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eigen_pod_proofs.go
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eigen_pod_proofs.go
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package eigenpodproofs
import (
"errors"
"time"
"github.com/attestantio/go-eth2-client/spec"
"github.com/attestantio/go-eth2-client/spec/deneb"
"github.com/attestantio/go-eth2-client/spec/phase0"
expirable "github.com/hashicorp/golang-lru/v2/expirable"
beacon "github.com/Layr-Labs/eigenpod-proofs-generation/beacon"
"github.com/Layr-Labs/eigenpod-proofs-generation/common"
)
const (
MAX_ORACLE_STATE_CACHE_SIZE = 2000000
)
type EigenPodProofs struct {
chainID uint64
oracleStateRootCache *expirable.LRU[uint64, phase0.Root]
oracleStateTopLevelRootsCache *expirable.LRU[uint64, *beacon.BeaconStateTopLevelRoots]
oracleStateValidatorTreeCache *expirable.LRU[uint64, [][]phase0.Root]
oracleStateValidatorBalancesTreeCache *expirable.LRU[uint64, [][]phase0.Root]
oracleStateCacheExpirySeconds int
}
// NewEigenPodProofs creates a new EigenPodProofs instance.
// chainID is the chain ID of the chain that the EigenPodProofs instance will be used for.
// oracleStateCacheExpirySeconds is the expiry time for the oracle state cache in seconds. After this time caches of beacon state roots, validator trees and validator balances trees will be evicted.
func NewEigenPodProofs(chainID uint64, oracleStateCacheExpirySeconds int) (*EigenPodProofs, error) {
if chainID != 1 && chainID != 17000 {
return nil, errors.New("chainID not supported")
}
oracleStateRootCache := expirable.NewLRU[uint64, phase0.Root](MAX_ORACLE_STATE_CACHE_SIZE, nil, time.Duration(oracleStateCacheExpirySeconds)*time.Second)
oracleStateTopLevelRootsCache := expirable.NewLRU[uint64, *beacon.BeaconStateTopLevelRoots](MAX_ORACLE_STATE_CACHE_SIZE, nil, time.Duration(oracleStateCacheExpirySeconds)*time.Second)
oracleStateValidatorTreeCache := expirable.NewLRU[uint64, [][]phase0.Root](MAX_ORACLE_STATE_CACHE_SIZE, nil, time.Duration(oracleStateCacheExpirySeconds)*time.Second)
oracleStateValidatorBalancesTreeCache := expirable.NewLRU[uint64, [][]phase0.Root](MAX_ORACLE_STATE_CACHE_SIZE, nil, time.Duration(oracleStateCacheExpirySeconds)*time.Second)
return &EigenPodProofs{
chainID: chainID,
oracleStateRootCache: oracleStateRootCache,
oracleStateTopLevelRootsCache: oracleStateTopLevelRootsCache,
oracleStateValidatorTreeCache: oracleStateValidatorTreeCache,
oracleStateCacheExpirySeconds: oracleStateCacheExpirySeconds,
oracleStateValidatorBalancesTreeCache: oracleStateValidatorBalancesTreeCache,
}, nil
}
func (epp *EigenPodProofs) PrecomputeCache(state *spec.VersionedBeaconState) error {
slot, err := state.Slot()
if err != nil {
return err
}
validators, err := state.Validators()
if err != nil {
return err
}
balances, err := state.ValidatorBalances()
if err != nil {
return err
}
epp.ComputeBeaconStateRoot(state.Deneb)
epp.ComputeBeaconStateTopLevelRoots(state)
epp.ComputeVersionedBeaconStateTopLevelRoots(state)
epp.ComputeValidatorTree(slot, validators)
epp.ComputeValidatorBalancesTree(slot, balances)
return nil
}
func (epp *EigenPodProofs) ComputeBeaconStateRoot(beaconState *deneb.BeaconState) (phase0.Root, error) {
beaconStateRoot, err := epp.loadOrComputeBeaconStateRoot(
beaconState.Slot,
func() (phase0.Root, error) {
stateRoot, err := beaconState.HashTreeRoot()
if err != nil {
return phase0.Root{}, err
}
return stateRoot, nil
},
)
if err != nil {
return phase0.Root{}, err
}
return beaconStateRoot, nil
}
func (epp *EigenPodProofs) ComputeBeaconStateTopLevelRoots(beaconState *spec.VersionedBeaconState) (*beacon.BeaconStateTopLevelRoots, error) {
// get the versioned beacon state's slot
slot, err := beaconState.Slot()
if err != nil {
return nil, err
}
beaconStateTopLevelRoots, err := epp.loadOrComputeBeaconStateTopLevelRoots(
slot,
