erigon-pulse/turbo/engineapi/engine_server.go

854 lines
33 KiB
Go

package engineapi
import (
"context"
"encoding/binary"
"errors"
"fmt"
"math/big"
"reflect"
"sync"
"time"
"github.com/ledgerwatch/erigon-lib/common/hexutil"
"github.com/ledgerwatch/erigon/cl/clparams"
"github.com/ledgerwatch/log/v3"
"github.com/ledgerwatch/erigon-lib/chain"
libcommon "github.com/ledgerwatch/erigon-lib/common"
"github.com/ledgerwatch/erigon-lib/common/hexutility"
"github.com/ledgerwatch/erigon-lib/gointerfaces"
"github.com/ledgerwatch/erigon-lib/gointerfaces/execution"
"github.com/ledgerwatch/erigon-lib/gointerfaces/txpool"
"github.com/ledgerwatch/erigon-lib/kv"
"github.com/ledgerwatch/erigon-lib/kv/kvcache"
libstate "github.com/ledgerwatch/erigon-lib/state"
"github.com/ledgerwatch/erigon/cmd/rpcdaemon/cli"
"github.com/ledgerwatch/erigon/cmd/rpcdaemon/cli/httpcfg"
"github.com/ledgerwatch/erigon/common"
"github.com/ledgerwatch/erigon/common/math"
"github.com/ledgerwatch/erigon/consensus"
"github.com/ledgerwatch/erigon/consensus/merge"
"github.com/ledgerwatch/erigon/core/types"
"github.com/ledgerwatch/erigon/rpc"
"github.com/ledgerwatch/erigon/turbo/engineapi/engine_block_downloader"
"github.com/ledgerwatch/erigon/turbo/engineapi/engine_helpers"
"github.com/ledgerwatch/erigon/turbo/engineapi/engine_types"
"github.com/ledgerwatch/erigon/turbo/execution/eth1/eth1_chain_reader.go"
"github.com/ledgerwatch/erigon/turbo/jsonrpc"
"github.com/ledgerwatch/erigon/turbo/rpchelper"
"github.com/ledgerwatch/erigon/turbo/services"
"github.com/ledgerwatch/erigon/turbo/stages/headerdownload"
)
type EngineServer struct {
hd *headerdownload.HeaderDownload
blockDownloader *engine_block_downloader.EngineBlockDownloader
config *chain.Config
// Block proposing for proof-of-stake
proposing bool
test bool
executionService execution.ExecutionClient
chainRW eth1_chain_reader.ChainReaderWriterEth1
ctx context.Context
lock sync.Mutex
logger log.Logger
}
const fcuTimeout = 1000 // according to mathematics: 1000 millisecods = 1 second
func NewEngineServer(ctx context.Context, logger log.Logger, config *chain.Config, executionService execution.ExecutionClient,
hd *headerdownload.HeaderDownload,
blockDownloader *engine_block_downloader.EngineBlockDownloader, test bool, proposing bool) *EngineServer {
chainRW := eth1_chain_reader.NewChainReaderEth1(ctx, config, executionService, fcuTimeout)
return &EngineServer{
ctx: ctx,
logger: logger,
config: config,
executionService: executionService,
blockDownloader: blockDownloader,
chainRW: chainRW,
proposing: proposing,
hd: hd,
}
}
func (e *EngineServer) Start(httpConfig *httpcfg.HttpCfg, db kv.RoDB, blockReader services.FullBlockReader,
filters *rpchelper.Filters, stateCache kvcache.Cache, agg *libstate.AggregatorV3, engineReader consensus.EngineReader,
eth rpchelper.ApiBackend, txPool txpool.TxpoolClient, mining txpool.MiningClient) {
base := jsonrpc.NewBaseApi(filters, stateCache, blockReader, agg, httpConfig.WithDatadir, httpConfig.EvmCallTimeout, engineReader, httpConfig.Dirs)
ethImpl := jsonrpc.NewEthAPI(base, db, eth, txPool, mining, httpConfig.Gascap, httpConfig.ReturnDataLimit, httpConfig.AllowUnprotectedTxs, httpConfig.MaxGetProofRewindBlockCount, e.logger)
// engineImpl := NewEngineAPI(base, db, engineBackend)
// e.startEngineMessageHandler()
apiList := []rpc.API{
{
Namespace: "eth",
