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336 lines
11 KiB
336 lines
11 KiB
package vm
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import (
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"errors"
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"math/big"
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"strings"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/harmony-one/harmony/accounts/abi"
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"github.com/harmony-one/harmony/core/types"
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"github.com/harmony-one/harmony/shard"
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"github.com/harmony-one/harmony/staking"
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stakingTypes "github.com/harmony-one/harmony/staking/types"
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)
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// WriteCapablePrecompiledContractsStaking lists out the write capable precompiled contracts
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// which are available after the StakingPrecompileEpoch
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// for now, we have only one contract at 252 or 0xfc - which is the staking precompile
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var WriteCapablePrecompiledContractsStaking = map[common.Address]WriteCapablePrecompiledContract{
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common.BytesToAddress([]byte{252}): &stakingPrecompile{},
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}
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var (
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// reserve 250 for read only staking precompile and 251 for epoch
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crossShardXferPrecompileAddress = common.BytesToAddress([]byte{249})
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)
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// WriteCapablePrecompiledContractsCrossXfer lists out the write capable precompiled contracts
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// which are available after the CrossShardXferPrecompileEpoch
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// It includes the staking precompile and the cross-shard transfer precompile
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var WriteCapablePrecompiledContractsCrossXfer = map[common.Address]WriteCapablePrecompiledContract{
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crossShardXferPrecompileAddress: &crossShardXferPrecompile{address: crossShardXferPrecompileAddress},
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common.BytesToAddress([]byte{252}): &stakingPrecompile{},
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}
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// WriteCapablePrecompiledContract represents the interface for Native Go contracts
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// which are available as a precompile in the EVM
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// As with (read-only) PrecompiledContracts, these need a RequiredGas function
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// Note that these contracts have the capability to alter the state
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// while those in contracts.go do not
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type WriteCapablePrecompiledContract interface {
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// RequiredGas calculates the contract gas use
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RequiredGas(evm *EVM, contract *Contract, input []byte) (uint64, error)
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// use a different name from read-only contracts to be safe
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RunWriteCapable(evm *EVM, contract *Contract, input []byte, value *big.Int) ([]byte, error)
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}
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// RunWriteCapablePrecompiledContract runs and evaluates the output of a write capable precompiled contract.
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func RunWriteCapablePrecompiledContract(
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p WriteCapablePrecompiledContract,
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evm *EVM,
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contract *Contract,
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input []byte,
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readOnly bool,
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value *big.Int,
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) ([]byte, error) {
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// immediately error out if readOnly
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if readOnly {
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return nil, errWriteProtection
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}
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gas, err := p.RequiredGas(evm, contract, input)
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if err != nil {
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return nil, err
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}
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if !contract.UseGas(gas) {
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return nil, ErrOutOfGas
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}
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return p.RunWriteCapable(evm, contract, input, value)
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}
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type stakingPrecompile struct{}
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// RequiredGas returns the gas required to execute the pre-compiled contract.
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//
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// This method does not require any overflow checking as the input size gas costs
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// required for anything significant is so high it's impossible to pay for.