func() (*beacon.BeaconStateTopLevelRoots, error) {
beaconStateTopLevelRoots, err := epp.ComputeVersionedBeaconStateTopLevelRoots(beaconState)
if err != nil {
return nil, err
}
return beaconStateTopLevelRoots, nil
},
)
if err != nil {
return nil, err
}
return beaconStateTopLevelRoots, err
}
func (epp *EigenPodProofs) ComputeVersionedBeaconStateTopLevelRoots(beaconState *spec.VersionedBeaconState) (*beacon.BeaconStateTopLevelRoots, error) {
switch beaconState.Version {
case spec.DataVersionDeneb:
return beacon.ComputeBeaconStateTopLevelRootsDeneb(beaconState.Deneb)
default:
return nil, errors.New("unsupported beacon state version")
}
}
func (epp *EigenPodProofs) ComputeValidatorTree(slot phase0.Slot, validators []*phase0.Validator) ([][]phase0.Root, error) {
validatorTree, err := epp.loadOrComputeValidatorTree(
slot,
func() ([][]phase0.Root, error) {
// compute the validator tree leaves
validatorLeaves, err := beacon.ComputeValidatorTreeLeaves(validators)
if err != nil {
return nil, err
}
// compute the validator tree
validatorTree, err := common.ComputeMerkleTreeFromLeaves(validatorLeaves, beacon.VALIDATOR_TREE_HEIGHT)
if err != nil {
return nil, err
}
// cache the validator tree
return validatorTree, nil
},
)
if err != nil {
return nil, err
}
return validatorTree, nil
}
func (epp *EigenPodProofs) ComputeValidatorBalancesTree(slot phase0.Slot, balances []phase0.Gwei) ([][]phase0.Root, error) {
validatorBalancesTree, err := epp.loadOrComputeValidatorBalancesTree(
slot,
func() ([][]phase0.Root, error) {
// compute the validator balances tree leaves
balanceRoots := beacon.ComputeValidatorBalancesTreeLeaves(balances)
// compute the validator balances tree
validatorBalancesTree, err := common.ComputeMerkleTreeFromLeaves(balanceRoots, beacon.GetValidatorBalancesProofDepth(len(balances)))
if err != nil {
return nil, err
}
// cache the validator balances tree
return validatorBalancesTree, nil
},
)
if err != nil {
return nil, err
}
return validatorBalancesTree, nil
}
func (epp *EigenPodProofs) loadOrComputeBeaconStateRoot(slot phase0.Slot, getData func() (phase0.Root, error)) (phase0.Root, error) {
root, found := epp.oracleStateRootCache.Get(uint64(slot))
if found {
return root, nil
}
// compute the data
root, err := getData()
if err != nil {
return phase0.Root{}, err
}
// cache the beacon state root
epp.oracleStateRootCache.Add(uint64(slot), root)
return root, nil
}
func (epp *EigenPodProofs) loadOrComputeBeaconStateTopLevelRoots(slot phase0.Slot, getData func() (*beacon.BeaconStateTopLevelRoots, error)) (*beacon.BeaconStateTopLevelRoots, error) {
topLevelRoots, found := epp.oracleStateTopLevelRootsCache.Get(uint64(slot))
if found {
return topLevelRoots, nil
}
// compute the data
topLevelRoots, err := getData()
if err != nil {
return nil, err
}
// cache the beacon state root
epp.oracleStateTopLevelRootsCache.Add(uint64(slot), topLevelRoots)
return topLevelRoots, nil
}
func (epp *EigenPodProofs) loadOrComputeValidatorTree(slot phase0.Slot, getData func() ([][]phase0.Root, error)) ([][]phase0.Root, error) {
validatorTree, found := epp.oracleStateValidatorTreeCache.Get(uint64(slot))
if found {
return validatorTree, nil
}
// compute the data
validatorTree, err := getData()
if err != nil {
return nil, err
}
// cache the beacon state root
epp.oracleStateValidatorTreeCache.Add(uint64(slot), validatorTree)
return validatorTree, nil
}
func (epp *EigenPodProofs) loadOrComputeValidatorBalancesTree(slot phase0.Slot, getData func() ([][]phase0.Root, error)) ([][]phase0.Root, error) {
balancesTree, found := epp.oracleStateValidatorBalancesTreeCache.Get(uint64(slot))
if found {
return balancesTree, nil
}
// compute the data
balancesTree, err := getData()
if err != nil {
return nil, err
}
// cache the beacon state root
epp.oracleStateValidatorBalancesTreeCache.Add(uint64(slot), balancesTree)
return balancesTree, nil
}