Public: true,
Service: jsonrpc.EthAPI(ethImpl),
Version: "1.0",
}, {
Namespace: "engine",
Public: true,
Service: EngineAPI(e),
Version: "1.0",
}}
if err := cli.StartRpcServerWithJwtAuthentication(e.ctx, httpConfig, apiList, e.logger); err != nil {
e.logger.Error(err.Error())
}
}
func (s *EngineServer) checkWithdrawalsPresence(time uint64, withdrawals []*types.Withdrawal) error {
if !s.config.IsShanghai(time) && withdrawals != nil {
return &rpc.InvalidParamsError{Message: "withdrawals before shanghai"}
}
if s.config.IsShanghai(time) && withdrawals == nil {
return &rpc.InvalidParamsError{Message: "missing withdrawals list"}
}
return nil
}
func (s *EngineServer) validatePayloadBlobs(req *engine_types.ExecutionPayload,
expectedBlobHashes []libcommon.Hash, transactions *[]types.Transaction) (*engine_types.PayloadStatus, error) {
if expectedBlobHashes == nil {
return nil, &rpc.InvalidParamsError{Message: "nil blob hashes array"}
}
actualBlobHashes := []libcommon.Hash{}
for _, txn := range *transactions {
actualBlobHashes = append(actualBlobHashes, txn.GetBlobHashes()...)
}
if len(actualBlobHashes) > int(s.config.GetMaxBlobsPerBlock()) || req.BlobGasUsed.Uint64() > s.config.GetMaxBlobGasPerBlock() {
s.logger.Warn("[NewPayload] blobs/blobGasUsed exceeds max per block",
"count", len(actualBlobHashes), "BlobGasUsed", req.BlobGasUsed.Uint64())
bad, latestValidHash := s.hd.IsBadHeaderPoS(req.ParentHash)
if !bad {
latestValidHash = req.ParentHash
}
return &engine_types.PayloadStatus{
Status: engine_types.InvalidStatus,
ValidationError: engine_types.NewStringifiedErrorFromString("blobs/blobgas exceeds max"),
LatestValidHash: &latestValidHash,
}, nil
}
if !reflect.DeepEqual(actualBlobHashes, expectedBlobHashes) {
s.logger.Warn("[NewPayload] mismatch in blob hashes",
"expectedBlobHashes", expectedBlobHashes, "actualBlobHashes", actualBlobHashes)
return &engine_types.PayloadStatus{
Status: engine_types.InvalidStatus,
ValidationError: engine_types.NewStringifiedErrorFromString("mismatch in blob hashes"),
}, nil
}
return nil, nil
}
// EngineNewPayload validates and possibly executes payload
func (s *EngineServer) newPayload(ctx context.Context, req *engine_types.ExecutionPayload,
expectedBlobHashes []libcommon.Hash, parentBeaconBlockRoot *libcommon.Hash, version clparams.StateVersion,
) (*engine_types.PayloadStatus, error) {
var bloom types.Bloom
copy(bloom[:], req.LogsBloom)
txs := [][]byte{}
for _, transaction := range req.Transactions {
txs = append(txs, transaction)
}
header := types.Header{
ParentHash: req.ParentHash,
Coinbase: req.FeeRecipient,
Root: req.StateRoot,
Bloom: bloom,
BaseFee: (*big.Int)(req.BaseFeePerGas),
Extra: req.ExtraData,
Number: big.NewInt(int64(req.BlockNumber)),
GasUsed: uint64(req.GasUsed),
GasLimit: uint64(req.GasLimit),
Time: uint64(req.Timestamp),
MixDigest: req.PrevRandao,
UncleHash: types.EmptyUncleHash,
Difficulty: merge.ProofOfStakeDifficulty,
Nonce: merge.ProofOfStakeNonce,
ReceiptHash: req.ReceiptsRoot,
TxHash: types.DeriveSha(types.BinaryTransactions(txs)),
}
var withdrawals []*types.Withdrawal
if version >= clparams.CapellaVersion {
withdrawals = req.Withdrawals
}
if withdrawals != nil {
wh := types.DeriveSha(types.Withdrawals(withdrawals))
header.WithdrawalsHash = &wh
}
if err := s.checkWithdrawalsPresence(header.Time, withdrawals); err != nil {
return nil, err
}
