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standard_tx_executor.go
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standard_tx_executor.go
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// Copyright (C) 2019-2024, Ava Labs, Inc. All rights reserved.
// See the file LICENSE for licensing terms.
package executor
import (
"context"
"errors"
"fmt"
"time"
"go.uber.org/zap"
"github.com/ava-labs/avalanchego/chains/atomic"
"github.com/ava-labs/avalanchego/ids"
"github.com/ava-labs/avalanchego/utils/constants"
"github.com/ava-labs/avalanchego/utils/set"
"github.com/ava-labs/avalanchego/vms/components/avax"
"github.com/ava-labs/avalanchego/vms/components/verify"
"github.com/ava-labs/avalanchego/vms/platformvm/state"
"github.com/ava-labs/avalanchego/vms/platformvm/txs"
)
var (
_ txs.Visitor = (*StandardTxExecutor)(nil)
errEmptyNodeID = errors.New("validator nodeID cannot be empty")
errMaxStakeDurationTooLarge = errors.New("max stake duration must be less than or equal to the global max stake duration")
errMissingStartTimePreDurango = errors.New("staker transactions must have a StartTime pre-Durango")
)
type StandardTxExecutor struct {
// inputs, to be filled before visitor methods are called
*Backend
State state.Diff // state is expected to be modified
Tx *txs.Tx
// outputs of visitor execution
OnAccept func() // may be nil
Inputs set.Set[ids.ID]
AtomicRequests map[ids.ID]*atomic.Requests // may be nil
}
func (*StandardTxExecutor) AdvanceTimeTx(*txs.AdvanceTimeTx) error {
return ErrWrongTxType
}
func (*StandardTxExecutor) RewardValidatorTx(*txs.RewardValidatorTx) error {
return ErrWrongTxType
}
func (e *StandardTxExecutor) CreateChainTx(tx *txs.CreateChainTx) error {
if err := e.Tx.SyntacticVerify(e.Ctx); err != nil {
return err
}
baseTxCreds, err := verifyPoASubnetAuthorization(e.Backend, e.State, e.Tx, tx.SubnetID, tx.SubnetAuth)
if err != nil {
return err
}
// Verify the flowcheck
timestamp := e.State.GetTimestamp()
createBlockchainTxFee := e.Config.GetCreateBlockchainTxFee(timestamp)
if err := e.FlowChecker.VerifySpend(
tx,
e.State,
tx.Ins,
tx.Outs,
baseTxCreds,
map[ids.ID]uint64{
e.Ctx.AVAXAssetID: createBlockchainTxFee,
},
); err != nil {
return err
}
txID := e.Tx.ID()
// Consume the UTXOS
avax.Consume(e.State, tx.Ins)
// Produce the UTXOS
avax.Produce(e.State, txID, tx.Outs)
// Add the new chain to the database
e.State.AddChain(e.Tx)
// If this proposal is committed and this node is a member of the subnet
// that validates the blockchain, create the blockchain
e.OnAccept = func() {
e.Config.CreateChain(txID, tx)
}
return nil
}
func (e *StandardTxExecutor) CreateSubnetTx(tx *txs.CreateSubnetTx) error {
// Make sure this transaction is well formed.
if err := e.Tx.SyntacticVerify(e.Ctx); err != nil {
return err
}
// Verify the flowcheck
timestamp := e.State.GetTimestamp()
createSubnetTxFee := e.Config.GetCreateSubnetTxFee(timestamp)
if err := e.FlowChecker.VerifySpend(
tx,
e.State,
tx.Ins,
tx.Outs,
e.Tx.Creds,
map[ids.ID]uint64{
e.Ctx.AVAXAssetID: createSubnetTxFee,
},
); err != nil {
return err
}
txID := e.Tx.ID()
// Consume the UTXOS
avax.Consume(e.State, tx.Ins)
// Produce the UTXOS
avax.Produce(e.State, txID, tx.Outs)
// Add the new subnet to the database
e.State.AddSubnet(e.Tx)
e.State.SetSubnetOwner(txID, tx.Owner)
return nil
}
func (e *StandardTxExecutor) ImportTx(tx *txs.ImportTx) error {
if err := e.Tx.SyntacticVerify(e.Ctx); err != nil {
return err
}
e.Inputs = set.NewSet[ids.ID](len(tx.ImportedInputs))
utxoIDs := make([][]byte, len(tx.ImportedInputs))
for i, in := range tx.ImportedInputs {
utxoID := in.UTXOID.InputID()
e.Inputs.Add(utxoID)
utxoIDs[i] = utxoID[:]
}
// Skip verification of the shared memory inputs if the other primary
// network chains are not guaranteed to be up-to-date.
