int), common.Address{} - args := []interface{}{&round, &addr} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - finalized := g.state.DKGFinalized(round, addr) - res, err := method.Outputs.Pack(finalized) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "dkgFinalizedsCount": - round := new(big.Int) - if err := method.Inputs.Unpack(&round, arguments); err != nil { - return nil, errExecutionReverted - } - count := g.state.DKGFinalizedsCount(round) - res, err := method.Outputs.Pack(count) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "dkgMasterPublicKeys": - round, index := new(big.Int), new(big.Int) - args := []interface{}{&round, &index} - if err := method.Inputs.Unpack(&args, arguments); err != nil { - return nil, errExecutionReverted - } - mpks := g.state.DKGMasterPublicKeys(round) - if int(index.Uint64()) >= len(mpks) { - return nil, errExecutionReverted - } - mpk := mpks[index.Uint64()] - res, err := method.Outputs.Pack(mpk) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "dkgSetSize": - res, err := method.Outputs.Pack(g.state.DKGSetSize()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "finedRecords": - record := Bytes32{} - if err := method.Inputs.Unpack(&record, arguments); err != nil { - return nil, errExecutionReverted - } - value := g.state.FineRecords(record) - res, err := method.Outputs.Pack(value) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "fineValues": - index := new(big.Int) - if err := method.Inputs.Unpack(&index, arguments); err != nil { - return nil, errExecutionReverted - } - value := g.state.FineValue(index) - res, err := method.Outputs.Pack(value) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "k": - res, err := method.Outputs.Pack(g.state.K()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "lambdaBA": - res, err := method.Outputs.Pack(g.state.LambdaBA()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "lambdaDKG": - res, err := method.Outputs.Pack(g.state.LambdaDKG()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "lastHalvedAmount": - res, err := method.Outputs.Pack(g.state.LastHalvedAmount()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "lockupPeriod": - res, err := method.Outputs.Pack(g.state.LockupPeriod()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "minBlockInterval": - res, err := method.Outputs.Pack(g.state.MinBlockInterval()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "miningVelocity": - res, err := method.Outputs.Pack(g.state.MiningVelocity()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "minStake": - res, err := method.Outputs.Pack(g.state.MinStake()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "nextHalvingSupply": - res, err := method.Outputs.Pack(g.state.NextHalvingSupply()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "numChains": - res, err := method.Outputs.Pack(g.state.NumChains()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "nodes": - index := new(big.Int) - if err := method.Inputs.Unpack(&index, arguments); err != nil { - return nil, errExecutionReverted - } - info := g.state.Node(index) - res, err := method.Outputs.Pack( - info.Owner, info.PublicKey, info.Staked, info.Fined, - info.Name, info.Email, info.Location, info.Url) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "nodesOffsetByAddress": - address := common.Address{} - if err := method.Inputs.Unpack(&address, arguments); err != nil { - return nil, errExecutionReverted - } - res, err := method.Outputs.Pack(g.state.NodesOffsetByAddress(address)) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "nodesOffsetByID": - var id Bytes32 - if err := method.Inputs.Unpack(&id, arguments); err != nil { - return nil, errExecutionReverted - } - res, err := method.Outputs.Pack(g.state.NodesOffsetByID(id)) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "notarySetSize": - res, err := method.Outputs.Pack(g.state.NotarySetSize()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "owner": - res, err := method.Outputs.Pack(g.state.Owner()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "phiRatio": - res, err := method.Outputs.Pack(g.state.PhiRatio()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "roundHeight": - round := new(big.Int) - if err := method.Inputs.Unpack(&round, arguments); err != nil { - return nil, errExecutionReverted - } - res, err := method.Outputs.Pack(g.state.RoundHeight(round)) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "roundInterval": - res, err := method.Outputs.Pack(g.state.RoundInterval()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "totalStaked": - res, err := method.Outputs.Pack(g.state.TotalStaked()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - case "totalSupply": - res, err := method.Outputs.Pack(g.state.TotalSupply()) - if err != nil { - return nil, errExecutionReverted - } - return res, nil - } - return nil, errExecutionReverted -} - -// Storage position enums. -const ( - roundHeightLoc = iota - totalSupplyLoc - totalStakedLoc - nodesLoc - nodesOffsetByAddressLoc - nodesOffsetByIDLoc - delegatorsLoc - delegatorsOffsetLoc - crsLoc - dkgMasterPublicKeysLoc - dkgComplaintsLoc - dkgReadyLoc - dkgReadysCountLoc - dkgFinalizedLoc - dkgFinalizedsCountLoc - ownerLoc - minStakeLoc - lockupPeriodLoc - miningVelocityLoc - nextHalvingSupplyLoc - lastHalvedAmountLoc - blockGasLimitLoc - numChainsLoc - lambdaBALoc - lambdaDKGLoc - kLoc - phiRatioLoc - notarySetSizeLoc - dkgSetSizeLoc - roundIntervalLoc - minBlockIntervalLoc - fineValuesLoc - finedRecordsLoc -) - -func publicKeyToNodeID(pkBytes []byte) (Bytes32, error) { - pk, err := crypto.UnmarshalPubkey(pkBytes) - if err != nil { - return Bytes32{}, err - } - id := Bytes32(coreTypes.NewNodeID(ecdsa.NewPublicKeyFromECDSA(pk)).Hash) - return id, nil -} - -// State manipulation helper fro the governance contract. -type GovernanceStateHelper struct { - StateDB vm.StateDB -} - -func (s *GovernanceStateHelper) getState(loc common.Hash) common.Hash { - return s.StateDB.GetState(GovernanceContractAddress, loc) -} - -func (s *GovernanceStateHelper) setState(loc common.Hash, val common.Hash) { - s.StateDB.SetState(GovernanceContractAddress, loc, val) -} - -func (s *GovernanceStateHelper) getStateBigInt(loc *big.Int) *big.Int { - res := s.StateDB.GetState(GovernanceContractAddress, common.BigToHash(loc)) - return new(big.Int).SetBytes(res.Bytes()) -} - -func (s *GovernanceStateHelper) setStateBigInt(loc *big.Int, val *big.Int) { - s.setState(common.BigToHash(loc), common.BigToHash(val)) -} - -func (s *GovernanceStateHelper) getSlotLoc(loc *big.Int) *big.Int { - return new(big.Int).SetBytes(crypto.Keccak256(common.BigToHash(loc).Bytes())) -} - -func (s *GovernanceStateHelper) getMapLoc(pos *big.Int, key []byte) *big.Int { - return new(big.Int).SetBytes(crypto.Keccak256(key, common.BigToHash(pos).Bytes())) -} - -func (s *GovernanceStateHelper) readBytes(loc *big.Int) []byte { - // Length of the dynamic array (bytes). - rawLength := s.getStateBigInt(loc) - lengthByte := new(big.Int).Mod(rawLength, big.NewInt(256)) - - // Bytes length <= 31, lengthByte % 2 == 0 - // return the high 31 bytes. - if new(big.Int).Mod(lengthByte, big.NewInt(2)).Cmp(big.NewInt(0)) == 0 { - length := new(big.Int).Div(lengthByte, big.NewInt(2)).Uint64() - return rawLength.Bytes()[:length] - } - - // Actual length = (rawLength - 1) / 2 - length := new(big.Int).Div(new(big.Int).Sub(rawLength, big.NewInt(1)), big.NewInt(2)).Uint64() - - // Data address. - dataLoc := s.getSlotLoc(loc) - - // Read continuously for length bytes. - carry := int64(0) - if length%32 > 0 { - carry = 1 - } - chunks := int64(length/32) + carry - var data []byte - for i := int64(0); i < chunks; i++ { - loc = new(big.Int).Add(dataLoc, big.NewInt(i)) - data = append(data, s.getState(common.BigToHash(loc)).Bytes()...) - } - data = data[:length] - return data -} - -func (s *GovernanceStateHelper) writeBytes(loc *big.Int, data []byte) { - length := int64(len(data)) - - if length == 0 { - s.setState(common.BigToHash(loc), common.Hash{}) - return - } - - // Short bytes (length <= 31). - if length < 32 { - data2 := append([]byte(nil), data...) - // Right pad with zeros - for len(data2) < 31 { - data2 = append(data2, byte(0)) - } - data2 = append(data2, byte(length*2)) - s.setState(common.BigToHash(loc), common.BytesToHash(data2)) - return - } - - // Write 2 * length + 1. - storedLength := new(big.Int).Add(new(big.Int).Mul( - big.NewInt(length), big.NewInt(2)), big.NewInt(1)) - s.setStateBigInt(loc, storedLength) - // Write data chunck. - dataLoc := s.getSlotLoc(loc) - carry := int64(0) - if length%32 > 0 { - carry = 1 - } - chunks := length/32 + carry - for i := int64(0); i < chunks; i++ { - loc = new(big.Int).Add(dataLoc, big.NewInt(i)) - maxLoc := (i + 1) * 32 - if maxLoc > length { - maxLoc = length - } - data2 := data[i*32 : maxLoc] - // Right pad with zeros. - for len(data2) < 32 { - data2 = append(data2, byte(0)) - } - s.setState(common.BigToHash(loc), common.BytesToHash(data2)) - } -} - -func (s *GovernanceStateHelper) read2DByteArray(pos, index *big.Int) [][]byte { - baseLoc := s.getSlotLoc(pos) - loc := new(big.Int).Add(baseLoc, index) - - arrayLength := s.getStateBigInt(loc) - dataLoc := s.getSlotLoc(loc) - - data := [][]byte{} - for i := int64(0); i < int64(arrayLength.Uint64()); i++ { - elementLoc := new(big.Int).Add(dataLoc, big.NewInt(i)) - data = append(data, s.readBytes(elementLoc)) - } - - return data -} -func (s *GovernanceStateHelper) appendTo2DByteArray(pos, index *big.Int, data []byte) { - // Find the loc of the last element. - baseLoc := s.getSlotLoc(pos) - loc := new(big.Int).Add(baseLoc, index) - - // Increase length by 1. - arrayLength := s.getStateBigInt(loc) - s.setStateBigInt(loc, new(big.Int).Add(arrayLength, big.NewInt(1))) - - // Write element. - dataLoc := s.getSlotLoc(loc) - elementLoc := new(big.Int).Add(dataLoc, arrayLength) - s.writeBytes(elementLoc, data) -} - -// uint256[] public roundHeight; -func (s *GovernanceStateHelper) LenRoundHeight() *big.Int { - return s.getStateBigInt(big.NewInt(roundHeightLoc)) -} -func (s *GovernanceStateHelper) RoundHeight(round *big.Int) *big.Int { - baseLoc := s.getSlotLoc(big.NewInt(roundHeightLoc)) - loc := new(big.Int).Add(baseLoc, round) - return s.getStateBigInt(loc) -} -func (s *GovernanceStateHelper) PushRoundHeight(height *big.Int) { - // Increase length by 1. - length := s.getStateBigInt(big.NewInt(roundHeightLoc)) - s.setStateBigInt(big.NewInt(roundHeightLoc), new(big.Int).Add(length, big.NewInt(1))) - - baseLoc := s.getSlotLoc(big.NewInt(roundHeightLoc)) - loc := new(big.Int).Add(baseLoc, length) - - s.setStateBigInt(loc, height) -} - -// uint256 public totalSupply; -func (s *GovernanceStateHelper) TotalSupply() *big.Int { - return s.getStateBigInt(big.NewInt(totalSupplyLoc)) -} -func (s *GovernanceStateHelper) IncTotalSupply(amount *big.Int) { - s.setStateBigInt(big.NewInt(totalSupplyLoc), new(big.Int).Add(s.TotalSupply(), amount)) -} -func (s *GovernanceStateHelper) DecTotalSupply(amount *big.Int) { - s.setStateBigInt(big.NewInt(totalSupplyLoc), new(big.Int).Sub(s.TotalSupply(), amount)) -} - -// uint256 public totalStaked; -func (s *GovernanceStateHelper) TotalStaked() *big.Int { - return s.getStateBigInt(big.NewInt(totalStakedLoc)) -} -func (s *GovernanceStateHelper) IncTotalStaked(amount *big.Int) { - s.setStateBigInt(big.NewInt(totalStakedLoc), new(big.Int).Add(s.TotalStaked(), amount)) -} -func (s *GovernanceStateHelper) DecTotalStaked(amount *big.Int) { - s.setStateBigInt(big.NewInt(totalStakedLoc), new(big.Int).Sub(s.TotalStaked(), amount)) -} - -// struct Node { -// address owner; -// bytes publicKey; -// uint256 staked; -// uint256 fined; -// string name; -// string email; -// string location; -// string url; -// } -// -// Node[] nodes; - -type nodeInfo struct { - Owner common.Address - PublicKey []byte - Staked *big.Int - Fined *big.Int - Name string - Email string - Location string - Url string -} - -const nodeStructSize = 8 - -func (s *GovernanceStateHelper) LenNodes() *big.Int { - return s.getStateBigInt(big.NewInt(nodesLoc)) -} -func (s *GovernanceStateHelper) Node(index *big.Int) *nodeInfo { - node := new(nodeInfo) - - arrayBaseLoc := s.getSlotLoc(big.NewInt(nodesLoc)) - elementBaseLoc := new(big.Int).Add(arrayBaseLoc, - new(big.Int).Mul(index, big.NewInt(nodeStructSize))) - - // Owner. - loc := elementBaseLoc - node.Owner = common.BytesToAddress(s.getState(common.BigToHash(elementBaseLoc)).Bytes()) - - // PublicKey. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(1)) - node.PublicKey = s.readBytes(loc) - - // Staked. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(2)) - node.Staked = s.getStateBigInt(loc) - - // Fined. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(3)) - node.Fined = s.getStateBigInt(loc) - - // Name. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(4)) - node.Name = string(s.readBytes(loc)) - - // Email. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(5)) - node.Email = string(s.readBytes(loc)) - - // Location. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(6)) - node.Location = string(s.readBytes(loc)) - - // Url. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(7)) - node.Url = string(s.readBytes(loc)) - - return node -} -func (s *GovernanceStateHelper) PushNode(n *nodeInfo) { - // Increase length by 1. - arrayLength := s.LenNodes() - s.setStateBigInt(big.NewInt(nodesLoc), new(big.Int).Add(arrayLength, big.NewInt(1))) - - s.UpdateNode(arrayLength, n) -} -func (s *GovernanceStateHelper) UpdateNode(index *big.Int, n *nodeInfo) { - arrayBaseLoc := s.getSlotLoc(big.NewInt(nodesLoc)) - elementBaseLoc := new(big.Int).Add(arrayBaseLoc, - new(big.Int).Mul(index, big.NewInt(nodeStructSize))) - - // Owner. - loc := elementBaseLoc - s.setState(common.BigToHash(loc), n.Owner.Hash()) - - // PublicKey. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(1)) - s.writeBytes(loc, n.PublicKey) - - // Staked. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(2)) - s.setStateBigInt(loc, n.Staked) - - // Fined. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(3)) - s.setStateBigInt(loc, n.Fined) - - // Name. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(4)) - s.writeBytes(loc, []byte(n.Name)) - - // Email. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(5)) - s.writeBytes(loc, []byte(n.Email)) - - // Location. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(6)) - s.writeBytes(loc, []byte(n.Location)) - - // Url. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(7)) - s.writeBytes(loc, []byte(n.Url)) -} -func (s *GovernanceStateHelper) PopLastNode() { - // Decrease length by 1. - arrayLength := s.LenNodes() - newArrayLength := new(big.Int).Sub(arrayLength, big.NewInt(1)) - s.setStateBigInt(big.NewInt(nodesLoc), newArrayLength) - - s.UpdateNode(newArrayLength, &nodeInfo{ - Staked: big.NewInt(0), - Fined: big.NewInt(0), - }) -} -func (s *GovernanceStateHelper) Nodes() []*nodeInfo { - var nodes []*nodeInfo - for i := int64(0); i < int64(s.LenNodes().Uint64()); i++ { - nodes = append(nodes, s.Node(big.NewInt(i))) - } - return nodes -} -func (s *GovernanceStateHelper) QualifiedNodes() []*nodeInfo { - var nodes []*nodeInfo - for i := int64(0); i < int64(s.LenNodes().Uint64()); i++ { - node := s.Node(big.NewInt(i)) - if new(big.Int).Sub(node.Staked, node.Fined).Cmp(s.MinStake()) >= 0 { - nodes = append(nodes, node) - } - } - return nodes -} - -// mapping(address => uint256) public nodeOffsetByAddress; -func (s *GovernanceStateHelper) NodesOffsetByAddress(addr common.Address) *big.Int { - loc := s.getMapLoc(big.NewInt(nodesOffsetByAddressLoc), addr.Bytes()) - return new(big.Int).Sub(s.getStateBigInt(loc), big.NewInt(1)) -} -func (s *GovernanceStateHelper) PutNodesOffsetByAddress(addr common.Address, offset *big.Int) { - loc := s.getMapLoc(big.NewInt(nodesOffsetByAddressLoc), addr.Bytes()) - s.setStateBigInt(loc, new(big.Int).Add(offset, big.NewInt(1))) -} -func (s *GovernanceStateHelper) DeleteNodesOffsetByAddress(addr common.Address) { - loc := s.getMapLoc(big.NewInt(nodesOffsetByAddressLoc), addr.Bytes()) - s.setStateBigInt(loc, big.NewInt(0)) -} - -// mapping(address => uint256) public nodeOffsetByID; -func (s *GovernanceStateHelper) NodesOffsetByID(id Bytes32) *big.Int { - loc := s.getMapLoc(big.NewInt(nodesOffsetByIDLoc), id[:]) - return new(big.Int).Sub(s.getStateBigInt(loc), big.NewInt(1)) -} -func (s *GovernanceStateHelper) PutNodesOffsetByID(id Bytes32, offset *big.Int) { - loc := s.getMapLoc(big.NewInt(nodesOffsetByIDLoc), id[:]) - s.setStateBigInt(loc, new(big.Int).Add(offset, big.NewInt(1))) -} -func (s *GovernanceStateHelper) DeleteNodesOffsetByID(id Bytes32) { - loc := s.getMapLoc(big.NewInt(nodesOffsetByIDLoc), id[:]) - s.setStateBigInt(loc, big.NewInt(0)) -} - -func (s *GovernanceStateHelper) PutNodeOffsets(n *nodeInfo, offset *big.Int) error { - id, err := publicKeyToNodeID(n.PublicKey) - if err != nil { - return err - } - s.PutNodesOffsetByID(id, offset) - s.PutNodesOffsetByAddress(n.Owner, offset) - return nil -} - -// struct Delegator { -// address node; -// address owner; -// uint256 value; -// uint256 undelegated_at; -// } - -type delegatorInfo struct { - Owner common.Address - Value *big.Int - UndelegatedAt *big.Int -} - -const delegatorStructSize = 3 - -// mapping(address => Delegator[]) public delegators; -func (s *GovernanceStateHelper) LenDelegators(nodeAddr common.Address) *big.Int { - loc := s.getMapLoc(big.NewInt(delegatorsLoc), nodeAddr.Bytes()) - return s.getStateBigInt(loc) -} -func (s *GovernanceStateHelper) Delegator(nodeAddr common.Address, offset *big.Int) *delegatorInfo { - delegator := new(delegatorInfo) - - loc := s.getMapLoc(big.NewInt(delegatorsLoc), nodeAddr.Bytes()) - arrayBaseLoc := s.getSlotLoc(loc) - elementBaseLoc := new(big.Int).Add(arrayBaseLoc, new(big.Int).Mul(big.NewInt(delegatorStructSize), offset)) - - // Owner. - loc = elementBaseLoc - delegator.Owner = common.BytesToAddress(s.getState(common.BigToHash(elementBaseLoc)).Bytes()) - - // Value. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(1)) - delegator.Value = s.getStateBigInt(loc) - - // UndelegatedAt. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(2)) - delegator.UndelegatedAt = s.getStateBigInt(loc) - - return delegator -} -func (s *GovernanceStateHelper) PushDelegator(nodeAddr common.Address, delegator *delegatorInfo) { - // Increase length by 1. - arrayLength := s.LenDelegators(nodeAddr) - loc := s.getMapLoc(big.NewInt(delegatorsLoc), nodeAddr.Bytes()) - s.setStateBigInt(loc, new(big.Int).Add(arrayLength, big.NewInt(1))) - - s.UpdateDelegator(nodeAddr, arrayLength, delegator) -} -func (s *GovernanceStateHelper) UpdateDelegator(nodeAddr common.Address, offset *big.Int, delegator *delegatorInfo) { - loc := s.getMapLoc(big.NewInt(delegatorsLoc), nodeAddr.Bytes()) - arrayBaseLoc := s.getSlotLoc(loc) - elementBaseLoc := new(big.Int).Add(arrayBaseLoc, new(big.Int).Mul(big.NewInt(delegatorStructSize), offset)) - - // Owner. - loc = elementBaseLoc - s.setState(common.BigToHash(loc), delegator.Owner.Hash()) - - // Value. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(1)) - s.setStateBigInt(loc, delegator.Value) - - // UndelegatedAt. - loc = new(big.Int).Add(elementBaseLoc, big.NewInt(2)) - s.setStateBigInt(loc, delegator.UndelegatedAt) -} -func (s *GovernanceStateHelper) PopLastDelegator(nodeAddr common.Address) { - // Decrease length by 1. - arrayLength := s.LenDelegators(nodeAddr) - newArrayLength := new(big.Int).Sub(arrayLength, big.NewInt(1)) - loc := s.getMapLoc(big.NewInt(delegatorsLoc), nodeAddr.Bytes()) - s.setStateBigInt(loc, newArrayLength) - - s.UpdateDelegator(nodeAddr, newArrayLength, &delegatorInfo{ - Value: big.NewInt(0), - UndelegatedAt: big.NewInt(0), - }) -} - -// mapping(address => mapping(address => uint256)) delegatorsOffset; -func (s *GovernanceStateHelper) DelegatorsOffset(nodeAddr, delegatorAddr common.Address) *big.Int { - loc := s.getMapLoc(s.getMapLoc(big.NewInt(delegatorsOffsetLoc), nodeAddr.Bytes()), delegatorAddr.Bytes()) - return new(big.Int).Sub(s.getStateBigInt(loc), big.NewInt(1)) -} -func (s *GovernanceStateHelper) PutDelegatorOffset(nodeAddr, delegatorAddr common.Address, offset *big.Int) { - loc := s.getMapLoc(s.getMapLoc(big.NewInt(delegatorsOffsetLoc), nodeAddr.Bytes()), delegatorAddr.Bytes()) - s.setStateBigInt(loc, new(big.Int).Add(offset, big.NewInt(1))) -} -func (s *GovernanceStateHelper) DeleteDelegatorsOffset(nodeAddr, delegatorAddr common.Address) { - loc := s.getMapLoc(s.getMapLoc(big.NewInt(delegatorsOffsetLoc), nodeAddr.Bytes()), delegatorAddr.Bytes()) - s.setStateBigInt(loc, big.NewInt(0)) -} - -// bytes32[] public crs; -func (s *GovernanceStateHelper) LenCRS() *big.Int { - return s.getStateBigInt(big.NewInt(crsLoc)) -} -func (s *GovernanceStateHelper) CRS(index *big.Int) common.Hash { - baseLoc := s.getSlotLoc(big.NewInt(crsLoc)) - loc := new(big.Int).Add(baseLoc, index) - return s.getState(common.BigToHash(loc)) -} -func (s *GovernanceStateHelper) CurrentCRS() common.Hash { - return s.CRS(new(big.Int).Sub(s.LenCRS(), big.NewInt(1))) -} -func (s *GovernanceStateHelper) PushCRS(crs common.Hash) { - // increase length by 1. - length := s.getStateBigInt(big.NewInt(crsLoc)) - s.setStateBigInt(big.NewInt(crsLoc), new(big.Int).Add(length, big.NewInt(1))) - - baseLoc := s.getSlotLoc(big.NewInt(crsLoc)) - loc := new(big.Int).Add(baseLoc, length) - - s.setState(common.BigToHash(loc), crs) -} -func (s *GovernanceStateHelper) Round() *big.Int { - return new(big.Int).Sub(s.getStateBigInt(big.NewInt(crsLoc)), big.NewInt(1)) -} - -// bytes[][] public dkgMasterPublicKeys; -func (s *GovernanceStateHelper) DKGMasterPublicKeys(round *big.Int) [][]byte { - return s.read2DByteArray(big.NewInt(dkgMasterPublicKeysLoc), round) -} -func (s *GovernanceStateHelper) PushDKGMasterPublicKey(round *big.Int, mpk []byte) { - s.appendTo2DByteArray(big.NewInt(dkgMasterPublicKeysLoc), round, mpk) -} -func (s *GovernanceStateHelper) UniqueDKGMasterPublicKeys(round *big.Int) []*dkgTypes.MasterPublicKey { - // Prepare DKGMasterPublicKeys. - var dkgMasterPKs []*dkgTypes.MasterPublicKey - existence := make(map[coreTypes.NodeID]struct{}) - for _, mpk := range s.DKGMasterPublicKeys(round) { - x := new(dkgTypes.MasterPublicKey) - if err := rlp.DecodeBytes(mpk, x); err != nil { - panic(err) - } - - // Only the first DKG MPK submission is valid. - if _, exists := existence[x.ProposerID]; exists { - continue - } - existence[x.ProposerID] = struct{}{} - dkgMasterPKs = append(dkgMasterPKs, x) - } - return dkgMasterPKs -} -func (s *GovernanceStateHelper) GetDKGMasterPublicKeyByProposerID( - round *big.Int, proposerID coreTypes.NodeID) (*dkgTypes.MasterPublicKey, error) { - - for _, mpk := range s.DKGMasterPublicKeys(round) { - x := new(dkgTypes.MasterPublicKey) - if err := rlp.DecodeBytes(mpk, x); err != nil { - panic(err) - } - if x.ProposerID.Equal(proposerID) { - return x, nil - } - } - return nil, errors.New("not found") -} - -// bytes[][] public dkgComplaints; -func (s *GovernanceStateHelper) DKGComplaints(round *big.Int) [][]byte { - return s.read2DByteArray(big.NewInt(dkgComplaintsLoc), round) -} -func (s *GovernanceStateHelper) PushDKGComplaint(round *big.Int, complaint []byte) { - s.appendTo2DByteArray(big.NewInt(dkgComplaintsLoc), round, complaint) -} - -// mapping(address => bool)[] public dkgReady; -func (s *GovernanceStateHelper) DKGMPKReady(round *big.Int, addr common.Address) bool { - baseLoc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgReadyLoc)), round) - mapLoc := s.getMapLoc(baseLoc, addr.Bytes()) - return s.getStateBigInt(mapLoc).Cmp(big.NewInt(0)) != 0 -} -func (s *GovernanceStateHelper) PutDKGMPKReady(round *big.Int, addr common.Address, ready bool) { - baseLoc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgReadyLoc)), round) - mapLoc := s.getMapLoc(baseLoc, addr.Bytes()) - res := big.NewInt(0) - if ready { - res = big.NewInt(1) - } - s.setStateBigInt(mapLoc, res) -} - -// uint256[] public dkgReadysCount; -func (s *GovernanceStateHelper) DKGMPKReadysCount(round *big.Int) *big.Int { - loc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgReadysCountLoc)), round) - return s.getStateBigInt(loc) -} -func (s *GovernanceStateHelper) IncDKGMPKReadysCount(round *big.Int) { - loc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgReadysCountLoc)), round) - count := s.getStateBigInt(loc) - s.setStateBigInt(loc, new(big.Int).Add(count, big.NewInt(1))) -} - -// mapping(address => bool)[] public dkgFinalized; -func (s *GovernanceStateHelper) DKGFinalized(round *big.Int, addr common.Address) bool { - baseLoc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgFinalizedLoc)), round) - mapLoc := s.getMapLoc(baseLoc, addr.Bytes()) - return s.getStateBigInt(mapLoc).Cmp(big.NewInt(0)) != 0 -} -func (s *GovernanceStateHelper) PutDKGFinalized(round *big.Int, addr common.Address, finalized bool) { - baseLoc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgFinalizedLoc)), round) - mapLoc := s.getMapLoc(baseLoc, addr.Bytes()) - res := big.NewInt(0) - if finalized { - res = big.NewInt(1) - } - s.setStateBigInt(mapLoc, res) -} - -// uint256[] public dkgFinalizedsCount; -func (s *GovernanceStateHelper) DKGFinalizedsCount(round *big.Int) *big.Int { - loc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgFinalizedsCountLoc)), round) - return s.getStateBigInt(loc) -} -func (s *GovernanceStateHelper) IncDKGFinalizedsCount(round *big.Int) { - loc := new(big.Int).Add(s.getSlotLoc(big.NewInt(dkgFinalizedsCountLoc)), round) - count := s.getStateBigInt(loc) - s.setStateBigInt(loc, new(big.Int).Add(count, big.NewInt(1))) -} - -// address public owner; -func (s *GovernanceStateHelper) Owner() common.Address { - val := s.getState(common.BigToHash(big.NewInt(ownerLoc))) - return common.BytesToAddress(val.Bytes()) -} -func (s *GovernanceStateHelper) SetOwner(newOwner common.Address) { - s.setState(common.BigToHash(big.NewInt(ownerLoc)), newOwner.Hash()) -} - -// uint256 public minStake; -func (s *GovernanceStateHelper) MinStake() *big.Int { - return s.getStateBigInt(big.NewInt(minStakeLoc)) -} - -// uint256 public lockupPeriod; -func (s *GovernanceStateHelper) LockupPeriod() *big.Int { - return s.getStateBigInt(big.NewInt(lockupPeriodLoc)) -} - -// uint256 public miningVelocity; -func (s *GovernanceStateHelper) MiningVelocity() *big.Int { - return s.getStateBigInt(big.NewInt(miningVelocityLoc)) -} -func (s *GovernanceStateHelper) HalfMiningVelocity() { - s.setStateBigInt(big.NewInt(miningVelocityLoc), - new(big.Int).Div(s.MiningVelocity(), big.NewInt(2))) -} - -// uint256 public nextHalvingSupply; -func (s *GovernanceStateHelper) NextHalvingSupply() *big.Int { - return s.getStateBigInt(big.NewInt(nextHalvingSupplyLoc)) -} -func (s *GovernanceStateHelper) IncNextHalvingSupply(amount *big.Int) { - s.setStateBigInt(big.NewInt(nextHalvingSupplyLoc), - new(big.Int).Add(s.NextHalvingSupply(), amount)) -} - -// uint256 