if version >= clparams.DenebVersion {
if req.BlobGasUsed == nil || req.ExcessBlobGas == nil || parentBeaconBlockRoot == nil {
return nil, &rpc.InvalidParamsError{Message: "blobGasUsed/excessBlobGas/beaconRoot missing"}
}
header.BlobGasUsed = (*uint64)(req.BlobGasUsed)
header.ExcessBlobGas = (*uint64)(req.ExcessBlobGas)
header.ParentBeaconBlockRoot = parentBeaconBlockRoot
}
if (!s.config.IsCancun(header.Time) && version >= clparams.DenebVersion) ||
(s.config.IsCancun(header.Time) && version < clparams.DenebVersion) {
return nil, &rpc.UnsupportedForkError{Message: "Unsupported fork"}
}
blockHash := req.BlockHash
if header.Hash() != blockHash {
s.logger.Error("[NewPayload] invalid block hash", "stated", blockHash, "actual", header.Hash())
return &engine_types.PayloadStatus{
Status: engine_types.InvalidStatus,
ValidationError: engine_types.NewStringifiedErrorFromString("invalid block hash"),
}, nil
}
for _, txn := range req.Transactions {
if types.TypedTransactionMarshalledAsRlpString(txn) {
s.logger.Warn("[NewPayload] typed txn marshalled as RLP string", "txn", common.Bytes2Hex(txn))
return &engine_types.PayloadStatus{
Status: engine_types.InvalidStatus,
ValidationError: engine_types.NewStringifiedErrorFromString("typed txn marshalled as RLP string"),
}, nil
}
}
transactions, err := types.DecodeTransactions(txs)
if err != nil {
s.logger.Warn("[NewPayload] failed to decode transactions", "err", err)
return &engine_types.PayloadStatus{
Status: engine_types.InvalidStatus,
ValidationError: engine_types.NewStringifiedError(err),
}, nil
}
if version >= clparams.DenebVersion {
status, err := s.validatePayloadBlobs(req, expectedBlobHashes, &transactions)
if err != nil || status != nil {
return status, err
}
}
possibleStatus, err := s.getQuickPayloadStatusIfPossible(blockHash, uint64(req.BlockNumber), header.ParentHash, nil, true)
if err != nil {
return nil, err
}
if possibleStatus != nil {
return possibleStatus, nil
}
s.lock.Lock()
defer s.lock.Unlock()
s.logger.Debug("[NewPayload] sending block", "height", header.Number, "hash", blockHash)
block := types.NewBlockFromStorage(blockHash, &header, transactions, nil /* uncles */, withdrawals)
payloadStatus, err := s.HandleNewPayload("NewPayload", block)
if err != nil {
return nil, err
}
s.logger.Debug("[NewPayload] got reply", "payloadStatus", payloadStatus)
if payloadStatus.CriticalError != nil {
return nil, payloadStatus.CriticalError
}
return payloadStatus, nil
}
// Check if we can quickly determine the status of a newPayload or forkchoiceUpdated.
func (s *EngineServer) getQuickPayloadStatusIfPossible(blockHash libcommon.Hash, blockNumber uint64, parentHash libcommon.Hash, forkchoiceMessage *engine_types.ForkChoiceState, newPayload bool) (*engine_types.PayloadStatus, error) {
// Determine which prefix to use for logs
var prefix string
if newPayload {
prefix = "NewPayload"
} else {
prefix = "ForkChoiceUpdated"
}
if s.config.TerminalTotalDifficulty == nil {
s.logger.Error(fmt.Sprintf("[%s] not a proof-of-stake chain", prefix))
return nil, fmt.Errorf("not a proof-of-stake chain")
}
if s.hd == nil {
return nil, fmt.Errorf("headerdownload is nil")
}
headHash, finalizedHash, safeHash, err := s.chainRW.GetForkchoice()
if err != nil {
return nil, err
}
// Some Consensus layer clients sometimes sends us repeated FCUs and make Erigon print a gazillion logs.