if e.Bootstrapped.Get() && !e.Config.PartialSyncPrimaryNetwork {
if err := verify.SameSubnet(context.TODO(), e.Ctx, tx.SourceChain); err != nil {
return err
}
allUTXOBytes, err := e.Ctx.SharedMemory.Get(tx.SourceChain, utxoIDs)
if err != nil {
return fmt.Errorf("failed to get shared memory: %w", err)
}
utxos := make([]*avax.UTXO, len(tx.Ins)+len(tx.ImportedInputs))
for index, input := range tx.Ins {
utxo, err := e.State.GetUTXO(input.InputID())
if err != nil {
return fmt.Errorf("failed to get UTXO %s: %w", &input.UTXOID, err)
}
utxos[index] = utxo
}
for i, utxoBytes := range allUTXOBytes {
utxo := &avax.UTXO{}
if _, err := txs.Codec.Unmarshal(utxoBytes, utxo); err != nil {
return fmt.Errorf("failed to unmarshal UTXO: %w", err)
}
utxos[i+len(tx.Ins)] = utxo
}
ins := make([]*avax.TransferableInput, len(tx.Ins)+len(tx.ImportedInputs))
copy(ins, tx.Ins)
copy(ins[len(tx.Ins):], tx.ImportedInputs)
if err := e.FlowChecker.VerifySpendUTXOs(
tx,
utxos,
ins,
tx.Outs,
e.Tx.Creds,
map[ids.ID]uint64{
e.Ctx.AVAXAssetID: e.Config.TxFee,
},
); err != nil {
return err
}
}
txID := e.Tx.ID()
// Consume the UTXOS
avax.Consume(e.State, tx.Ins)
// Produce the UTXOS
avax.Produce(e.State, txID, tx.Outs)
// Note: We apply atomic requests even if we are not verifying atomic
// requests to ensure the shared state will be correct if we later start
// verifying the requests.
e.AtomicRequests = map[ids.ID]*atomic.Requests{
tx.SourceChain: {
RemoveRequests: utxoIDs,
},
}
return nil
}
func (e *StandardTxExecutor) ExportTx(tx *txs.ExportTx) error {
if err := e.Tx.SyntacticVerify(e.Ctx); err != nil {
return err
}
outs := make([]*avax.TransferableOutput, len(tx.Outs)+len(tx.ExportedOutputs))
copy(outs, tx.Outs)
copy(outs[len(tx.Outs):], tx.ExportedOutputs)
if e.Bootstrapped.Get() {
if err := verify.SameSubnet(context.TODO(), e.Ctx, tx.DestinationChain); err != nil {
return err
}
}
// Verify the flowcheck
if err := e.FlowChecker.VerifySpend(
tx,
e.State,
tx.Ins,
outs,
e.Tx.Creds,
map[ids.ID]uint64{
e.Ctx.AVAXAssetID: e.Config.TxFee,
},
); err != nil {
return fmt.Errorf("failed verifySpend: %w", err)
}
txID := e.Tx.ID()
// Consume the UTXOS
avax.Consume(e.State, tx.Ins)
// Produce the UTXOS
avax.Produce(e.State, txID, tx.Outs)
// Note: We apply atomic requests even if we are not verifying atomic
// requests to ensure the shared state will be correct if we later start
// verifying the requests.
elems := make([]*atomic.Element, len(tx.ExportedOutputs))
for i, out := range tx.ExportedOutputs {
utxo := &avax.UTXO{
UTXOID: avax.UTXOID{
TxID: txID,
OutputIndex: uint32(len(tx.Outs) + i),
},
Asset: avax.Asset{ID: out.AssetID()},
Out: out.Out,
}
utxoBytes, err := txs.Codec.Marshal(txs.CodecVersion, utxo)
if err != nil {
return fmt.Errorf("failed to marshal UTXO: %w", err)
}
utxoID := utxo.InputID()
elem := &atomic.Element{
Key: utxoID[:],
Value: utxoBytes,
}
if out, ok := utxo.Out.(avax.Addressable); ok {
elem.Traits = out.Addresses()
}
elems[i] = elem
}
e.AtomicRequests = map[ids.ID]*atomic.Requests{
tx.DestinationChain: {
PutRequests: elems,
},
}
return nil
}
func (e *StandardTxExecutor) AddValidatorTx(tx *txs.AddValidatorTx) error {
if tx.Validator.NodeID == ids.EmptyNodeID {
return errEmptyNodeID
}
if _, err := verifyAddValidatorTx(
e.Backend,
e.State,
e.Tx,
tx,
); err != nil {
return err
}
if err := e.putStaker(tx); err != nil {
return err
}
txID := e.Tx.ID()
avax.Consume(e.State, tx.Ins)
avax.Produce(e.State, txID, tx.Outs)
if e.Config.PartialSyncPrimaryNetwork && tx.Validator.NodeID == e.Ctx.NodeID {
e.Ctx.Log.Warn("verified transaction that would cause this node to become unhealthy",
zap.String("reason", "primary network is not being fully synced"),
zap.Stringer("txID", txID),
zap.String("txType", "addValidator"),
zap.Stringer("nodeID", tx.Validator.NodeID),
)
}
return nil
}
func (e *StandardTxExecutor) AddSubnetValidatorTx(tx *txs.AddSubnetValidatorTx) error {