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func (c *stakingPrecompile) RequiredGas(
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evm *EVM,
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contract *Contract,
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input []byte,
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) (uint64, error) {
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// if invalid data or invalid shard
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// set payload to blank and charge minimum gas
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var payload []byte = make([]byte, 0)
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// availability of staking and precompile has already been checked
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if evm.Context.ShardID == shard.BeaconChainShardID {
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// check that input is well formed
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// meaning all the expected parameters are available
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// and that we are only trying to perform staking tx
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// on behalf of the correct entity
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stakeMsg, err := staking.ParseStakeMsg(contract.Caller(), input)
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if err == nil {
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// otherwise charge similar to a regular staking tx
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if migrationMsg, ok := stakeMsg.(*stakingTypes.MigrationMsg); ok {
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// charge per delegation to migrate
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return evm.CalculateMigrationGas(evm.StateDB,
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migrationMsg,
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evm.ChainConfig().IsS3(evm.EpochNumber),
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evm.ChainConfig().IsIstanbul(evm.EpochNumber),
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)
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} else if encoded, err := rlp.EncodeToBytes(stakeMsg); err == nil {
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payload = encoded
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}
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}
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}
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if gas, err := IntrinsicGas(
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payload,
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false, // contractCreation
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evm.ChainConfig().IsS3(evm.EpochNumber), // homestead
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evm.ChainConfig().IsIstanbul(evm.EpochNumber), // istanbul
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false, // isValidatorCreation
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); err != nil {
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return 0, err // ErrOutOfGas occurs when gas payable > uint64
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} else {
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return gas, nil
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}
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}
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// RunWriteCapable runs the actual contract (that is it performs the staking)
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func (c *stakingPrecompile) RunWriteCapable(
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evm *EVM,
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contract *Contract,
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input []byte,
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value *big.Int,
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) ([]byte, error) {
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if evm.Context.ShardID != shard.BeaconChainShardID {
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return nil, errors.New("Staking not supported on this shard")
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}
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stakeMsg, err := staking.ParseStakeMsg(contract.Caller(), input)
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if err != nil {
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return nil, err
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}
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var rosettaBlockTracer RosettaTracer
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if tmpTracker, ok := evm.vmConfig.Tracer.(RosettaTracer); ok {
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rosettaBlockTracer = tmpTracker
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}
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if delegate, ok := stakeMsg.(*stakingTypes.Delegate); ok {
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if err := evm.Delegate(evm.StateDB, rosettaBlockTracer, delegate); err != nil {
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return nil, err
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} else {
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evm.StakeMsgs = append(evm.StakeMsgs, delegate)
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return nil, nil
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}
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}
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if undelegate, ok := stakeMsg.(*stakingTypes.Undelegate); ok {
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return nil, evm.Undelegate(evm.StateDB, rosettaBlockTracer, undelegate)
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}
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if collectRewards, ok := stakeMsg.(*stakingTypes.CollectRewards); ok {
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return nil, evm.CollectRewards(evm.StateDB, rosettaBlockTracer, collectRewards)
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}
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// Migrate is not supported in precompile and will be done in a batch hard fork
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//if migrationMsg, ok := stakeMsg.(*stakingTypes.MigrationMsg); ok {
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// stakeMsgs, err := evm.MigrateDelegations(evm.StateDB, migrationMsg)
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// if err != nil {
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// return nil, err
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// } else {
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// for _, stakeMsg := range stakeMsgs {
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// if delegate, ok := stakeMsg.(*stakingTypes.Delegate); ok {
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// evm.StakeMsgs = append(evm.StakeMsgs, delegate)
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// } else {
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// return nil, errors.New("[StakingPrecompile] Received incompatible stakeMsg from evm.MigrateDelegations")
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// }
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// }
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// return nil, nil
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// }
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//}
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return nil, errors.New("[StakingPrecompile] Received incompatible stakeMsg from staking.ParseStakeMsg")
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}
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var abiCrossShardXfer abi.ABI
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func init() {
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// msg.Value is used for transfer and is also a parameter
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// otherwise it might be possible for a user to retrieve money from the precompile
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// that was sent by someone else prior to the hard fork
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// contract.Caller is used as fromAddress, not a parameter
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// originating ShardID is pulled from the EVM object, not a parameter
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crossShardXferABIJSON := `
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[
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{
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"inputs": [
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{
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"internalType": "uint256",
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"name": "value",
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"type": "uint256"
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},
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{
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"internalType": "address",
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"name": "to",
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"type": "address"
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},
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{
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"internalType": "uint64",
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"name": "toShardID",
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"type": "uint32"
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}
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],
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"name": "crossShardTransfer",
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"outputs": [],
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"stateMutability": "payable",
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"type": "function"
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}
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]`
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var err error
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abiCrossShardXfer, err = abi.JSON(strings.NewReader(crossShardXferABIJSON))
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if err != nil {
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// means an error in the code
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panic("Invalid cross shard transfer ABI JSON")
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}
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}
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type crossShardXferPrecompile struct {
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address common.Address
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}
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// RequiredGas returns the gas required to execute the pre-compiled contract.
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//
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// This method does not require any overflow checking as the input size gas costs
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// required for anything significant is so high it's impossible to pay for.