// E.G teku sometimes will end up spamming fcu on the terminal block if it has not synced to that point.
if forkchoiceMessage != nil &&
forkchoiceMessage.FinalizedBlockHash == finalizedHash &&
forkchoiceMessage.HeadHash == headHash &&
forkchoiceMessage.SafeBlockHash == safeHash {
return &engine_types.PayloadStatus{Status: engine_types.ValidStatus, LatestValidHash: &blockHash}, nil
}
header := s.chainRW.GetHeaderByHash(blockHash)
// Retrieve parent and total difficulty.
var parent *types.Header
var td *big.Int
if newPayload {
parent = s.chainRW.GetHeaderByHash(parentHash)
td = s.chainRW.GetTd(parentHash, blockNumber-1)
} else {
td = s.chainRW.GetTd(blockHash, blockNumber)
}
if td != nil && td.Cmp(s.config.TerminalTotalDifficulty) < 0 {
s.logger.Warn(fmt.Sprintf("[%s] Beacon Chain request before TTD", prefix), "hash", blockHash)
return &engine_types.PayloadStatus{Status: engine_types.InvalidStatus, LatestValidHash: &libcommon.Hash{}}, nil
}
var isCanonical bool
if header != nil {
isCanonical, err = s.chainRW.IsCanonicalHash(blockHash)
}
if err != nil {
return nil, err
}
if newPayload && parent != nil && blockNumber != parent.Number.Uint64()+1 {
s.logger.Warn(fmt.Sprintf("[%s] Invalid block number", prefix), "headerNumber", blockNumber, "parentNumber", parent.Number.Uint64())
s.hd.ReportBadHeaderPoS(blockHash, parent.Hash())
parentHash := parent.Hash()
return &engine_types.PayloadStatus{
Status: engine_types.InvalidStatus,
LatestValidHash: &parentHash,
ValidationError: engine_types.NewStringifiedErrorFromString("invalid block number"),
}, nil
}
// Check if we already determined if the hash is attributed to a previously received invalid header.
bad, lastValidHash := s.hd.IsBadHeaderPoS(blockHash)
if bad {
s.logger.Warn(fmt.Sprintf("[%s] Previously known bad block", prefix), "hash", blockHash)
} else if newPayload {
bad, lastValidHash = s.hd.IsBadHeaderPoS(parentHash)
if bad {
s.logger.Warn(fmt.Sprintf("[%s] Previously known bad block", prefix), "hash", blockHash, "parentHash", parentHash)
}
}
if bad {
s.hd.ReportBadHeaderPoS(blockHash, lastValidHash)
return &engine_types.PayloadStatus{Status: engine_types.InvalidStatus, LatestValidHash: &lastValidHash}, nil
}
currentHeader := s.chainRW.CurrentHeader()
// If header is already validated or has a missing parent, you can either return VALID or SYNCING.
if newPayload {
if header != nil && isCanonical {
return &engine_types.PayloadStatus{Status: engine_types.ValidStatus, LatestValidHash: &blockHash}, nil
}
if parent == nil && s.hd.PosStatus() == headerdownload.Syncing {
s.logger.Debug(fmt.Sprintf("[%s] Downloading some other PoS blocks", prefix), "hash", blockHash)
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
} else {
if header == nil && s.hd.PosStatus() == headerdownload.Syncing {
s.logger.Debug(fmt.Sprintf("[%s] Downloading some other PoS stuff", prefix), "hash", blockHash)
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
// We add the extra restriction blockHash != headHash for the FCU case of canonicalHash == blockHash
// because otherwise (when FCU points to the head) we want go to stage headers
// so that it calls writeForkChoiceHashes.
if currentHeader != nil && blockHash != currentHeader.Hash() && header != nil && isCanonical {
return &engine_types.PayloadStatus{Status: engine_types.ValidStatus, LatestValidHash: &blockHash}, nil
}
}
executionReady, err := s.chainRW.Ready()
if err != nil {
return nil, err
}
if !executionReady {
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
return nil, nil
}
// EngineGetPayload retrieves previously assembled payload (Validators only)
func (s *EngineServer) getPayload(ctx context.Context, payloadId uint64, version clparams.StateVersion) (*engine_types.GetPayloadResponse, error) {
if !s.proposing {
return nil, fmt.Errorf("execution layer not running as a proposer. enable proposer by taking out the --proposer.disable flag on startup")
}
if s.config.TerminalTotalDifficulty == nil {
return nil, fmt.Errorf("not a proof-of-stake chain")
}
s.logger.Debug("[GetPayload] acquiring lock")
s.lock.Lock()
defer s.lock.Unlock()
s.logger.Debug("[GetPayload] lock acquired")
resp, err := s.executionService.GetAssembledBlock(ctx, &execution.GetAssembledBlockRequest{
Id: payloadId,
})
if err != nil {
return nil, err
}
if resp.Busy {
s.logger.Warn("Cannot build payload, execution is busy", "payloadId", payloadId)
return nil, &engine_helpers.UnknownPayloadErr
}
// If the service is busy or there is no data for the given id then respond accordingly.