if err := verifyAddSubnetValidatorTx(
e.Backend,
e.State,
e.Tx,
tx,
); err != nil {
return err
}
if err := e.putStaker(tx); err != nil {
return err
}
txID := e.Tx.ID()
avax.Consume(e.State, tx.Ins)
avax.Produce(e.State, txID, tx.Outs)
return nil
}
func (e *StandardTxExecutor) AddDelegatorTx(tx *txs.AddDelegatorTx) error {
if _, err := verifyAddDelegatorTx(
e.Backend,
e.State,
e.Tx,
tx,
); err != nil {
return err
}
if err := e.putStaker(tx); err != nil {
return err
}
txID := e.Tx.ID()
avax.Consume(e.State, tx.Ins)
avax.Produce(e.State, txID, tx.Outs)
return nil
}
// Verifies a [*txs.RemoveSubnetValidatorTx] and, if it passes, executes it on
// [e.State]. For verification rules, see [verifyRemoveSubnetValidatorTx]. This
// transaction will result in [tx.NodeID] being removed as a validator of
// [tx.SubnetID].
// Note: [tx.NodeID] may be either a current or pending validator.
func (e *StandardTxExecutor) RemoveSubnetValidatorTx(tx *txs.RemoveSubnetValidatorTx) error {
staker, isCurrentValidator, err := verifyRemoveSubnetValidatorTx(
e.Backend,
e.State,
e.Tx,
tx,
)
if err != nil {
return err
}
if isCurrentValidator {
e.State.DeleteCurrentValidator(staker)
} else {
e.State.DeletePendingValidator(staker)
}
// Invariant: There are no permissioned subnet delegators to remove.
txID := e.Tx.ID()
avax.Consume(e.State, tx.Ins)
avax.Produce(e.State, txID, tx.Outs)
return nil
}
func (e *StandardTxExecutor) TransformSubnetTx(tx *txs.TransformSubnetTx) error {
if err := e.Tx.SyntacticVerify(e.Ctx); err != nil {
return err
}
// Note: math.MaxInt32 * time.Second < math.MaxInt64 - so this can never
// overflow.
if time.Duration(tx.MaxStakeDuration)*time.Second > e.Backend.Config.MaxStakeDuration {
return errMaxStakeDurationTooLarge
}
baseTxCreds, err := verifyPoASubnetAuthorization(e.Backend, e.State, e.Tx, tx.Subnet, tx.SubnetAuth)
if err != nil {
return err
}
totalRewardAmount := tx.MaximumSupply - tx.InitialSupply
if err := e.Backend.FlowChecker.VerifySpend(
tx,
e.State,
tx.Ins,
tx.Outs,
baseTxCreds,
// Invariant: [tx.AssetID != e.Ctx.AVAXAssetID]. This prevents the first
// entry in this map literal from being overwritten by the
// second entry.
map[ids.ID]uint64{
e.Ctx.AVAXAssetID: e.Config.TransformSubnetTxFee,
tx.AssetID: totalRewardAmount,
},
); err != nil {
return err
}
txID := e.Tx.ID()
// Consume the UTXOS
avax.Consume(e.State, tx.Ins)
// Produce the UTXOS
avax.Produce(e.State, txID, tx.Outs)
// Transform the new subnet in the database
e.State.AddSubnetTransformation(e.Tx)
e.State.SetCurrentSupply(tx.Subnet, tx.InitialSupply)
return nil
}
func (e *StandardTxExecutor) AddPermissionlessValidatorTx(tx *txs.AddPermissionlessValidatorTx) error {
if err := verifyAddPermissionlessValidatorTx(
e.Backend,
e.State,
e.Tx,
tx,
); err != nil {
return err
}
if err := e.putStaker(tx); err != nil {
return err
}
txID := e.Tx.ID()
avax.Consume(e.State, tx.Ins)
avax.Produce(e.State, txID, tx.Outs)
if e.Config.PartialSyncPrimaryNetwork &&
tx.Subnet == constants.PrimaryNetworkID &&
tx.Validator.NodeID == e.Ctx.NodeID {
e.Ctx.Log.Warn("verified transaction that would cause this node to become unhealthy",
zap.String("reason", "primary network is not being fully synced"),
zap.Stringer("txID", txID),
zap.String("txType", "addPermissionlessValidator"),
zap.Stringer("nodeID", tx.Validator.NodeID),
)
}
return nil
}
func (e *StandardTxExecutor) AddPermissionlessDelegatorTx(tx *txs.AddPermissionlessDelegatorTx) error {
if err := verifyAddPermissionlessDelegatorTx(
e.Backend,
e.State,
e.Tx,
tx,
); err != nil {
return err
}
if err := e.putStaker(tx); err != nil {
return err
}
txID := e.Tx.ID()
avax.Consume(e.State, tx.Ins)
avax.Produce(e.State, txID, tx.Outs)
return nil
}
// Verifies a [*txs.TransferSubnetOwnershipTx] and, if it passes, executes it on
// [e.State]. For verification rules, see [verifyTransferSubnetOwnershipTx].