public lastHalvedAmount; -func (s *GovernanceStateHelper) LastHalvedAmount() *big.Int { - return s.getStateBigInt(big.NewInt(lastHalvedAmountLoc)) -} -func (s *GovernanceStateHelper) HalfLastHalvedAmount() { - s.setStateBigInt(big.NewInt(lastHalvedAmountLoc), - new(big.Int).Div(s.LastHalvedAmount(), big.NewInt(2))) -} - -func (s *GovernanceStateHelper) MiningHalved() { - s.HalfMiningVelocity() - s.HalfLastHalvedAmount() - s.IncNextHalvingSupply(s.LastHalvedAmount()) -} - -// uint256 public blockGasLimit; -func (s *GovernanceStateHelper) BlockGasLimit() *big.Int { - return s.getStateBigInt(big.NewInt(blockGasLimitLoc)) -} -func (s *GovernanceStateHelper) SetBlockGasLimit(reward *big.Int) { - s.setStateBigInt(big.NewInt(blockGasLimitLoc), reward) -} - -// uint256 public numChains; -func (s *GovernanceStateHelper) NumChains() *big.Int { - return s.getStateBigInt(big.NewInt(numChainsLoc)) -} - -// uint256 public lambdaBA; -func (s *GovernanceStateHelper) LambdaBA() *big.Int { - return s.getStateBigInt(big.NewInt(lambdaBALoc)) -} - -// uint256 public lambdaDKG; -func (s *GovernanceStateHelper) LambdaDKG() *big.Int { - return s.getStateBigInt(big.NewInt(lambdaDKGLoc)) -} - -// uint256 public k; -func (s *GovernanceStateHelper) K() *big.Int { - return s.getStateBigInt(big.NewInt(kLoc)) -} - -// uint256 public phiRatio; // stored as PhiRatio * 10^6 -func (s *GovernanceStateHelper) PhiRatio() *big.Int { - return s.getStateBigInt(big.NewInt(phiRatioLoc)) -} - -// uint256 public notarySetSize; -func (s *GovernanceStateHelper) NotarySetSize() *big.Int { - return s.getStateBigInt(big.NewInt(notarySetSizeLoc)) -} - -// uint256 public dkgSetSize; -func (s *GovernanceStateHelper) DKGSetSize() *big.Int { - return s.getStateBigInt(big.NewInt(dkgSetSizeLoc)) -} - -// uint256 public roundInterval; -func (s *GovernanceStateHelper) RoundInterval() *big.Int { - return s.getStateBigInt(big.NewInt(roundIntervalLoc)) -} - -// uint256 public minBlockInterval; -func (s *GovernanceStateHelper) MinBlockInterval() *big.Int { - return s.getStateBigInt(big.NewInt(minBlockIntervalLoc)) -} - -// uint256[] public fineValues; -func (s *GovernanceStateHelper) FineValue(index *big.Int) *big.Int { - arrayBaseLoc := s.getSlotLoc(big.NewInt(fineValuesLoc)) - return s.getStateBigInt(new(big.Int).Add(arrayBaseLoc, index)) -} -func (s *GovernanceStateHelper) FineValues() []*big.Int { - len := s.getStateBigInt(big.NewInt(fineValuesLoc)) - result := make([]*big.Int, len.Uint64()) - for i := 0; i < int(len.Uint64()); i++ { - result[i] = s.FineValue(big.NewInt(int64(i))) - } - return result -} -func (s *GovernanceStateHelper) SetFineValues(values []*big.Int) { - s.setStateBigInt(big.NewInt(fineValuesLoc), big.NewInt(int64(len(values)))) - - arrayBaseLoc := s.getSlotLoc(big.NewInt(fineValuesLoc)) - for i, v := range values { - s.setStateBigInt(new(big.Int).Add(arrayBaseLoc, big.NewInt(int64(i))), v) - } -} - -// uint256[] public fineRdecords; -func (s *GovernanceStateHelper) FineRecords(recordHash Bytes32) bool { - loc := s.getMapLoc(big.NewInt(finedRecordsLoc), recordHash[:]) - return s.getStateBigInt(loc).Cmp(big.NewInt(0)) > 0 -} -func (s *GovernanceStateHelper) SetFineRecords(recordHash Bytes32, status bool) { - loc := s.getMapLoc(big.NewInt(finedRecordsLoc), recordHash[:]) - value := int64(0) - if status { - value = int64(1) - } - s.setStateBigInt(loc, big.NewInt(value)) -} - -// Stake is a helper function for creating genesis state. -func (s *GovernanceStateHelper) Stake( - addr common.Address, publicKey []byte, staked *big.Int, - name, email, location, url string) { - offset := s.LenNodes() - node := &nodeInfo{ - Owner: addr, - PublicKey: publicKey, - Staked: staked, - Fined: big.NewInt(0), - Name: name, - Email: email, - Location: location, - Url: url, - } - s.PushNode(node) - if err := s.PutNodeOffsets(node, offset); err != nil { - panic(err) - } - - if staked.Cmp(big.NewInt(0)) == 0 { - return - } - - offset = s.LenDelegators(addr) - s.PushDelegator(addr, &delegatorInfo{ - Owner: addr, - Value: staked, - UndelegatedAt: big.NewInt(0), - }) - s.PutDelegatorOffset(addr, addr, offset) - - // Add to network total staked. - s.IncTotalStaked(staked) -} - -const decimalMultiplier = 100000000.0 - -// Configuration returns the current configuration. -func (s *GovernanceStateHelper) Configuration() *params.DexconConfig { - return ¶ms.DexconConfig{ - MinStake: s.getStateBigInt(big.NewInt(minStakeLoc)), - LockupPeriod: s.getStateBigInt(big.NewInt(lockupPeriodLoc)).Uint64(), - MiningVelocity: float32(s.getStateBigInt(big.NewInt(miningVelocityLoc)).Uint64()) / decimalMultiplier, - NextHalvingSupply: s.getStateBigInt(big.NewInt(nextHalvingSupplyLoc)), - LastHalvedAmount: s.getStateBigInt(big.NewInt(lastHalvedAmountLoc)), - BlockGasLimit: s.getStateBigInt(big.NewInt(blockGasLimitLoc)).Uint64(), - NumChains: uint32(s.getStateBigInt(big.NewInt(numChainsLoc)).Uint64()), - LambdaBA: s.getStateBigInt(big.NewInt(lambdaBALoc)).Uint64(), - LambdaDKG: s.getStateBigInt(big.NewInt(lambdaDKGLoc)).Uint64(), - K: uint32(s.getStateBigInt(big.NewInt(kLoc)).Uint64()), - PhiRatio: float32(s.getStateBigInt(big.NewInt(phiRatioLoc)).Uint64()) / decimalMultiplier, - NotarySetSize: uint32(s.getStateBigInt(big.NewInt(notarySetSizeLoc)).Uint64()), - DKGSetSize: uint32(s.getStateBigInt(big.NewInt(dkgSetSizeLoc)).Uint64()), - RoundInterval: s.getStateBigInt(big.NewInt(roundIntervalLoc)).Uint64(), - MinBlockInterval: s.getStateBigInt(big.NewInt(minBlockIntervalLoc)).Uint64(), - FineValues: s.FineValues(), - } -} - -// UpdateConfiguration updates system configuration. -func (s *GovernanceStateHelper) UpdateConfiguration(cfg *params.DexconConfig) { - s.setStateBigInt(big.NewInt(minStakeLoc), cfg.MinStake) - s.setStateBigInt(big.NewInt(lockupPeriodLoc), big.NewInt(int64(cfg.LockupPeriod))) - s.setStateBigInt(big.NewInt(miningVelocityLoc), big.NewInt(int64(cfg.MiningVelocity*decimalMultiplier))) - s.setStateBigInt(big.NewInt(nextHalvingSupplyLoc), cfg.NextHalvingSupply) - s.setStateBigInt(big.NewInt(lastHalvedAmountLoc), cfg.LastHalvedAmount) - s.setStateBigInt(big.NewInt(blockGasLimitLoc), big.NewInt(int64(cfg.BlockGasLimit))) - s.setStateBigInt(big.NewInt(numChainsLoc), big.NewInt(int64(cfg.NumChains))) - s.setStateBigInt(big.NewInt(lambdaBALoc), big.NewInt(int64(cfg.LambdaBA))) - s.setStateBigInt(big.NewInt(lambdaDKGLoc), big.NewInt(int64(cfg.LambdaDKG))) - s.setStateBigInt(big.NewInt(kLoc), big.NewInt(int64(cfg.K))) - s.setStateBigInt(big.NewInt(phiRatioLoc), big.NewInt(int64(cfg.PhiRatio*decimalMultiplier))) - s.setStateBigInt(big.NewInt(notarySetSizeLoc), big.NewInt(int64(cfg.NotarySetSize))) - s.setStateBigInt(big.NewInt(dkgSetSizeLoc), big.NewInt(int64(cfg.DKGSetSize))) - s.setStateBigInt(big.NewInt(roundIntervalLoc), big.NewInt(int64(cfg.RoundInterval))) - s.setStateBigInt(big.NewInt(minBlockIntervalLoc), big.NewInt(int64(cfg.MinBlockInterval))) - s.SetFineValues(cfg.FineValues) -} - -type rawConfigStruct struct { - MinStake *big.Int - LockupPeriod *big.Int - MiningVelocity *big.Int - BlockGasLimit *big.Int - NumChains *big.Int - LambdaBA *big.Int - LambdaDKG *big.Int - K *big.Int - PhiRatio *big.Int - NotarySetSize *big.Int - DKGSetSize *big.Int - RoundInterval *big.Int - MinBlockInterval *big.Int - FineValues []*big.Int -} - -// UpdateConfigurationRaw updates system configuration. -func (s *GovernanceStateHelper) UpdateConfigurationRaw(cfg *rawConfigStruct) { - s.setStateBigInt(big.NewInt(minStakeLoc), cfg.MinStake) - s.setStateBigInt(big.NewInt(lockupPeriodLoc), cfg.LockupPeriod) - s.setStateBigInt(big.NewInt(miningVelocityLoc), cfg.MiningVelocity) - s.setStateBigInt(big.NewInt(blockGasLimitLoc), cfg.BlockGasLimit) - s.setStateBigInt(big.NewInt(numChainsLoc), cfg.NumChains) - s.setStateBigInt(big.NewInt(lambdaBALoc), cfg.LambdaBA) - s.setStateBigInt(big.NewInt(lambdaDKGLoc), cfg.LambdaDKG) - s.setStateBigInt(big.NewInt(kLoc), cfg.K) - s.setStateBigInt(big.NewInt(phiRatioLoc), cfg.PhiRatio) - s.setStateBigInt(big.NewInt(notarySetSizeLoc), cfg.NotarySetSize) - s.setStateBigInt(big.NewInt(dkgSetSizeLoc), cfg.DKGSetSize) - s.setStateBigInt(big.NewInt(roundIntervalLoc), cfg.RoundInterval) - s.setStateBigInt(big.NewInt(minBlockIntervalLoc), cfg.MinBlockInterval) - s.SetFineValues(cfg.FineValues) -} - -// event ConfigurationChanged(); -func (s *GovernanceStateHelper) emitConfigurationChangedEvent() { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["ConfigurationChanged"].Id()}, - Data: []byte{}, - }) -} - -// event CRSProposed(uint256 round, bytes32 crs); -func (s *GovernanceStateHelper) emitCRSProposed(round *big.Int, crs common.Hash) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["CRSProposed"].Id(), common.BigToHash(round)}, - Data: crs.Bytes(), - }) -} - -// event Staked(address indexed NodeAddress, uint256 Amount); -func (s *GovernanceStateHelper) emitStaked(nodeAddr common.Address) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["Staked"].Id(), nodeAddr.Hash()}, - Data: []byte{}, - }) -} - -// event Unstaked(address indexed NodeAddress); -func (s *GovernanceStateHelper) emitUnstaked(nodeAddr common.Address) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["Unstaked"].Id(), nodeAddr.Hash()}, - Data: []byte{}, - }) -} - -// event Delegated(address indexed NodeAddress, address indexed DelegatorAddress, uint256 Amount); -func (s *GovernanceStateHelper) emitDelegated(nodeAddr, delegatorAddr common.Address, amount *big.Int) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["Delegated"].Id(), nodeAddr.Hash(), delegatorAddr.Hash()}, - Data: common.BigToHash(amount).Bytes(), - }) -} - -// event Undelegated(address indexed NodeAddress, address indexed DelegatorAddress); -func (s *GovernanceStateHelper) emitUndelegated(nodeAddr, delegatorAddr common.Address) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["Undelegated"].Id(), nodeAddr.Hash(), delegatorAddr.Hash()}, - Data: []byte{}, - }) -} - -// event Withdrawn(address indexed NodeAddress, uint256 Amount); -func (s *GovernanceStateHelper) emitWithdrawn(nodeAddr common.Address, amount *big.Int) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["Withdrawn"].Id(), nodeAddr.Hash()}, - Data: common.BigToHash(amount).Bytes(), - }) -} - -// event ForkReported(address indexed NodeAddress, address indexed Type, bytes Arg1, bytes Arg2); -func (s *GovernanceStateHelper) emitForkReported(nodeAddr common.Address, reportType *big.Int, arg1, arg2 []byte) { - - t, err := abi.NewType("bytes") - if err != nil { - panic(err) - } - - arg := abi.Arguments{ - abi.Argument{ - Name: "Arg1", - Type: t, - Indexed: false, - }, - abi.Argument{ - Name: "Arg2", - Type: t, - Indexed: false, - }, - } - - data, err := arg.Pack(arg1, arg2) - if err != nil { - panic(err) - } - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["ForkReported"].Id(), nodeAddr.Hash()}, - Data: data, - }) -} - -// event Fined(address indexed NodeAddress, uint256 Amount); -func (s *GovernanceStateHelper) emitFined(nodeAddr common.Address, amount *big.Int) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["Fined"].Id(), nodeAddr.Hash()}, - Data: common.BigToHash(amount).Bytes(), - }) -} - -// event FinePaid(address indexed NodeAddress, uint256 Amount); -func (s *GovernanceStateHelper) emitFinePaid(nodeAddr common.Address, amount *big.Int) { - s.StateDB.AddLog(&types.Log{ - Address: GovernanceContractAddress, - Topics: []common.Hash{events["FinePaid"].Id(), nodeAddr.Hash()}, - Data: common.BigToHash(amount).Bytes(), - }) -} - -// GovernanceContract represents the governance contract of DEXCON. -type GovernanceContract struct { - evm *EVM - state GovernanceStateHelper - contract *vm.Contract -} - -func newGovernanceContract(evm *EVM, contract *vm.Contract) *GovernanceContract { - return &GovernanceContract{ - evm: evm, - state: GovernanceStateHelper{evm.StateDB}, - contract: contract, - } -} - -func (g *GovernanceContract) Address() common.Address { - return GovernanceContractAddress -} - -func (g *GovernanceContract) transfer(from, to common.Address, amount *big.Int) bool { - // TODO(w): add this to debug trace so it shows up as internal transaction. - if g.evm.CanTransfer(g.evm.StateDB, from, amount) { - g.evm.Transfer(g.evm.StateDB, from, to, amount) - return true - } - return false -} - -func (g *GovernanceContract) useGas(gas uint64) ([]byte, error) { - if !g.contract.UseGas(gas) { - return nil, vm.ErrOutOfGas - } - return nil, nil -} - -func (g *GovernanceContract) penalize() ([]byte, error) { - g.useGas(g.contract.Gas) - return nil, errExecutionReverted -} - -func (g *GovernanceContract) inDKGSet(round *big.Int, nodeID coreTypes.NodeID) bool { - target := coreTypes.NewDKGSetTarget(coreCommon.Hash(g.state.CurrentCRS())) - ns := coreTypes.NewNodeSet() - - configRound := big.NewInt(0) // If round < core.ConfigRoundShift, use 0. - if round.Uint64() >= core.ConfigRoundShift { - configRound = new(big.Int).Sub(round, big.NewInt(int64(core.ConfigRoundShift))) - } - - statedb, err := g.evm.StateAtNumber(g.state.RoundHeight(configRound).Uint64()) - if err != nil { - panic(err) - } - - state := GovernanceStateHelper{statedb} - for _, x := range state.QualifiedNodes() { - mpk, err := ecdsa.NewPublicKeyFromByteSlice(x.PublicKey) - if err != nil { - panic(err) - } - ns.Add(coreTypes.NewNodeID(mpk)) - } - - dkgSet := ns.GetSubSet(int(g.state.DKGSetSize().Uint64()), target) - _, ok := dkgSet[nodeID] - return ok -} - -func (g *GovernanceContract) addDKGComplaint(round *big.Int, comp []byte) ([]byte, error) { - if round.Cmp(g.state.Round()) != 0 { - return g.penalize() - } - - caller := g.contract.Caller() - - // Finalized caller is not allowed to propose complaint. - if g.state.DKGFinalized(round, caller) { - return g.penalize() - } - - // Calculate 2f - threshold := new(big.Int).Mul( - big.NewInt(2), - new(big.Int).Div(g.state.DKGSetSize(), big.NewInt(3))) - - // If 2f + 1 of DKG set is finalized, one can not propose complaint anymore. - if g.state.DKGFinalizedsCount(round).Cmp(threshold) > 0 { - return nil, errExecutionReverted - } - - var dkgComplaint dkgTypes.Complaint - if err := rlp.DecodeBytes(comp, &dkgComplaint); err != nil { - return g.penalize() - } - - // DKGComplaint must belongs to someone in DKG set. - if !g.inDKGSet(round, dkgComplaint.ProposerID) { - return g.penalize() - } - - verified, _ := coreUtils.VerifyDKGComplaintSignature(&dkgComplaint) - if !verified { - return g.penalize() - } - - mpk, err := g.state.GetDKGMasterPublicKeyByProposerID( - round, dkgComplaint.PrivateShare.ProposerID) - if err != nil { - return g.penalize() - } - - // Verify DKG complaint is correct. - ok, err := coreUtils.VerifyDKGComplaint(&dkgComplaint, mpk) - if !ok || err != nil { - return g.penalize() - } - - // Fine the attacker. - need, err := coreUtils.NeedPenaltyDKGPrivateShare(&dkgComplaint, mpk) - if err != nil { - return g.penalize() - } - if need { - fineValue := g.state.FineValue(big.NewInt(ReportTypeInvalidDKG)) - offset := g.state.NodesOffsetByID(Bytes32(dkgComplaint.PrivateShare.ProposerID.Hash)) - node := g.state.Node(offset) - if err := g.fine(node.Owner, fineValue, comp, nil); err != nil { - return g.penalize() - } - } - - g.state.PushDKGComplaint(round, comp) - - // Set this to relatively high to prevent spamming - return g.useGas(5000000) -} - -func (g *GovernanceContract) addDKGMasterPublicKey(round *big.Int, mpk []byte) ([]byte, error) { - // Can only add DKG master public key of current and next round. - if round.Cmp(new(big.Int).Add(g.state.Round(), big.NewInt(1))) > 0 { - return g.penalize() - } - - caller := g.contract.Caller() - offset := g.state.NodesOffsetByAddress(caller) - - // Can not add dkg mpk if not staked. - if offset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - // MPKReady caller is not allowed to propose mpk. - if g.state.DKGMPKReady(round, caller) { - return g.penalize() - } - - // Calculate 2f - threshold := new(big.Int).Mul( - big.NewInt(2), - new(big.Int).Div(g.state.DKGSetSize(), big.NewInt(3))) - - // If 2f + 1 of DKG set is mpk ready, one can not propose mpk anymore. - if g.state.DKGMPKReadysCount(round).Cmp(threshold) > 0 { - return nil, errExecutionReverted - } - - var dkgMasterPK dkgTypes.MasterPublicKey - if err := rlp.DecodeBytes(mpk, &dkgMasterPK); err != nil { - return g.penalize() - } - - // DKGMasterPublicKey must belongs to someone in DKG set. - if !g.inDKGSet(round, dkgMasterPK.ProposerID) { - return g.penalize() - } - - verified, _ := coreUtils.VerifyDKGMasterPublicKeySignature(&dkgMasterPK) - if !verified { - return g.penalize() - } - - g.state.PushDKGMasterPublicKey(round, mpk) - - return g.useGas(100000) -} - -func (g *GovernanceContract) addDKGMPKReady(round *big.Int, ready []byte) ([]byte, error) { - if round.Cmp(g.state.Round()) != 0 { - return g.penalize() - } - - caller := g.contract.Caller() - - var dkgReady dkgTypes.MPKReady - if err := rlp.DecodeBytes(ready, &dkgReady); err != nil { - return g.penalize() - } - - // DKGFInalize must belongs to someone in DKG set. - if !g.inDKGSet(round, dkgReady.ProposerID) { - return g.penalize() - } - - verified, _ := coreUtils.VerifyDKGMPKReadySignature(&dkgReady) - if !verified { - return g.penalize() - } - - if !g.state.DKGMPKReady(round, caller) { - g.state.PutDKGMPKReady(round, caller, true) - g.state.IncDKGMPKReadysCount(round) - } - - return g.useGas(100000) -} -func (g *GovernanceContract) addDKGFinalize(round *big.Int, finalize []byte) ([]byte, error) { - if round.Cmp(g.state.Round()) != 0 { - return g.penalize() - } - - caller := g.contract.Caller() - - var dkgFinalize dkgTypes.Finalize - if err := rlp.DecodeBytes(finalize, &dkgFinalize); err != nil { - return g.penalize() - } - - // DKGFInalize must belongs to someone in DKG set. - if !g.inDKGSet(round, dkgFinalize.ProposerID) { - return g.penalize() - } - - verified, _ := coreUtils.VerifyDKGFinalizeSignature(&dkgFinalize) - if !verified { - return g.penalize() - } - - if !g.state.DKGFinalized(round, caller) { - g.state.PutDKGFinalized(round, caller, true) - g.state.IncDKGFinalizedsCount(round) - } - - return g.useGas(100000) -} - -func (g *GovernanceContract) delegate(nodeAddr common.Address) ([]byte, error) { - offset := g.state.NodesOffsetByAddress(nodeAddr) - if offset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - caller := g.contract.Caller() - value := g.contract.Value - - // Can not delegate if no fund was sent. - if value.Cmp(big.NewInt(0)) == 0 { - return nil, errExecutionReverted - } - - // Can not delegate if already delegated. - delegatorOffset := g.state.DelegatorsOffset(nodeAddr, caller) - if delegatorOffset.Cmp(big.NewInt(0)) >= 0 { - return nil, errExecutionReverted - } - - // Add to the total staked of node. - node := g.state.Node(offset) - node.Staked = new(big.Int).Add(node.Staked, g.contract.Value) - g.state.UpdateNode(offset, node) - - // Add to network total staked. - g.state.IncTotalStaked(g.contract.Value) - - // Push delegator record. - offset = g.state.LenDelegators(nodeAddr) - g.state.PushDelegator(nodeAddr, &delegatorInfo{ - Owner: caller, - Value: value, - UndelegatedAt: big.NewInt(0), - }) - g.state.PutDelegatorOffset(nodeAddr, caller, offset) - g.state.emitDelegated(nodeAddr, caller, value) - - return g.useGas(200000) -} - -func (g *GovernanceContract) updateConfiguration(cfg *rawConfigStruct) ([]byte, error) { - // Only owner can update configuration. - if g.contract.Caller() != g.state.Owner() { - return nil, errExecutionReverted - } - - g.state.UpdateConfigurationRaw(cfg) - g.state.emitConfigurationChangedEvent() - return nil, nil -} - -func (g *GovernanceContract) stake( - publicKey []byte, name, email, location, url string) ([]byte, error) { - - // Reject invalid inputs. - if len(name) >= 32 || len(email) >= 32 || len(location) >= 32 || len(url) >= 128 { - return g.penalize() - } - - caller := g.contract.Caller() - offset := g.state.NodesOffsetByAddress(caller) - - // Can not stake if already staked. - if offset.Cmp(big.NewInt(0)) >= 0 { - return nil, errExecutionReverted - } - - offset = g.state.LenNodes() - node := &nodeInfo{ - Owner: caller, - PublicKey: publicKey, - Staked: big.NewInt(0), - Fined: big.NewInt(0), - Name: name, - Email: email, - Location: location, - Url: url, - } - g.state.PushNode(node) - if err := g.state.PutNodeOffsets(node, offset); err != nil { - return g.penalize() - } - - // Delegate fund to itself. - if g.contract.Value.Cmp(big.NewInt(0)) > 0 { - if ret, err := g.delegate(caller); err != nil { - return ret, err - } - } - - g.state.emitStaked(caller) - return g.useGas(100000) -} - -func (g *GovernanceContract) undelegateHelper(nodeAddr, caller common.Address) ([]byte, error) { - nodeOffset := g.state.NodesOffsetByAddress(nodeAddr) - if nodeOffset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - offset := g.state.DelegatorsOffset(nodeAddr, caller) - if offset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - node := g.state.Node(nodeOffset) - if node.Fined.Cmp(big.NewInt(0)) > 0 { - return nil, errExecutionReverted - } - - delegator := g.state.Delegator(nodeAddr, offset) - - if delegator.UndelegatedAt.Cmp(big.NewInt(0)) != 0 { - return nil, errExecutionReverted - } - - // Set undelegate time. - delegator.UndelegatedAt = g.evm.Time - g.state.UpdateDelegator(nodeAddr, offset, delegator) - - // Subtract from the total staked of node. - node.Staked = new(big.Int).Sub(node.Staked, delegator.Value) - g.state.UpdateNode(nodeOffset, node) - - // Subtract to network total staked. - g.state.DecTotalStaked(delegator.Value) - - g.state.emitUndelegated(nodeAddr, caller) - - return g.useGas(100000) -} - -func (g *GovernanceContract) undelegate(nodeAddr common.Address) ([]byte, error) { - return g.undelegateHelper(nodeAddr, g.contract.Caller()) -} - -func (g *GovernanceContract) withdraw(nodeAddr common.Address) ([]byte, error) { - caller := g.contract.Caller() - - nodeOffset := g.state.NodesOffsetByAddress(nodeAddr) - if nodeOffset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - offset := g.state.DelegatorsOffset(nodeAddr, caller) - if offset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - delegator := g.state.Delegator(nodeAddr, offset) - - // Not yet undelegated. - if delegator.UndelegatedAt.Cmp(big.NewInt(0)) == 0 { - return g.penalize() - } - - unlockTime := new(big.Int).Add(delegator.UndelegatedAt, g.state.LockupPeriod()) - if g.evm.Time.Cmp(unlockTime) <= 0 { - return g.penalize() - } - - length := g.state.LenDelegators(nodeAddr) - lastIndex := new(big.Int).Sub(length, big.NewInt(1)) - - // Delete the delegator. - if offset.Cmp(lastIndex) != 0 { - lastNode := g.state.Delegator(nodeAddr, lastIndex) - g.state.UpdateDelegator(nodeAddr, offset, lastNode) - g.state.PutDelegatorOffset(nodeAddr, lastNode.Owner, offset) - } - g.state.DeleteDelegatorsOffset(nodeAddr, caller) - g.state.PopLastDelegator(nodeAddr) - - // Return the staked fund. - if !g.transfer(GovernanceContractAddress, delegator.Owner, delegator.Value) { - return nil, errExecutionReverted - } - - g.state.emitWithdrawn(nodeAddr, delegator.Value) - - // We are the last delegator to withdraw the fund, remove the node info. - if g.state.LenDelegators(nodeAddr).Cmp(big.NewInt(0)) == 0 { - length := g.state.LenNodes() - lastIndex := new(big.Int).Sub(length, big.NewInt(1)) - - // Delete the node. - if offset.Cmp(lastIndex) != 0 { - lastNode := g.state.Node(lastIndex) - g.state.UpdateNode(offset, lastNode) - if err := g.state.PutNodeOffsets(lastNode, offset); err != nil { - panic(err) - } - } - g.state.DeleteNodesOffsetByAddress(nodeAddr) - g.state.PopLastNode() - } - - return g.useGas(100000) -} - -func (g *GovernanceContract) unstake() ([]byte, error) { - caller := g.contract.Caller() - offset := g.state.NodesOffsetByAddress(caller) - if offset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - node := g.state.Node(offset) - if node.Fined.Cmp(big.NewInt(0)) > 0 { - return nil, errExecutionReverted - } - - // Undelegate all delegators. - lenDelegators := g.state.LenDelegators(caller) - i := new(big.Int).Sub(lenDelegators, big.NewInt(1)) - for i.Cmp(big.NewInt(0)) >= 0 { - delegator := g.state.Delegator(caller, i) - if ret, err := g.undelegateHelper(caller, delegator.Owner); err != nil { - return ret, err - } - i = i.Sub(i, big.NewInt(1)) - } - - g.state.emitUnstaked(caller) - - return g.useGas(100000) -} - -func (g *GovernanceContract) payFine(nodeAddr common.Address) ([]byte, error) { - caller := g.contract.Caller() - - nodeOffset := g.state.NodesOffsetByAddress(nodeAddr) - if nodeOffset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - offset := g.state.DelegatorsOffset(nodeAddr, caller) - if offset.Cmp(big.NewInt(0)) < 0 { - return nil, errExecutionReverted - } - - node := g.state.Node(nodeOffset) - if node.Fined.Cmp(big.NewInt(0)) <= 0 || node.Fined.Cmp(g.contract.Value) < 0 { - return nil, errExecutionReverted - } - - node.Fined = new(big.Int).Sub(node.Fined, g.contract.Value) - g.state.UpdateNode(nodeOffset, node) - - // TODO: paid fine should be added to award pool. - - g.state.emitFinePaid(nodeAddr, g.contract.Value) - - return g.useGas(100000) -} - -func (g *GovernanceContract) proposeCRS(nextRound *big.Int, signedCRS []byte) ([]byte, error) { - round := g.state.Round() - - if nextRound.Cmp(round) <= 0 { - return nil, errExecutionReverted - } - - prevCRS := g.state.CRS(round) - - // Prepare DKGMasterPublicKeys. - dkgMasterPKs := g.state.UniqueDKGMasterPublicKeys(round) - - // Prepare DKGComplaints. - var dkgComplaints []*dkgTypes.Complaint - for _, comp := range g.state.DKGComplaints(round) { - x := new(dkgTypes.Complaint) - if err := rlp.DecodeBytes(comp, x); err != nil { - panic(err) - } - dkgComplaints = append(dkgComplaints, x) - } - - threshold := int(g.state.DKGSetSize().Uint64()/3 + 1) - - dkgGPK, err := core.NewDKGGroupPublicKey( - round.Uint64(), dkgMasterPKs, dkgComplaints, threshold) - if err != nil { - return nil, errExecutionReverted - } - signature := coreCrypto.Signature{ - Type: "bls", - Signature: signedCRS, - } - if !dkgGPK.VerifySignature(coreCommon.Hash(prevCRS), signature) { - return g.penalize() - } - - // Save new CRS into state and increase round. - newCRS := crypto.Keccak256(signedCRS) - crs := common.BytesToHash(newCRS) - - g.state.PushCRS(crs) - g.state.emitCRSProposed(nextRound, crs) - - // To encourage DKG set to propose the correct value, correctly submitting - // this should cause nothing. - return g.useGas(0) -} - -type sortBytes [][]byte - -func (s sortBytes) Less(i, j int) bool { - return bytes.Compare(s[i], s[j]) < 0 -} - -func (s sortBytes) Swap(i, j int) { - s[i], s[j] = s[j], s[i] -} - -func (s sortBytes) Len() int { - return len(s) -} - -func (g *GovernanceContract) fine(nodeAddr common.Address, amount *big.Int, payloads ...