if resp.Data == nil {
s.logger.Warn("Payload not stored", "payloadId", payloadId)
return nil, &engine_helpers.UnknownPayloadErr
}
data := resp.Data
ts := data.ExecutionPayload.Timestamp
if (!s.config.IsCancun(ts) && version >= clparams.DenebVersion) ||
(s.config.IsCancun(ts) && version < clparams.DenebVersion) {
return nil, &rpc.UnsupportedForkError{Message: "Unsupported fork"}
}
return &engine_types.GetPayloadResponse{
ExecutionPayload: engine_types.ConvertPayloadFromRpc(data.ExecutionPayload),
BlockValue: (*hexutil.Big)(gointerfaces.ConvertH256ToUint256Int(data.BlockValue).ToBig()),
BlobsBundle: engine_types.ConvertBlobsFromRpc(data.BlobsBundle),
}, nil
}
// engineForkChoiceUpdated either states new block head or request the assembling of a new block
func (s *EngineServer) forkchoiceUpdated(ctx context.Context, forkchoiceState *engine_types.ForkChoiceState, payloadAttributes *engine_types.PayloadAttributes, version clparams.StateVersion,
) (*engine_types.ForkChoiceUpdatedResponse, error) {
status, err := s.getQuickPayloadStatusIfPossible(forkchoiceState.HeadHash, 0, libcommon.Hash{}, forkchoiceState, false)
if err != nil {
return nil, err
}
s.lock.Lock()
defer s.lock.Unlock()
if status == nil {
s.logger.Debug("[ForkChoiceUpdated] sending forkChoiceMessage", "head", forkchoiceState.HeadHash)
status, err = s.HandlesForkChoice("ForkChoiceUpdated", forkchoiceState, 0)
if err != nil {
return nil, err
}
s.logger.Debug("[ForkChoiceUpdated] got reply", "payloadStatus", status)
if status.CriticalError != nil {
return nil, status.CriticalError
}
}
if payloadAttributes != nil {
if version < clparams.DenebVersion && payloadAttributes.ParentBeaconBlockRoot != nil {
return nil, &engine_helpers.InvalidPayloadAttributesErr // Unexpected Beacon Root
}
if version >= clparams.DenebVersion && payloadAttributes.ParentBeaconBlockRoot == nil {
return nil, &engine_helpers.InvalidPayloadAttributesErr // Beacon Root missing
}
timestamp := uint64(payloadAttributes.Timestamp)
if !s.config.IsCancun(timestamp) && version >= clparams.DenebVersion { // V3 before cancun
return nil, &rpc.UnsupportedForkError{Message: "Unsupported fork"}
}
if s.config.IsCancun(timestamp) && version < clparams.DenebVersion { // Not V3 after cancun
return nil, &rpc.UnsupportedForkError{Message: "Unsupported fork"}
}
}
// No need for payload building
if payloadAttributes == nil || status.Status != engine_types.ValidStatus {
return &engine_types.ForkChoiceUpdatedResponse{PayloadStatus: status}, nil
}
if !s.proposing {
return nil, fmt.Errorf("execution layer not running as a proposer. enable proposer by taking out the --proposer.disable flag on startup")
}
headHeader := s.chainRW.GetHeaderByHash(forkchoiceState.HeadHash)
timestamp := uint64(payloadAttributes.Timestamp)
if headHeader.Time >= timestamp {
return nil, &engine_helpers.InvalidPayloadAttributesErr
}
req := &execution.AssembleBlockRequest{
ParentHash: gointerfaces.ConvertHashToH256(forkchoiceState.HeadHash),
Timestamp: timestamp,
PrevRandao: gointerfaces.ConvertHashToH256(payloadAttributes.PrevRandao),
SuggestedFeeRecipient: gointerfaces.ConvertAddressToH160(payloadAttributes.SuggestedFeeRecipient),
}
if version >= clparams.CapellaVersion {