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func (c *crossShardXferPrecompile) RequiredGas(
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evm *EVM,
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contract *Contract,
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input []byte,
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) (uint64, error) {
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// we just charge the intrinsic gas here
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// using data that includes: fromAddress, toAddress, fromShardID, toShardID, value
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var payload []byte = make([]byte, 0)
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fromAddress, toAddress, fromShardID, toShardID, value, err := parseCrossShardXferData(evm, contract, input)
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if err == nil {
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data := struct {
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fromAddress common.Address
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toAddress common.Address
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fromShardID uint32
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toShardID uint32
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value *big.Int
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}{
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fromAddress: fromAddress,
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toAddress: toAddress,
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fromShardID: fromShardID,
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toShardID: toShardID,
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value: value,
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}
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if encoded, err := rlp.EncodeToBytes(data); err == nil {
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payload = encoded
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}
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}
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if gas, err := IntrinsicGas(
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payload,
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false, // contractCreation
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evm.ChainConfig().IsS3(evm.EpochNumber), // homestead
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evm.ChainConfig().IsIstanbul(evm.EpochNumber), // istanbul
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false, // isValidatorCreation
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); err != nil {
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return 0, err // ErrOutOfGas occurs when gas payable > uint64
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} else {
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return gas, nil
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}
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}
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// RunWriteCapable runs the actual contract
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func (c *crossShardXferPrecompile) RunWriteCapable(
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evm *EVM,
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contract *Contract,
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input []byte,
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sentValue *big.Int,
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) ([]byte, error) {
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fromAddress, toAddress, fromShardID, toShardID, value, err := parseCrossShardXferData(evm, contract, input)
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if err != nil {
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return nil, err
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}
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// validate not a contract
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if len(evm.StateDB.GetCode(fromAddress)) > 0 && !evm.IsValidator(evm.StateDB, fromAddress) {
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return nil, errors.New("cross shard xfer not yet implemented for contracts")
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}
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// validate not a contract
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if len(evm.StateDB.GetCode(toAddress)) > 0 && !evm.IsValidator(evm.StateDB, toAddress) {
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return nil, errors.New("cross shard xfer not yet implemented for contracts")
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}
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// can't have too many shards
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if toShardID >= evm.Context.NumShards {
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return nil, errors.New("toShardId out of bounds")
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}
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// not for simple transfers
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if fromShardID == toShardID {
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return nil, errors.New("from and to shard id can't be equal")
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}
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// make sure nobody sends extra or less money
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// no need to check `nil` because that only happens in readOnly
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// which has already been checked
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if sentValue.Cmp(value) != 0 {
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return nil, errors.New("argument value and msg.value not equal")
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}
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// now do the actual transfer
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// step 1 -> remove funds from the precompile address
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evm.Transfer(evm.StateDB, c.address, toAddress, value, types.SubtractionOnly)
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// step 2 -> make a cross link
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// note that the transaction hash is added by state_processor.go to this receipt
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evm.CXReceipt = &types.CXReceipt{
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From: fromAddress,
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To: &toAddress,
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ShardID: fromShardID,
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ToShardID: toShardID,
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Amount: value,
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}
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return nil, nil
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}
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// parseCrossShardXferData does a simple parse with only data types validation
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func parseCrossShardXferData(evm *EVM, contract *Contract, input []byte) (
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common.Address, common.Address, uint32, uint32, *big.Int, error) {
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method, err := abiCrossShardXfer.MethodById(input)
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if err != nil {
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return common.Address{}, common.Address{}, 0, 0, nil, err
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}
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input = input[4:]
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args := map[string]interface{}{}
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if err = method.Inputs.UnpackIntoMap(args, input); err != nil {
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return common.Address{}, common.Address{}, 0, 0, nil, err
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}
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value, err := abi.ParseBigIntFromKey(args, "value")
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if err != nil {
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return common.Address{}, common.Address{}, 0, 0, nil, err
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}
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toAddress, err := abi.ParseAddressFromKey(args, "to")
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if err != nil {
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return common.Address{}, common.Address{}, 0, 0, nil, err
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}
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toShardID, err := abi.ParseUint32FromKey(args, "toShardID")
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if err != nil {
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return common.Address{}, common.Address{}, 0, 0, nil, err
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}
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return contract.Caller(), toAddress, evm.ShardID, toShardID, value, nil
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}
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