[]byte) error { - sort.Sort(sortBytes(payloads)) - - hash := Bytes32(crypto.Keccak256Hash(payloads...)) - if g.state.FineRecords(hash) { - return errors.New("already fined") - } - g.state.SetFineRecords(hash, true) - - nodeOffset := g.state.NodesOffsetByAddress(nodeAddr) - if nodeOffset.Cmp(big.NewInt(0)) < 0 { - return errExecutionReverted - } - - // Set fined value. - node := g.state.Node(nodeOffset) - node.Fined = new(big.Int).Add(node.Fined, amount) - g.state.UpdateNode(nodeOffset, node) - - g.state.emitFined(nodeAddr, amount) - - return nil -} - -func (g *GovernanceContract) report(reportType *big.Int, arg1, arg2 []byte) ([]byte, error) { - typeEnum := ReportType(reportType.Uint64()) - var reportedNodeID coreTypes.NodeID - - switch typeEnum { - case ReportTypeForkVote: - vote1 := new(coreTypes.Vote) - if err := rlp.DecodeBytes(arg1, vote1); err != nil { - return g.penalize() - } - vote2 := new(coreTypes.Vote) - if err := rlp.DecodeBytes(arg2, vote2); err != nil { - return g.penalize() - } - need, err := coreUtils.NeedPenaltyForkVote(vote1, vote2) - if !need || err != nil { - return g.penalize() - } - reportedNodeID = vote1.ProposerID - case ReportTypeForkBlock: - block1 := new(coreTypes.Block) - if err := rlp.DecodeBytes(arg1, block1); err != nil { - return g.penalize() - } - block2 := new(coreTypes.Block) - if err := rlp.DecodeBytes(arg2, block2); err != nil { - return g.penalize() - } - need, err := coreUtils.NeedPenaltyForkBlock(block1, block2) - if !need || err != nil { - return g.penalize() - } - reportedNodeID = block1.ProposerID - default: - return g.penalize() - } - - offset := g.state.NodesOffsetByID(Bytes32(reportedNodeID.Hash)) - node := g.state.Node(offset) - - g.state.emitForkReported(node.Owner, reportType, arg1, arg2) - - fineValue := g.state.FineValue(reportType) - if err := g.fine(node.Owner, fineValue, arg1, arg2); err != nil { - return nil, errExecutionReverted - } - return nil, nil -} - -func (g *GovernanceContract) transferOwnership(newOwner common.Address) ([]byte, error) { - // Only owner can update configuration. - if g.contract.Caller() != g.state.Owner() { - return nil, errExecutionReverted - } - g.state.SetOwner(newOwner) - return nil, nil -} - -func (g *GovernanceContract) snapshotRound(round, height *big.Int) ([]byte, error) { - // Validate if this mapping is correct. Only block proposer need to verify this. - if g.evm.IsBlockProposer() { - realHeight, ok := g.evm.GetRoundHeight(round.Uint64()) - if !ok { - return g.penalize() - } - - if height.Cmp(new(big.Int).SetUint64(realHeight)) != 0 { - return g.penalize() - } - } - - // Only allow updating the next round. - nextRound := g.state.LenRoundHeight() - if round.Cmp(nextRound) != 0 { - // No need to penalize, since the only possibility at this point is the - // round height is already snapshoted. - return nil, errExecutionReverted - } - - g.state.PushRoundHeight(height) - return nil, nil -} diff --git a/core/vm/evm/governance_abi.go b/core/vm/evm/governance_abi.go deleted file mode 100644 index 966c4c4f3..000000000 --- a/core/vm/evm/governance_abi.go +++ /dev/null @@ -1,1133 +0,0 @@ -// Copyright 2019 The dexon-consensus Authors -// This file is part of the dexon-consensus library. -// -// The dexon-consensus library is free software: you can redistribute it -// and/or modify it under the terms of the GNU Lesser General Public License as -// published by the Free Software Foundation, either version 3 of the License, -// or (at your option) any later version. -// -// The dexon-consensus library is distributed in the hope that it will be -// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of -// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser -// General Public License for more details. -// -// You should have received a copy of the GNU Lesser General Public License -// along with the dexon-consensus library. If not, see -// <http://www.gnu.org/licenses/>. - -package evm - -// The governance ABI is generated from: -// https://github.com/dexon-foundation/governance-abi - -const GovernanceABIJSON = ` -[ - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "address" - }, - { - "name": "", - "type": "address" - } - ], - "name": "delegatorsOffset", - "outputs": [ - { - "name": "", - "type": "int256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - }, - { - "name": "", - "type": "uint256" - } - ], - "name": "dkgComplaints", - "outputs": [ - { - "name": "", - "type": "bytes" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "notarySetSize", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "dkgSetSize", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "totalSupply", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - } - ], - "name": "nodes", - "outputs": [ - { - "name": "owner", - "type": "address" - }, - { - "name": "publicKey", - "type": "bytes" - }, - { - "name": "staked", - "type": "uint256" - }, - { - "name": "fined", - "type": "uint256" - }, - { - "name": "name", - "type": "string" - }, - { - "name": "email", - "type": "string" - }, - { - "name": "location", - "type": "string" - }, - { - "name": "url", - "type": "string" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "miningVelocity", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "lambdaBA", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "minStake", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - } - ], - "name": "crs", - "outputs": [ - { - "name": "", - "type": "bytes32" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "phiRatio", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - } - ], - "name": "dkgMPKReadysCount", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - }, - { - "name": "", - "type": "address" - } - ], - "name": "dkgMPKReadys", - "outputs": [ - { - "name": "", - "type": "bool" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "address" - }, - { - "name": "", - "type": "uint256" - } - ], - "name": "delegators", - "outputs": [ - { - "name": "owner", - "type": "address" - }, - { - "name": "value", - "type": "uint256" - }, - { - "name": "undelegated_at", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "blockGasLimit", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "bytes32" - } - ], - "name": "nodesOffsetByID", - "outputs": [ - { - "name": "", - "type": "int256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "totalStaked", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "roundInterval", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "address" - } - ], - "name": "nodesOffsetByAddress", - "outputs": [ - { - "name": "", - "type": "int256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "nextHalvingSupply", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "owner", - "outputs": [ - { - "name": "", - "type": "address" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "lastHalvedAmount", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "bytes32" - } - ], - "name": "finedRecords", - "outputs": [ - { - "name": "", - "type": "bool" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "lambdaDKG", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - } - ], - "name": "fineValues", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - } - ], - "name": "roundHeight", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "minBlockInterval", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "k", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - }, - { - "name": "", - "type": "uint256" - } - ], - "name": "dkgMasterPublicKeys", - "outputs": [ - { - "name": "", - "type": "bytes" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - }, - { - "name": "", - "type": "address" - } - ], - "name": "dkgFinalizeds", - "outputs": [ - { - "name": "", - "type": "bool" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "numChains", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "lockupPeriod", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "", - "type": "uint256" - } - ], - "name": "dkgFinalizedsCount", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "anonymous": false, - "inputs": [], - "name": "ConfigurationChanged", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "Round", - "type": "uint256" - }, - { - "indexed": false, - "name": "CRS", - "type": "bytes32" - } - ], - "name": "CRSProposed", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - } - ], - "name": "Staked", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - } - ], - "name": "Unstaked", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - }, - { - "indexed": true, - "name": "DelegatorAddress", - "type": "address" - }, - { - "indexed": false, - "name": "Amount", - "type": "uint256" - } - ], - "name": "Delegated", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - }, - { - "indexed": true, - "name": "DelegatorAddress", - "type": "address" - } - ], - "name": "Undelegated", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - }, - { - "indexed": false, - "name": "Amount", - "type": "uint256" - } - ], - "name": "Withdrawn", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - }, - { - "indexed": false, - "name": "Type", - "type": "uint256" - }, - { - "indexed": false, - "name": "Arg1", - "type": "bytes" - }, - { - "indexed": false, - "name": "Arg2", - "type": "bytes" - } - ], - "name": "ForkReported", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - }, - { - "indexed": false, - "name": "Amount", - "type": "uint256" - } - ], - "name": "Fined", - "type": "event" - }, - { - "anonymous": false, - "inputs": [ - { - "indexed": true, - "name": "NodeAddress", - "type": "address" - }, - { - "indexed": false, - "name": "Amount", - "type": "uint256" - } - ], - "name": "FinePaid", - "type": "event" - }, - { - "constant": false, - "inputs": [ - { - "name": "newOwner", - "type": "address" - } - ], - "name": "transferOwnership", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "MinStake", - "type": "uint256" - }, - { - "name": "LockupPeriod", - "type": "uint256" - }, - { - "name": "MiningVelocity", - "type": "uint256" - }, - { - "name": "NextHalvingSupply", - "type": "uint256" - }, - { - "name": "LastHalvingAmount", - "type": "uint256" - }, - { - "name": "BlockGasLimit", - "type": "uint256" - }, - { - "name": "NumChains", - "type": "uint256" - }, - { - "name": "LambdaBA", - "type": "uint256" - }, - { - "name": "LambdaDKG", - "type": "uint256" - }, - { - "name": "K", - "type": "uint256" - }, - { - "name": "PhiRatio", - "type": "uint256" - }, - { - "name": "NotarySetSize", - "type": "uint256" - }, - { - "name": "DKGSetSize", - "type": "uint256" - }, - { - "name": "RoundInterval", - "type": "uint256" - }, - { - "name": "MinBlockInterval", - "type": "uint256" - }, - { - "name": "FineValues", - "type": "uint256[]" - } - ], - "name": "updateConfiguration", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": true, - "inputs": [], - "name": "nodesLength", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": true, - "inputs": [ - { - "name": "NodeAddress", - "type": "address" - } - ], - "name": "delegatorsLength", - "outputs": [ - { - "name": "", - "type": "uint256" - } - ], - "payable": false, - "stateMutability": "view", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "Round", - "type": "uint256" - }, - { - "name": "Height", - "type": "uint256" - } - ], - "name": "snapshotRound", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "Round", - "type": "uint256" - }, - { - "name": "SignedCRS", - "type": "bytes" - } - ], - "name": "proposeCRS", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "Round", - "type": "uint256" - }, - { - "name": "Complaint", - "type": "bytes" - } - ], - "name": "addDKGComplaint", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "Round", - "type": "uint256" - }, - { - "name": "PublicKey", - "type": "bytes" - } - ], - "name": "addDKGMasterPublicKey", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "Round", - "type": "uint256" - }, - { - "name": "MPKReady", - "type": "bytes" - } - ], - "name": "addDKGMPKReady", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "Round", - "type": "uint256" - }, - { - "name": "Finalize", - "type": "bytes" - } - ], - "name": "addDKGFinalize", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "PublicKey", - "type": "bytes" - }, - { - "name": "Name", - "type": "string" - }, - { - "name": "Email", - "type": "string" - }, - { - "name": "Location", - "type": "string" - }, - { - "name": "Url", - "type": "string" - } - ], - "name": "stake", - "outputs": [], - "payable": true, - "stateMutability": "payable", - "type": "function" - }, - { - "constant": false, - "inputs": [], - "name": "unstake", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "NodeAddress", - "type": "address" - } - ], - "name": "delegate", - "outputs": [], - "payable": true, - "stateMutability": "payable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "NodeAddress", - "type": "address" - } - ], - "name": "undelegate", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "NodeAddress", - "type": "address" - } - ], - "name": "withdraw", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "NodeAddress", - "type": "address" - } - ], - "name": "payFine", - "outputs": [], - "payable": true, - "stateMutability": "payable", - "type": "function" - }, - { - "constant": false, - "inputs": [ - { - "name": "Type", - "type": "uint256" - }, - { - "name": "Arg1", - "type": "bytes" - }, - { - "name": "Arg2", - "type": "bytes" - } - ], - "name": "report", - "outputs": [], - "payable": false, - "stateMutability": "nonpayable", - "type": "function" - } -] -` diff --git a/core/vm/evm/governance_test.go b/core/vm/evm/governance_test.go deleted file mode 100644 index 5a82c7f1a..000000000 --- a/core/vm/evm/governance_test.go +++ /dev/null @@ -1,1061 +0,0 @@ -// Copyright 2018 The dexon-consensus Authors -// This file is part of the dexon-consensus library. -// -// The dexon-consensus library is free software: you can redistribute it -// and/or modify it under the terms of the GNU Lesser General Public License as -// published by the Free Software Foundation, either version 3 of the License, -// or (at your option) any later version. -// -// The dexon-consensus library is distributed in the hope that it will be -// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of -// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser -// General Public License for more details. -// -// You should have received a copy of the GNU Lesser General Public License -// along with the dexon-consensus library. If not, see -// <http://www.gnu.org/licenses/>. - -package evm - -import ( - "bytes" - "crypto/ecdsa" - "math/big" - "math/rand" - "sort" - "testing" - "time" - - coreCommon "github.com/dexon-foundation/dexon-consensus/common" - coreCrypto "github.com/dexon-foundation/dexon-consensus/core/crypto" - coreEcdsa "github.com/dexon-foundation/dexon-consensus/core/crypto/ecdsa" - coreTypes "github.com/dexon-foundation/dexon-consensus/core/types" - coreUtils "github.com/dexon-foundation/dexon-consensus/core/utils" - - "github.com/dexon-foundation/dexon/common" - "github.com/dexon-foundation/dexon/core/state" - "github.com/dexon-foundation/dexon/core/vm" - "github.com/dexon-foundation/dexon/crypto" - "github.com/dexon-foundation/dexon/ethdb" - "github.com/dexon-foundation/dexon/params" - "github.com/dexon-foundation/dexon/rlp" - "github.com/stretchr/testify/suite" -) - -func init() { - rand.Seed(time.Now().UnixNano()) -} - -func randomBytes(minLength, maxLength int32) []byte { - length := rand.Int31()%(maxLength-minLength) + minLength - b := make([]byte, length) - for i := range b { - b[i] = byte(65 + rand.Int31()%60) - } - return b -} - -type GovernanceStateHelperTestSuite struct { - suite.Suite - - s *GovernanceStateHelper -} - -func (g *GovernanceStateHelperTestSuite) SetupTest() { - db := state.NewDatabase(ethdb.NewMemDatabase()) - statedb, err := state.New(common.Hash{}, db) - if err != nil { - panic(err) - } - g.s = &GovernanceStateHelper{statedb} -} - -func (g *GovernanceStateHelperTestSuite) TestReadWriteBytes() { - for i := 0; i < 100; i++ { - // Short bytes. - loc := big.NewInt(rand.Int63()) - data := randomBytes(3, 32) - g.s.writeBytes(loc, data) - read := g.s.readBytes(loc) - g.Require().Equal(0, bytes.Compare(data, read)) - - // long bytes. - loc = big.NewInt(rand.Int63()) - data = randomBytes(33, 2560) - g.s.writeBytes(loc, data) - read = g.s.readBytes(loc) - g.Require().Equal(0, bytes.Compare(data, read)) - } -} - -func TestGovernanceStateHelper(t *testing.T) { - suite.Run(t, new(GovernanceStateHelperTestSuite)) -} - -type GovernanceContractTestSuite struct { - suite.Suite - - config *params.DexconConfig - memDB *ethdb.MemDatabase - stateDB *state.StateDB - s *GovernanceStateHelper -} - -func (g *GovernanceContractTestSuite) SetupTest() { - memDB := ethdb.NewMemDatabase() - stateDB, err := state.New(common.Hash{}, state.NewDatabase(memDB)) - if err != nil { - panic(err) - } - g.memDB = memDB - g.stateDB = stateDB - g.s = &GovernanceStateHelper{stateDB} - - config := params.TestnetChainConfig.Dexcon - config.LockupPeriod = 1000 - config.NextHalvingSupply = new(big.Int).Mul(big.NewInt(1e18), big.NewInt(2.5e9)) - config.LastHalvedAmount = new(big.Int).Mul(big.NewInt(1e18), big.NewInt(1.5e9)) - config.MiningVelocity = 0.1875 - - g.config = config - - // Give governance contract balance so it will not be deleted because of being an empty state object. - stateDB.AddBalance(GovernanceContractAddress, big.NewInt(1)) - - // Genesis CRS. - crs := crypto.Keccak256Hash([]byte(config.GenesisCRSText)) - g.s.PushCRS(crs) - - // Round 0 height. - g.s.PushRoundHeight(big.NewInt(0)) - - // Owner. - g.s.SetOwner(g.config.Owner) - - // Governance configuration. - g.s.UpdateConfiguration(config) - - g.stateDB.Commit(true) -} - -func (g *GovernanceContractTestSuite) newPrefundAccount() (*ecdsa.PrivateKey, common.Address) { - privKey, err := crypto.GenerateKey() - if err != nil { - panic(err) - } - address := crypto.PubkeyToAddress(privKey.PublicKey) - - g.stateDB.AddBalance(address, new(big.Int).Mul(big.NewInt(1e18), big.NewInt(2e6))) - return privKey, address -} - -func (g *GovernanceContractTestSuite) call(caller common.Address, input []byte, value *big.Int) ([]byte, error) { - context := vm.Context{ - CanTransfer: func(db vm.StateDB, addr common.Address, amount *big.Int) bool { - return db.GetBalance(addr).Cmp(amount) >= 0 - }, - Transfer: func(db vm.StateDB, sender common.Address, recipient common.Address, amount *big.Int) { - db.SubBalance(sender, amount) - db.AddBalance(recipient, amount) - }, - GetRoundHeight: func(round uint64) (uint64, bool) { - switch round { - case 0: - return 0, true - case 1: - return 1000, true - case 2: - return 2000, true - } - return 0, false - }, - Time: big.NewInt(time.Now().UnixNano() / 1000000), - BlockNumber: big.NewInt(0), - } - - evm := NewEVM(context, g.stateDB, params.TestChainConfig, Config{IsBlockProposer: true}) - ret, _, err := evm.Call(vm.AccountRef(caller), GovernanceContractAddress, input, 10000000, value) - return ret, err -} - -func (g *GovernanceContractTestSuite) TestTransferOwnership() { - _, addr := g.newPrefundAccount() - - input, err := abiObject.Pack("transferOwnership", addr) - g.Require().NoError(err) - - // Call with non-owner. - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NotNil(err) - - // Call with owner. - _, err = g.call(g.config.Owner, input, big.NewInt(0)) - g.Require().NoError(err) - g.Require().Equal(addr, g.s.Owner()) -} - -func (g *GovernanceContractTestSuite) TestStakeUnstakeWithoutExtraDelegators() { - privKey, addr := g.newPrefundAccount() - pk := crypto.FromECDSAPub(&privKey.PublicKey) - - // Stake. - amount := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(1e6)) - balanceBeforeStake := g.stateDB.GetBalance(addr) - input, err := abiObject.Pack("stake", pk, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - _, err = g.call(addr, input, amount) - g.Require().NoError(err) - - g.Require().Equal(1, int(g.s.LenNodes().Uint64())) - g.Require().Equal(1, len(g.s.QualifiedNodes())) - g.Require().Equal("Test1", g.s.Node(big.NewInt(0)).Name) - g.Require().Equal(amount.String(), g.s.TotalStaked().String()) - - // Check balance. - g.Require().Equal(new(big.Int).Sub(balanceBeforeStake, amount), g.stateDB.GetBalance(addr)) - g.Require().Equal(new(big.Int).Add(big.NewInt(1), amount), g.stateDB.GetBalance(GovernanceContractAddress)) - - // Staking again should fail. - _, err = g.call(addr, input, amount) - g.Require().NotNil(err) - - // Unstake. - input, err = abiObject.Pack("unstake") - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - g.Require().Equal(0, len(g.s.QualifiedNodes())) - g.Require().Equal(1, int(g.s.LenDelegators(addr).Uint64())) - g.Require().Equal(1, int(g.s.LenNodes().Uint64())) - - node := g.s.Node(big.NewInt(0)) - g.Require().Equal(big.NewInt(0).String(), node.Staked.String()) - g.Require().Equal(big.NewInt(0).String(), g.s.TotalStaked().String()) - - // Wait for lockup time than withdraw. - time.Sleep(time.Second * 2) - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - g.Require().Equal(0, len(g.s.QualifiedNodes())) - g.Require().Equal(0, int(g.s.LenDelegators(addr).Uint64())) - g.Require().Equal(0, int(g.s.LenNodes().Uint64())) - - // Stake 2 nodes, and unstake the first then the second. - - // 2nd node Stake. - privKey2, addr2 := g.newPrefundAccount() - pk2 := crypto.FromECDSAPub(&privKey2.PublicKey) - input, err = abiObject.Pack("stake", pk2, "Test2", "test2@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - _, err = g.call(addr2, input, amount) - g.Require().NoError(err) - g.Require().Equal("Test2", g.s.Node(big.NewInt(0)).Name) - g.Require().Equal(0, int(g.s.NodesOffsetByAddress(addr2).Int64())) - - // 1st node Stake. - input, err = abiObject.Pack("stake", pk, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - _, err = g.call(addr, input, amount) - g.Require().NoError(err) - - g.Require().Equal(2, len(g.s.QualifiedNodes())) - g.Require().Equal(new(big.Int).Mul(amount, big.NewInt(2)).String(), g.s.TotalStaked().String()) - - // 2nd node Unstake. - input, err = abiObject.Pack("unstake") - g.Require().NoError(err) - _, err = g.call(addr2, input, big.NewInt(0)) - g.Require().NoError(err) - node = g.s.Node(big.NewInt(0)) - g.Require().Equal("Test2", node.Name) - g.Require().Equal(big.NewInt(0).String(), node.Staked.String()) - g.Require().Equal(1, len(g.s.QualifiedNodes())) - g.Require().Equal(amount.String(), g.s.TotalStaked().String()) - - time.Sleep(time.Second * 2) - input, err = abiObject.Pack("withdraw", addr2) - g.Require().NoError(err) - _, err = g.call(addr2, input, big.NewInt(0)) - g.Require().NoError(err) - g.Require().Equal(1, len(g.s.QualifiedNodes())) - - g.Require().Equal(1, int(g.s.LenNodes().Uint64())) - g.Require().Equal("Test1", g.s.Node(big.NewInt(0)).Name) - g.Require().Equal(-1, int(g.s.NodesOffsetByAddress(addr2).Int64())) - - // 1st node Unstake. - input, err = abiObject.Pack("unstake") - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - g.Require().Equal(0, len(g.s.QualifiedNodes())) - g.Require().Equal(big.NewInt(0).String(), g.s.TotalStaked().String()) - - time.Sleep(time.Second * 2) - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - g.Require().Equal(0, int(g.s.LenNodes().Uint64())) - g.Require().Equal(-1, int(g.s.NodesOffsetByAddress(addr).Int64())) - g.Require().Equal(-1, int(g.s.DelegatorsOffset(addr, addr).Int64())) - - // Check balance. - g.Require().Equal(balanceBeforeStake, g.stateDB.GetBalance(addr)) - g.Require().Equal(balanceBeforeStake, g.stateDB.GetBalance(addr2)) - g.Require().Equal(big.NewInt(1), g.stateDB.GetBalance(GovernanceContractAddress)) -} - -func (g *GovernanceContractTestSuite) TestDelegateUndelegate() { - privKey, addr := g.newPrefundAccount() - pk := crypto.FromECDSAPub(&privKey.PublicKey) - - // Stake. - input, err := abiObject.Pack("stake", pk, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - ownerStaked := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(5e5)) - _, err = g.call(addr, input, ownerStaked) - g.Require().NoError(err) - g.Require().Equal(0, len(g.s.QualifiedNodes())) - g.Require().Equal(addr, g.s.Delegator(addr, big.NewInt(0)).Owner) - g.Require().Equal(ownerStaked, g.s.Node(big.NewInt(0)).Staked) - - // 1st delegator delegate to 1st node. - _, addrDelegator := g.newPrefundAccount() - - balanceBeforeDelegate := g.stateDB.GetBalance(addrDelegator) - amount := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(3e5)) - input, err = abiObject.Pack("delegate", addr) - g.Require().NoError(err) - - _, err = g.call(addrDelegator, input, amount) - g.Require().NoError(err) - g.Require().Equal(new(big.Int).Sub(balanceBeforeDelegate, amount), g.stateDB.GetBalance(addrDelegator)) - g.Require().Equal(addrDelegator, g.s.Delegator(addr, big.NewInt(1)).Owner) - g.Require().Equal(new(big.Int).Add(amount, ownerStaked), g.s.Node(big.NewInt(0)).Staked) - g.Require().Equal(g.s.Node(big.NewInt(0)).Staked.String(), g.s.TotalStaked().String()) - g.Require().Equal(1, int(g.s.DelegatorsOffset(addr, addrDelegator).Int64())) - - // Same person delegate the 2nd time should fail. - _, err = g.call(addrDelegator, input, big.NewInt(1e18)) - g.Require().NotNil(err) - - // Not yet qualified. - g.Require().Equal(0, len(g.s.QualifiedNodes())) - - // 2nd delegator delegate to 1st node. - _, addrDelegator2 := g.newPrefundAccount() - _, err = g.call(addrDelegator2, input, amount) - g.Require().NoError(err) - g.Require().Equal(new(big.Int).Sub(balanceBeforeDelegate, amount), g.stateDB.GetBalance(addrDelegator2)) - g.Require().Equal(addrDelegator2, g.s.Delegator(addr, big.NewInt(2)).Owner) - g.Require().Equal(new(big.Int).Add(ownerStaked, new(big.Int).Mul(amount, big.NewInt(2))), - g.s.Node(big.NewInt(0)).Staked) - g.Require().Equal(g.s.Node(big.NewInt(0)).Staked.String(), g.s.TotalStaked().String()) - g.Require().Equal(2, int(g.s.DelegatorsOffset(addr, addrDelegator2).Int64())) - - // Qualified. - g.Require().Equal(1, len(g.s.QualifiedNodes())) - - // Undelegate addrDelegator. - balanceBeforeUnDelegate := g.stateDB.GetBalance(addrDelegator) - input, err = abiObject.Pack("undelegate", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().Equal(new(big.Int).Add(amount, ownerStaked), g.s.Node(big.NewInt(0)).Staked) - g.Require().Equal(g.s.Node(big.NewInt(0)).Staked.String(), g.s.TotalStaked().String()) - g.Require().NoError(err) - - // Undelegate the second time should fail. - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().Error(err) - - // Withdraw within lockup time should fail. - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().NotNil(err) - - g.Require().Equal(3, int(g.s.LenDelegators(addr).Uint64())) - g.Require().Equal(balanceBeforeUnDelegate, g.stateDB.GetBalance(addrDelegator)) - g.Require().NotEqual(-1, int(g.s.DelegatorsOffset(addr, addrDelegator).Int64())) - - // Wait for lockup time than withdraw. - time.Sleep(time.Second * 2) - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().NoError(err) - - g.Require().Equal(2, int(g.s.LenDelegators(addr).Uint64())) - g.Require().Equal(new(big.Int).Add(balanceBeforeUnDelegate, amount), g.stateDB.GetBalance(addrDelegator)) - g.Require().Equal(-1, int(g.s.DelegatorsOffset(addr, addrDelegator).Int64())) - - // Withdraw when their is no delegation should fail. - time.Sleep(time.Second) - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().Error(err) - - // Undelegate addrDelegator2. - balanceBeforeUnDelegate = g.stateDB.GetBalance(addrDelegator2) - input, err = abiObject.Pack("undelegate", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator2, input, big.NewInt(0)) - g.Require().NoError(err) - - g.Require().Equal(ownerStaked, g.s.Node(big.NewInt(0)).Staked) - g.Require().Equal(g.s.Node(big.NewInt(0)).Staked.String(), g.s.TotalStaked().String()) - - // Wait for lockup time than withdraw. - time.Sleep(time.Second * 2) - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator2, input, big.NewInt(0)) - g.Require().NoError(err) - - g.Require().Equal(1, int(g.s.LenDelegators(addr).Uint64())) - g.Require().Equal(new(big.Int).Add(balanceBeforeUnDelegate, amount), g.stateDB.GetBalance(addrDelegator2)) - g.Require().Equal(-1, int(g.s.DelegatorsOffset(addr, addrDelegator2).Int64())) - - // Unqualified - g.Require().Equal(0, len(g.s.QualifiedNodes())) - - // Owner undelegate itself. - g.Require().Equal(1, int(g.s.LenNodes().Uint64())) - g.Require().Equal(1, int(g.s.LenDelegators(addr).Uint64())) - - input, err = abiObject.Pack("undelegate", addr) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - g.Require().Equal(big.NewInt(0).String(), g.s.Node(big.NewInt(0)).Staked.String()) - g.Require().Equal(big.NewInt(0).String(), g.s.TotalStaked().String()) - - time.Sleep(time.Second * 2) - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - - g.Require().Equal(0, int(g.s.LenNodes().Uint64())) - g.Require().Equal(0, int(g.s.LenDelegators(addr).Uint64())) -} - -func (g *GovernanceContractTestSuite) TestFine() { - privKey, addr := g.newPrefundAccount() - pk := crypto.FromECDSAPub(&privKey.PublicKey) - - // Stake. - input, err := abiObject.Pack("stake", pk, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - ownerStaked := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(5e5)) - _, err = g.call(addr, input, ownerStaked) - g.Require().NoError(err) - g.Require().Equal(0, len(g.s.QualifiedNodes())) - g.Require().Equal(addr, g.s.Delegator(addr, big.NewInt(0)).Owner) - g.Require().Equal(ownerStaked, g.s.Node(big.NewInt(0)).Staked) - - // 1st delegator delegate to 1st node. - _, addrDelegator := g.newPrefundAccount() - - balanceBeforeDelegate := g.stateDB.GetBalance(addrDelegator) - amount := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(5e5)) - input, err = abiObject.Pack("delegate", addr) - g.Require().NoError(err) - - _, err = g.call(addrDelegator, input, amount) - g.Require().NoError(err) - g.Require().Equal(new(big.Int).Sub(balanceBeforeDelegate, amount), g.stateDB.GetBalance(addrDelegator)) - g.Require().Equal(addrDelegator, g.s.Delegator(addr, big.NewInt(1)).Owner) - g.Require().Equal(new(big.Int).Add(amount, ownerStaked), g.s.Node(big.NewInt(0)).Staked) - g.Require().Equal(1, int(g.s.DelegatorsOffset(addr, addrDelegator).Int64())) - - // Qualified. - g.Require().Equal(1, len(g.s.QualifiedNodes())) - - // Paying to node without fine should fail. - input, err = abiObject.Pack("payFine", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, amount) - g.Require().NotNil(err) - - // Fined. - offset := g.s.NodesOffsetByAddress(addr) - g.Require().True(offset.Cmp(big.NewInt(0)) >= 0) - node := g.s.Node(offset) - node.Fined = new(big.Int).Set(amount) - g.s.UpdateNode(offset, node) - node = g.s.Node(offset) - g.Require().Equal(0, node.Fined.Cmp(amount)) - - // Not qualified after fined. - g.Require().Equal(0, len(g.s.QualifiedNodes())) - - // Cannot undelegate before fines are paied. - input, err = abiObject.Pack("undelegate", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().NotNil(err) - - // Only delegators can pay fine. - _, addrDelegator2 := g.newPrefundAccount() - input, err = abiObject.Pack("payFine", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator2, input, big.NewInt(5e5)) - g.Require().NotNil(err) - - // Paying more than fine should fail. - payAmount := new(big.Int).Add(amount, amount) - input, err = abiObject.Pack("payFine", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, payAmount) - g.Require().NotNil(err) - - // Pay the fine. - input, err = abiObject.Pack("payFine", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, amount) - g.Require().NoError(err) - - // Qualified. - g.Require().Equal(1, len(g.s.QualifiedNodes())) - - // Can undelegate after all fines are paied. - input, err = abiObject.Pack("undelegate", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().NoError(err) -} - -func (g *GovernanceContractTestSuite) TestUnstakeWithExtraDelegators() { - privKey, addr := g.newPrefundAccount() - pk := crypto.FromECDSAPub(&privKey.PublicKey) - - // Stake. - amount := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(5e5)) - input, err := abiObject.Pack("stake", pk, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - _, err = g.call(addr, input, amount) - g.Require().NoError(err) - - // 1st delegator delegate to 1st node. - _, addrDelegator := g.newPrefundAccount() - - balanceBeforeDelegate := g.stateDB.GetBalance(addrDelegator) - amount = new(big.Int).Mul(big.NewInt(1e18), big.NewInt(3e5)) - input, err = abiObject.Pack("delegate", addr) - g.Require().NoError(err) - - _, err = g.call(addrDelegator, input, amount) - g.Require().NoError(err) - g.Require().Equal(new(big.Int).Sub(balanceBeforeDelegate, amount), g.stateDB.GetBalance(addrDelegator)) - g.Require().Equal(addrDelegator, g.s.Delegator(addr, big.NewInt(1)).Owner) - g.Require().Equal(0, len(g.s.QualifiedNodes())) - - // 2st delegator delegate to 1st node. - _, addrDelegator2 := g.newPrefundAccount() - - balanceBeforeDelegate = g.stateDB.GetBalance(addrDelegator2) - input, err = abiObject.Pack("delegate", addr) - g.Require().NoError(err) - - _, err = g.call(addrDelegator2, input, amount) - g.Require().NoError(err) - g.Require().Equal(new(big.Int).Sub(balanceBeforeDelegate, amount), g.stateDB.GetBalance(addrDelegator2)) - g.Require().Equal(addrDelegator2, g.s.Delegator(addr, big.NewInt(2)).Owner) - - // Node is now qualified. - g.Require().Equal(1, len(g.s.QualifiedNodes())) - - // Unstake. - input, err = abiObject.Pack("unstake") - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - time.Sleep(time.Second * 2) - input, err = abiObject.Pack("withdraw", addr) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, big.NewInt(0)) - g.Require().NoError(err) - _, err = g.call(addrDelegator2, input, big.NewInt(0)) - g.Require().NoError(err) - - g.Require().Equal(0, int(g.s.LenDelegators(addr).Uint64())) - g.Require().Equal(0, int(g.s.LenNodes().Uint64())) - - // Check balance. - g.Require().Equal(balanceBeforeDelegate, g.stateDB.GetBalance(addr)) - g.Require().Equal(balanceBeforeDelegate, g.stateDB.GetBalance(addrDelegator)) - g.Require().Equal(balanceBeforeDelegate, g.stateDB.GetBalance(addrDelegator2)) - g.Require().Equal(big.NewInt(1), g.stateDB.GetBalance(GovernanceContractAddress)) -} - -func (g *GovernanceContractTestSuite) TestUpdateConfiguration() { - _, addr := g.newPrefundAccount() - - input, err := abiObject.Pack("updateConfiguration", - new(big.Int).Mul(big.NewInt(1e18), big.NewInt(1e6)), - big.NewInt(1000), - big.NewInt(0.1875*decimalMultiplier), - big.NewInt(1e18), - big.NewInt(1e18), - big.NewInt(8000000), - big.NewInt(6), - big.NewInt(250), - big.NewInt(2500), - big.NewInt(0), - big.NewInt(667000), - big.NewInt(4), - big.NewInt(4), - big.NewInt(600000), - big.NewInt(900), - []*big.Int{big.NewInt(1), big.NewInt(1), big.NewInt(1)}) - g.Require().NoError(err) - - // Call with non-owner. - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NotNil(err) - - // Call with owner. - _, err = g.call(g.config.Owner, input, big.NewInt(0)) - g.Require().NoError(err) -} - -func (g *GovernanceContractTestSuite) TestSnapshotRound() { - _, addr := g.newPrefundAccount() - - // Wrong height. - input, err := abiObject.Pack("snapshotRound", big.NewInt(1), big.NewInt(666)) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NotNil(err) - - // Invalid round. - input, err = abiObject.Pack("snapshotRound", big.NewInt(2), big.NewInt(2000)) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NotNil(err) - - // Correct. - input, err = abiObject.Pack("snapshotRound", big.NewInt(1), big.NewInt(1000)) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - // Duplicate round. - input, err = abiObject.Pack("snapshotRound", big.NewInt(1), big.NewInt(1000)) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NotNil(err) - - // Invalid round. - input, err = abiObject.Pack("snapshotRound", big.NewInt(3), big.NewInt(3000)) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NotNil(err) - - // Correct. - input, err = abiObject.Pack("snapshotRound", big.NewInt(2), big.NewInt(2000)) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) -} - -func (g *GovernanceContractTestSuite) TestConfigurationReading() { - _, addr := g.newPrefundAccount() - - // CRS. - input, err := abiObject.Pack("crs", big.NewInt(0)) - g.Require().NoError(err) - res, err := g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - var crs0 [32]byte - err = abiObject.Unpack(&crs0, "crs", res) - g.Require().NoError(err) - g.Require().Equal(crypto.Keccak256Hash([]byte(g.config.GenesisCRSText)), common.BytesToHash(crs0[:])) - - // Owner. - input, err = abiObject.Pack("owner") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - var owner common.Address - err = abiObject.Unpack(&owner, "owner", res) - g.Require().NoError(err) - g.Require().Equal(g.config.Owner, owner) - - // MinStake. - input, err = abiObject.Pack("minStake") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - var value *big.Int - err = abiObject.Unpack(&value, "minStake", res) - g.Require().NoError(err) - g.Require().Equal(g.config.MinStake.String(), value.String()) - - // BlockReward. - input, err = abiObject.Pack("miningVelocity") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "miningVelocity", res) - g.Require().NoError(err) - g.Require().Equal(g.config.MiningVelocity, float32(value.Uint64())/decimalMultiplier) - - // BlockGasLimit. - input, err = abiObject.Pack("blockGasLimit") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "blockGasLimit", res) - g.Require().NoError(err) - g.Require().Equal(g.config.BlockGasLimit, value.Uint64()) - - // NumChains. - input, err = abiObject.Pack("numChains") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "numChains", res) - g.Require().NoError(err) - g.Require().Equal(g.config.NumChains, uint32(value.Uint64())) - - // LambdaBA. - input, err = abiObject.Pack("lambdaBA") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "lambdaBA", res) - g.Require().NoError(err) - g.Require().Equal(g.config.LambdaBA, value.Uint64()) - - // LambdaDKG. - input, err = abiObject.Pack("lambdaDKG") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "lambdaDKG", res) - g.Require().NoError(err) - g.Require().Equal(g.config.LambdaDKG, value.Uint64()) - - // K. - input, err = abiObject.Pack("k") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "k", res) - g.Require().NoError(err) - g.Require().Equal(g.config.K, uint32(value.Uint64())) - - // PhiRatio. - input, err = abiObject.Pack("phiRatio") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "phiRatio", res) - g.Require().NoError(err) - g.Require().Equal(g.config.PhiRatio, float32(value.Uint64())/decimalMultiplier) - - // NotarySetSize. - input, err = abiObject.Pack("notarySetSize") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "notarySetSize", res) - g.Require().NoError(err) - g.Require().Equal(g.config.NotarySetSize, uint32(value.Uint64())) - - // DKGSetSize. - input, err = abiObject.Pack("dkgSetSize") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "dkgSetSize", res) - g.Require().NoError(err) - g.Require().Equal(g.config.DKGSetSize, uint32(value.Uint64())) - - // RoundInterval. - input, err = abiObject.Pack("roundInterval") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "roundInterval", res) - g.Require().NoError(err) - g.Require().Equal(g.config.RoundInterval, value.Uint64()) - - // MinBlockInterval. - input, err = abiObject.Pack("minBlockInterval") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "minBlockInterval", res) - g.Require().NoError(err) - g.Require().Equal(g.config.MinBlockInterval, value.Uint64()) -} - -func (g *GovernanceContractTestSuite) TestReportForkVote() { - key, addr := g.newPrefundAccount() - pkBytes := crypto.FromECDSAPub(&key.PublicKey) - - // Stake. - amount := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(5e5)) - input, err := abiObject.Pack("stake", pkBytes, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - _, err = g.call(addr, input, amount) - g.Require().NoError(err) - - pubKey := coreEcdsa.NewPublicKeyFromECDSA(&key.PublicKey) - privKey := coreEcdsa.NewPrivateKeyFromECDSA(key) - vote1 := coreTypes.NewVote(coreTypes.VoteCom, coreCommon.NewRandomHash(), uint64(0)) - vote1.ProposerID = coreTypes.NewNodeID(pubKey) - - vote2 := vote1.Clone() - for vote2.BlockHash == vote1.BlockHash { - vote2.BlockHash = coreCommon.NewRandomHash() - } - vote1.Signature, err = privKey.Sign(coreUtils.HashVote(vote1)) - g.Require().NoError(err) - vote2.Signature, err = privKey.Sign(coreUtils.HashVote(vote2)) - g.Require().NoError(err) - - vote1Bytes, err := rlp.EncodeToBytes(vote1) - g.Require().NoError(err) - vote2Bytes, err := rlp.EncodeToBytes(vote2) - g.Require().NoError(err) - - // Report wrong type (fork block) - input, err = abiObject.Pack("report", big.NewInt(2), vote1Bytes, vote2Bytes) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().Error(err) - - input, err = abiObject.Pack("report", big.NewInt(1), vote1Bytes, vote2Bytes) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - node := g.s.Node(big.NewInt(0)) - g.Require().Equal(node.Fined, g.s.FineValue(big.NewInt(1))) - - // Duplicate report should fail. - input, err = abiObject.Pack("report", big.NewInt(1), vote1Bytes, vote2Bytes) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().Error(err) - - // Check if finedRecords is set. - payloads := [][]byte{vote1Bytes, vote2Bytes} - sort.Sort(sortBytes(payloads)) - - hash := Bytes32(crypto.Keccak256Hash(payloads...)) - input, err = abiObject.Pack("finedRecords", hash) - g.Require().NoError(err) - res, err := g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - var value bool - err = abiObject.Unpack(&value, "finedRecords", res) - g.Require().NoError(err) - g.Require().True(value) -} - -func (g *GovernanceContractTestSuite) TestReportForkBlock() { - key, addr := g.newPrefundAccount() - pkBytes := crypto.FromECDSAPub(&key.PublicKey) - - // Stake. - amount := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(5e5)) - input, err := abiObject.Pack("stake", pkBytes, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - _, err = g.call(addr, input, amount) - g.Require().NoError(err) - - privKey := coreEcdsa.NewPrivateKeyFromECDSA(key) - block1 := &coreTypes.Block{ - ProposerID: coreTypes.NewNodeID(privKey.PublicKey()), - ParentHash: coreCommon.NewRandomHash(), - Timestamp: time.Now(), - } - - block2 := block1.Clone() - for block2.ParentHash == block1.ParentHash { - block2.ParentHash = coreCommon.NewRandomHash() - } - - hashBlock := func(block *coreTypes.Block) coreCommon.Hash { - block.PayloadHash = coreCrypto.Keccak256Hash(block.Payload) - var err error - block.Hash, err = coreUtils.HashBlock(block) - g.Require().NoError(err) - return block.Hash - } - - block1.Signature, err = privKey.Sign(hashBlock(block1)) - g.Require().NoError(err) - block2.Signature, err = privKey.Sign(hashBlock(block2)) - g.Require().NoError(err) - - block1Bytes, err := rlp.EncodeToBytes(block1) - g.Require().NoError(err) - block2Bytes, err := rlp.EncodeToBytes(block2) - g.Require().NoError(err) - - // Report wrong type (fork vote) - input, err = abiObject.Pack("report", big.NewInt(1), block1Bytes, block2Bytes) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().Error(err) - - input, err = abiObject.Pack("report", big.NewInt(2), block1Bytes, block2Bytes) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - node := g.s.Node(big.NewInt(0)) - g.Require().Equal(node.Fined, g.s.FineValue(big.NewInt(2))) - - // Duplicate report should fail. - input, err = abiObject.Pack("report", big.NewInt(2), block1Bytes, block2Bytes) - g.Require().NoError(err) - _, err = g.call(addr, input, big.NewInt(0)) - g.Require().Error(err) - - // Check if finedRecords is set. - payloads := [][]byte{block1Bytes, block2Bytes} - sort.Sort(sortBytes(payloads)) - - hash := Bytes32(crypto.Keccak256Hash(payloads...)) - input, err = abiObject.Pack("finedRecords", hash) - g.Require().NoError(err) - res, err := g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - var value bool - err = abiObject.Unpack(&value, "finedRecords", res) - g.Require().NoError(err) - g.Require().True(value) -} - -func (g *GovernanceContractTestSuite) TestMiscVariableReading() { - privKey, addr := g.newPrefundAccount() - pk := crypto.FromECDSAPub(&privKey.PublicKey) - - input, err := abiObject.Pack("totalSupply") - g.Require().NoError(err) - res, err := g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - input, err = abiObject.Pack("totalStaked") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - // Stake. - amount := new(big.Int).Mul(big.NewInt(1e18), big.NewInt(5e5)) - input, err = abiObject.Pack("stake", pk, "Test1", "test1@dexon.org", "Taipei, Taiwan", "https://dexon.org") - g.Require().NoError(err) - _, err = g.call(addr, input, amount) - g.Require().NoError(err) - - // 1st delegator delegate to 1st node. - _, addrDelegator := g.newPrefundAccount() - amount = new(big.Int).Mul(big.NewInt(1e18), big.NewInt(3e5)) - input, err = abiObject.Pack("delegate", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator, input, amount) - g.Require().NoError(err) - - // 2st delegator delegate to 1st node. - _, addrDelegator2 := g.newPrefundAccount() - input, err = abiObject.Pack("delegate", addr) - g.Require().NoError(err) - _, err = g.call(addrDelegator2, input, amount) - g.Require().NoError(err) - - input, err = abiObject.Pack("nodes", big.NewInt(0)) - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - input, err = abiObject.Pack("nodesLength") - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - var value *big.Int - err = abiObject.Unpack(&value, "nodesLength", res) - g.Require().NoError(err) - g.Require().Equal(1, int(value.Uint64())) - - input, err = abiObject.Pack("nodesOffsetByAddress", addr) - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "nodesOffsetByAddress", res) - g.Require().NoError(err) - g.Require().Equal(0, int(value.Uint64())) - - id, err := publicKeyToNodeID(pk) - g.Require().NoError(err) - input, err = abiObject.Pack("nodesOffsetByID", id) - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "nodesOffsetByID", res) - g.Require().NoError(err) - g.Require().Equal(0, int(value.Uint64())) - - input, err = abiObject.Pack("delegators", addr, big.NewInt(0)) - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - - input, err = abiObject.Pack("delegatorsLength", addr) - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "delegatorsLength", res) - g.Require().NoError(err) - g.Require().Equal(3, int(value.Uint64())) - - input, err = abiObject.Pack("delegatorsOffset", addr, addrDelegator2) - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) - err = abiObject.Unpack(&value, "delegatorsOffset", res) - g.Require().NoError(err) - g.Require().Equal(2, int(value.Uint64())) - - input, err = abiObject.Pack("fineValues", big.NewInt(0)) - g.Require().NoError(err) - res, err = g.call(addr, input, big.NewInt(0)) - g.Require().NoError(err) -} - -func (g *GovernanceContractTestSuite) TestHalvingCondition() { - // TotalSupply 2.5B reached - g.s.MiningHalved() - g.Require().Equal(new(big.Int).Mul(big.NewInt(1e18), big.NewInt(3.25e9)).String(), - g.s.NextHalvingSupply().String()) - g.Require().Equal(new(big.Int).Mul(big.NewInt(1e18), big.NewInt(0.75e9)).String(), - g.s.LastHalvedAmount().String()) - - // TotalSupply 3.25B reached - g.s.MiningHalved() - g.Require().Equal(new(big.Int).Mul(big.NewInt(1e18), big.NewInt(3.625e9)).String(), - g.s.NextHalvingSupply().String()) - g.Require().Equal(new(big.Int).Mul(big.NewInt(1e18), big.NewInt(0.375e9)).String(), - g.s.LastHalvedAmount().String()) -} - -func TestGovernanceContract(t *testing.T) { - suite.Run(t, new(GovernanceContractTestSuite)) -} diff --git a/core/vm/oracle.go b/core/vm/evm/oracle.go index 0d4c10d9e..1daba822e 100644 --- a/core/vm/oracle.go +++ b/core/vm/evm/oracle.go @@ -15,13 +15,14 @@ // along with the dexon-consensus library. If not, see // <http://www.gnu.org/licenses/>. -package vm +package evm import ( "strings" "github.com/dexon-foundation/dexon/accounts/abi" "github.com/dexon-foundation/dexon/common" + "github.com/dexon-foundation/dexon/core/vm" ) var GovernanceContractAddress = common.HexToAddress("63751838d6485578b23e8b051d40861ecc416794") @@ -34,7 +35,7 @@ func init() { // OracleContract represent special system contracts written in Go. type OracleContract interface { - Run(evm *EVM, input []byte, contract *Contract) (ret []byte, err error) + Run(evm *EVM, input []byte, contract *vm.Contract) (ret []byte, err error) } // A map representing available system oracle contracts. @@ -47,7 +48,7 @@ var OracleContracts = map[common.Address]func() OracleContract{ } // Run oracle contract. -func RunOracleContract(oracle OracleContract, evm *EVM, input []byte, contract *Contract) (ret []byte, err error) { +func RunOracleContract(oracle OracleContract, evm *EVM, input []byte, contract *vm.Contract) (ret []byte, err error) { return oracle.Run(evm, input, contract) } diff --git a/core/vm/oracle_contract_abi.go b/core/vm/evm/oracle_contract_abi.go index 0516f3891..3e7fc8784 100644 --- a/core/vm/oracle_contract_abi.go +++ b/core/vm/evm/oracle_contract_abi.go @@ -15,7 +15,7 @@ // along with the dexon-consensus library. If not, see // <http://www.gnu.org/licenses/>. -package vm +package evm // The governance ABI is generated from: // https://github.com/dexon-foundation/governance-abi diff --git a/core/vm/oracle_contracts.go b/core/vm/evm/oracle_contracts.go index 4a3c05ccf..4a13198e2 100644 --- a/core/vm/oracle_contracts.go +++ b/core/vm/evm/oracle_contracts.go @@ -15,7 +15,7 @@ // along with the dexon-consensus library. If not, see // <http://www.gnu.org/licenses/>. -package vm +package evm import ( "bytes" @@ -29,6 +29,7 @@ import ( "github.com/dexon-foundation/dexon/accounts/abi" "github.com/dexon-foundation/dexon/common" "github.com/dexon-foundation/dexon/core/types" + "github.com/dexon-foundation/dexon/core/vm" "github.com/dexon-foundation/dexon/crypto" "github.com/dexon-foundation/dexon/params" "github.com/dexon-foundation/dexon/rlp" @@ -124,7 +125,7 @@ func IdToAddress(id coreTypes.NodeID) common.Address { // State manipulation helper fro the governance contract. type GovernanceState struct { - StateDB StateDB + StateDB vm.StateDB } func (s *GovernanceState) getState(loc common.Hash) common.Hash { @@ -1277,7 +1278,7 @@ type tsigVerifierIntf interface { type GovernanceContract struct { evm *EVM state GovernanceState - contract *Contract + contract *vm.Contract coreDKGUtils coreDKGUtils } @@ -1324,7 +1325,7 @@ func (g *GovernanceContract) transfer(from, to common.Address, amount *big.Int) func (g *GovernanceContract) useGas(gas uint64) ([]byte, error) { if !g.contract.UseGas(gas) { - return nil, ErrOutOfGas + return nil, vm.ErrOutOfGas } return nil, nil } @@ -1913,17 +1914,17 @@ func (g *GovernanceContract) payFine(nodeAddr common.Address) ([]byte, error) { } node := g.state.Node(nodeOffset) - if node.Fined.Cmp(big.NewInt(0)) <= 0 || node.Fined.Cmp(g.contract.Value()) < 0 { + if node.Fined.Cmp(big.NewInt(0)) <= 0 || node.Fined.Cmp(g.contract.Value) < 0 { return nil, errExecutionReverted } - node.Fined = new(big.Int).Sub(node.Fined, g.contract.Value()) + node.Fined = new(big.Int).Sub(node.Fined, g.contract.Value) g.state.UpdateNode(nodeOffset, node) // Pay the fine to governance owner. g.evm.StateDB.AddBalance(g.state.Owner(), g.contract.Value) - g.state.emitFinePaid(nodeAddr, g.contract.Value()) + g.state.emitFinePaid(nodeAddr, g.contract.Value) return g.useGas(GovernanceActionGasCost) } @@ -2187,7 +2188,7 @@ func (g *GovernanceContract) resetDKG(newSignedCRS []byte) ([]byte, error) { } // Run executes governance contract. -func (g *GovernanceContract) Run(evm *EVM, input []byte, contract *Contract) (ret []byte, err error) { +func (g *GovernanceContract) Run(evm *EVM, input []byte, contract *vm.Contract) (ret []byte, err error) { if len(input) < 4 { return nil, errExecutionReverted } diff --git a/core/vm/oracle_contracts_test.go b/core/vm/evm/oracle_contracts_test.go index c77313ba7..41bf0fb58 100644 --- a/core/vm/oracle_contracts_test.go +++ b/core/vm/evm/oracle_contracts_test.go @@ -15,7 +15,7 @@ // along with the dexon-consensus library. If not, see // <http://www.gnu.org/licenses/>. -package vm +package evm import ( "bytes" @@ -36,6 +36,7 @@ import ( "github.com/dexon-foundation/dexon/common" "github.com/dexon-foundation/dexon/core/state" + "github.com/dexon-foundation/dexon/core/vm" "github.com/dexon-foundation/dexon/crypto" "github.com/dexon-foundation/dexon/ethdb" "github.com/dexon-foundation/dexon/params" @@ -164,7 +165,7 @@ func TestGovernanceState(t *testing.T) { type OracleContractsTestSuite struct { suite.Suite - context Context + context vm.Context config *params.DexconConfig memDB *ethdb.MemDatabase stateDB *state.StateDB @@ -208,11 +209,11 @@ func (g *OracleContractsTestSuite) SetupTest() { g.stateDB.Commit(true) - g.context = Context{ - CanTransfer: func(db StateDB, addr common.Address, amount *big.Int) bool { + g.context = vm.Context{ + CanTransfer: func(db vm.StateDB, addr common.Address, amount *big.Int) bool { return db.GetBalance(addr).Cmp(amount) >= 0 }, - Transfer: func(db StateDB, sender common.Address, recipient common.Address, amount *big.Int) { + Transfer: func(db vm.StateDB, sender common.Address, recipient common.Address, amount *big.Int) { db.SubBalance(sender, amount) db.AddBalance(recipient, amount) }, @@ -249,7 +250,7 @@ func (g *OracleContractsTestSuite) call( g.context.Time = big.NewInt(time.Now().UnixNano() / 1000000) evm := NewEVM(g.context, g.stateDB, params.TestChainConfig, Config{IsBlockProposer: true}) - ret, _, err := evm.Call(AccountRef(caller), contractAddr, input, 10000000, value) + ret, _, err := evm.Call(vm.AccountRef(caller), contractAddr, input, 10000000, value) return ret, err } |