req.Withdrawals = engine_types.ConvertWithdrawalsToRpc(payloadAttributes.Withdrawals)
}
if version >= clparams.DenebVersion {
req.ParentBeaconBlockRoot = gointerfaces.ConvertHashToH256(*payloadAttributes.ParentBeaconBlockRoot)
}
resp, err := s.executionService.AssembleBlock(ctx, req)
if err != nil {
return nil, err
}
if resp.Busy {
return nil, errors.New("[ForkChoiceUpdated]: execution service is busy, cannot assemble blocks")
}
return &engine_types.ForkChoiceUpdatedResponse{
PayloadStatus: &engine_types.PayloadStatus{
Status: engine_types.ValidStatus,
LatestValidHash: &forkchoiceState.HeadHash,
},
PayloadId: engine_types.ConvertPayloadId(resp.Id),
}, nil
}
func (s *EngineServer) getPayloadBodiesByHash(ctx context.Context, request []libcommon.Hash, _ clparams.StateVersion) ([]*engine_types.ExecutionPayloadBodyV1, error) {
bodies, err := s.chainRW.GetBodiesByHashes(request)
if err != nil {
return nil, err
}
resp := make([]*engine_types.ExecutionPayloadBodyV1, len(bodies))
for idx, body := range bodies {
resp[idx] = extractPayloadBodyFromBody(body)
}
return resp, nil
}
func extractPayloadBodyFromBody(body *types.RawBody) *engine_types.ExecutionPayloadBodyV1 {
if body == nil {
return nil
}
bdTxs := make([]hexutility.Bytes, len(body.Transactions))
for idx := range body.Transactions {
bdTxs[idx] = body.Transactions[idx]
}
return &engine_types.ExecutionPayloadBodyV1{Transactions: bdTxs, Withdrawals: body.Withdrawals}
}
func (s *EngineServer) getPayloadBodiesByRange(ctx context.Context, start, count uint64, _ clparams.StateVersion) ([]*engine_types.ExecutionPayloadBodyV1, error) {
bodies, err := s.chainRW.GetBodiesByRange(start, count)
if err != nil {
return nil, err
}
resp := make([]*engine_types.ExecutionPayloadBodyV1, len(bodies))
for idx, body := range bodies {
resp[idx] = extractPayloadBodyFromBody(body)
}
return resp, nil
}
// Returns the most recent version of the payload(for the payloadID) at the time of receiving the call
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/paris.md#engine_getpayloadv1
func (e *EngineServer) GetPayloadV1(ctx context.Context, payloadId hexutility.Bytes) (*engine_types.ExecutionPayload, error) {
decodedPayloadId := binary.BigEndian.Uint64(payloadId)
e.logger.Info("Received GetPayloadV1", "payloadId", decodedPayloadId)
response, err := e.getPayload(ctx, decodedPayloadId, clparams.BellatrixVersion)
if err != nil {
return nil, err
}
return response.ExecutionPayload, nil
}
// Same as [GetPayloadV1] with addition of blockValue
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/shanghai.md#engine_getpayloadv2
func (e *EngineServer) GetPayloadV2(ctx context.Context, payloadID hexutility.Bytes) (*engine_types.GetPayloadResponse, error) {
decodedPayloadId := binary.BigEndian.Uint64(payloadID)
e.logger.Info("Received GetPayloadV2", "payloadId", decodedPayloadId)
return e.getPayload(ctx, decodedPayloadId, clparams.CapellaVersion)
}
// Same as [GetPayloadV2], with addition of blobsBundle containing valid blobs, commitments, proofs
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/cancun.md#engine_getpayloadv3
func (e *EngineServer) GetPayloadV3(ctx context.Context, payloadID hexutility.Bytes) (*engine_types.GetPayloadResponse, error) {