// This transaction will result in the ownership of [tx.Subnet] being transferred
// to [tx.Owner].
func (e *StandardTxExecutor) TransferSubnetOwnershipTx(tx *txs.TransferSubnetOwnershipTx) error {
err := verifyTransferSubnetOwnershipTx(
e.Backend,
e.State,
e.Tx,
tx,
)
if err != nil {
return err
}
e.State.SetSubnetOwner(tx.Subnet, tx.Owner)
txID := e.Tx.ID()
avax.Consume(e.State, tx.Ins)
avax.Produce(e.State, txID, tx.Outs)
return nil
}
func (e *StandardTxExecutor) BaseTx(tx *txs.BaseTx) error {
if !e.Backend.Config.IsDurangoActivated(e.State.GetTimestamp()) {
return ErrDurangoUpgradeNotActive
}
// Verify the tx is well-formed
if err := e.Tx.SyntacticVerify(e.Ctx); err != nil {
return err
}
// Verify the flowcheck
if err := e.FlowChecker.VerifySpend(
tx,
e.State,
tx.Ins,
tx.Outs,
e.Tx.Creds,
map[ids.ID]uint64{
e.Ctx.AVAXAssetID: e.Config.TxFee,
},
); err != nil {
return err
}
txID := e.Tx.ID()
// Consume the UTXOS
avax.Consume(e.State, tx.Ins)
// Produce the UTXOS
avax.Produce(e.State, txID, tx.Outs)
return nil
}
// Creates the staker as defined in [stakerTx] and adds it to [e.State].
func (e *StandardTxExecutor) putStaker(stakerTx txs.Staker) error {
var (
chainTime = e.State.GetTimestamp()
txID = e.Tx.ID()
staker *state.Staker
err error
)
if !e.Config.IsDurangoActivated(chainTime) {
// Pre-Durango, stakers set a future [StartTime] and are added to the
// pending staker set. They are promoted to the current staker set once
// the chain time reaches [StartTime].
scheduledStakerTx, ok := stakerTx.(txs.ScheduledStaker)
if !ok {
return fmt.Errorf("%w: %T", errMissingStartTimePreDurango, stakerTx)
}
staker, err = state.NewPendingStaker(txID, scheduledStakerTx)
} else {
// Only calculate the potentialReward for permissionless stakers.
// Recall that we only need to check if this is a permissioned
// validator as there are no permissioned delegators
var potentialReward uint64
if !stakerTx.CurrentPriority().IsPermissionedValidator() {
subnetID := stakerTx.SubnetID()
currentSupply, err := e.State.GetCurrentSupply(subnetID)
if err != nil {
return err
}
rewards, err := GetRewardsCalculator(e.Backend, e.State, subnetID)
if err != nil {
return err
}
// Post-Durango, stakers are immediately added to the current staker
// set. Their [StartTime] is the current chain time.
stakeDuration := stakerTx.EndTime().Sub(chainTime)
potentialReward = rewards.Calculate(
stakeDuration,
stakerTx.Weight(),
currentSupply,
)
e.State.SetCurrentSupply(subnetID, currentSupply+potentialReward)
}
staker, err = state.NewCurrentStaker(txID, stakerTx, chainTime, potentialReward)
}
if err != nil {
return err
}
switch priority := staker.Priority; {
case priority.IsCurrentValidator():
e.State.PutCurrentValidator(staker)
case priority.IsCurrentDelegator():
e.State.PutCurrentDelegator(staker)
case priority.IsPendingValidator():
e.State.PutPendingValidator(staker)
case priority.IsPendingDelegator():
e.State.PutPendingDelegator(staker)
default:
return fmt.Errorf("staker %s, unexpected priority %d", staker.TxID, priority)
}
return nil
}