decodedPayloadId := binary.BigEndian.Uint64(payloadID)
e.logger.Info("Received GetPayloadV3", "payloadId", decodedPayloadId)
return e.getPayload(ctx, decodedPayloadId, clparams.DenebVersion)
}
// Updates the forkchoice state after validating the headBlockHash
// Additionally, builds and returns a unique identifier for an initial version of a payload
// (asynchronously updated with transactions), if payloadAttributes is not nil and passes validation
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/paris.md#engine_forkchoiceupdatedv1
func (e *EngineServer) ForkchoiceUpdatedV1(ctx context.Context, forkChoiceState *engine_types.ForkChoiceState, payloadAttributes *engine_types.PayloadAttributes) (*engine_types.ForkChoiceUpdatedResponse, error) {
return e.forkchoiceUpdated(ctx, forkChoiceState, payloadAttributes, clparams.BellatrixVersion)
}
// Same as, and a replacement for, [ForkchoiceUpdatedV1], post Shanghai
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/shanghai.md#engine_forkchoiceupdatedv2
func (e *EngineServer) ForkchoiceUpdatedV2(ctx context.Context, forkChoiceState *engine_types.ForkChoiceState, payloadAttributes *engine_types.PayloadAttributes) (*engine_types.ForkChoiceUpdatedResponse, error) {
return e.forkchoiceUpdated(ctx, forkChoiceState, payloadAttributes, clparams.CapellaVersion)
}
// Successor of [ForkchoiceUpdatedV2] post Cancun, with stricter check on params
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/cancun.md#engine_forkchoiceupdatedv3
func (e *EngineServer) ForkchoiceUpdatedV3(ctx context.Context, forkChoiceState *engine_types.ForkChoiceState, payloadAttributes *engine_types.PayloadAttributes) (*engine_types.ForkChoiceUpdatedResponse, error) {
return e.forkchoiceUpdated(ctx, forkChoiceState, payloadAttributes, clparams.DenebVersion)
}
// NewPayloadV1 processes new payloads (blocks) from the beacon chain without withdrawals.
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/paris.md#engine_newpayloadv1
func (e *EngineServer) NewPayloadV1(ctx context.Context, payload *engine_types.ExecutionPayload) (*engine_types.PayloadStatus, error) {
return e.newPayload(ctx, payload, nil, nil, clparams.BellatrixVersion)
}
// NewPayloadV2 processes new payloads (blocks) from the beacon chain with withdrawals.
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/shanghai.md#engine_newpayloadv2
func (e *EngineServer) NewPayloadV2(ctx context.Context, payload *engine_types.ExecutionPayload) (*engine_types.PayloadStatus, error) {
return e.newPayload(ctx, payload, nil, nil, clparams.CapellaVersion)
}
// NewPayloadV3 processes new payloads (blocks) from the beacon chain with withdrawals & blob gas.
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/cancun.md#engine_newpayloadv3
func (e *EngineServer) NewPayloadV3(ctx context.Context, payload *engine_types.ExecutionPayload,
expectedBlobHashes []libcommon.Hash, parentBeaconBlockRoot *libcommon.Hash) (*engine_types.PayloadStatus, error) {
return e.newPayload(ctx, payload, expectedBlobHashes, parentBeaconBlockRoot, clparams.DenebVersion)
}
// Receives consensus layer's transition configuration and checks if the execution layer has the correct configuration.
// Can also be used to ping the execution layer (heartbeats).
// See https://github.com/ethereum/execution-apis/blob/v1.0.0-beta.1/src/engine/specification.md#engine_exchangetransitionconfigurationv1
func (e *EngineServer) ExchangeTransitionConfigurationV1(ctx context.Context, beaconConfig *engine_types.TransitionConfiguration) (*engine_types.TransitionConfiguration, error) {
terminalTotalDifficulty := e.config.TerminalTotalDifficulty
if terminalTotalDifficulty == nil {
return nil, fmt.Errorf("the execution layer doesn't have a terminal total difficulty. expected: %v", beaconConfig.TerminalTotalDifficulty)
}
if terminalTotalDifficulty.Cmp((*big.Int)(beaconConfig.TerminalTotalDifficulty)) != 0 {
return nil, fmt.Errorf("the execution layer has a wrong terminal total difficulty. expected %v, but instead got: %d", beaconConfig.TerminalTotalDifficulty, terminalTotalDifficulty)
}
return &engine_types.TransitionConfiguration{
TerminalTotalDifficulty: (*hexutil.Big)(terminalTotalDifficulty),
TerminalBlockHash: libcommon.Hash{},
TerminalBlockNumber: (*hexutil.Big)(libcommon.Big0),
}, nil
}
// Returns an array of execution payload bodies referenced by their block hashes
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/shanghai.md#engine_getpayloadbodiesbyhashv1
func (e *EngineServer) GetPayloadBodiesByHashV1(ctx context.Context, hashes []libcommon.Hash) ([]*engine_types.ExecutionPayloadBodyV1, error) {
if len(hashes) > 1024 {
return nil, &engine_helpers.TooLargeRequestErr
}
return e.getPayloadBodiesByHash(ctx, hashes, clparams.DenebVersion)
}
// Returns an ordered (as per canonical chain) array of execution payload bodies, with corresponding execution block numbers from "start", up to "count"
// See https://github.com/ethereum/execution-apis/blob/main/src/engine/shanghai.md#engine_getpayloadbodiesbyrangev1
func (e *EngineServer) GetPayloadBodiesByRangeV1(ctx context.Context, start, count hexutil.Uint64) ([]*engine_types.ExecutionPayloadBodyV1, error) {
if start == 0 || count == 0 {
return nil, &rpc.InvalidParamsError{Message: fmt.Sprintf("invalid start or count, start: %v count: %v", start, count)}
}
if count > 1024 {
return nil, &engine_helpers.TooLargeRequestErr
}
return e.getPayloadBodiesByRange(ctx, uint64(start), uint64(count), clparams.CapellaVersion)
}
var ourCapabilities = []string{
"engine_forkchoiceUpdatedV1",
"engine_forkchoiceUpdatedV2",
"engine_forkchoiceUpdatedV3",
"engine_newPayloadV1",
"engine_newPayloadV2",
"engine_newPayloadV3",
"engine_getPayloadV1",
"engine_getPayloadV2",
"engine_getPayloadV3",
"engine_exchangeTransitionConfigurationV1",
"engine_getPayloadBodiesByHashV1",
"engine_getPayloadBodiesByRangeV1",
}
func (e *EngineServer) ExchangeCapabilities(fromCl []string) []string {
missingOurs := compareCapabilities(fromCl, ourCapabilities)
missingCl := compareCapabilities(ourCapabilities, fromCl)
if len(missingCl) > 0 || len(missingOurs) > 0 {
e.logger.Debug("ExchangeCapabilities mismatches", "cl_unsupported", missingCl, "erigon_unsupported", missingOurs)
}
return ourCapabilities
}
func compareCapabilities(from []string, to []string) []string {
result := make([]string, 0)
for _, f := range from {
found := false
for _, t := range to {
if f == t {
found = true
break
}
}
if !found {
result = append(result, f)
}
}
return result
}
func (e *EngineServer) HandleNewPayload(
logPrefix string,
block *types.Block,
) (*engine_types.PayloadStatus, error) {
header := block.Header()
headerNumber := header.Number.Uint64()
headerHash := block.Hash()
e.logger.Info(fmt.Sprintf("[%s] Handling new payload", logPrefix), "height", headerNumber, "hash", headerHash)
currentHeader := e.chainRW.CurrentHeader()
var currentHeadNumber *uint64
if currentHeader != nil {
currentHeadNumber = new(uint64)
*currentHeadNumber = currentHeader.Number.Uint64()
}
parent := e.chainRW.GetHeader(header.ParentHash, headerNumber-1)
if parent == nil {
e.logger.Debug(fmt.Sprintf("[%s] New payload: need to download parent", logPrefix), "height", headerNumber, "hash", headerHash, "parentHash", header.ParentHash)
if e.test {
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
if !e.blockDownloader.StartDownloading(0, header.ParentHash, headerHash, block) {
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
if currentHeadNumber != nil {
// We try waiting until we finish downloading the PoS blocks if the distance from the head is enough,
// so that we will perform full validation.
success := false
for i := 0; i < 100; i++ {
time.Sleep(10 * time.Millisecond)
if e.blockDownloader.Status() == headerdownload.Synced {
success = true
break
}
}
if !success {
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
return &engine_types.PayloadStatus{Status: engine_types.ValidStatus, LatestValidHash: &headerHash}, nil
} else {
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
}
if err := e.chainRW.InsertBlockAndWait(block); err != nil {
return nil, err
}
if math.AbsoluteDifference(*currentHeadNumber, headerNumber) >= 32 {
return &engine_types.PayloadStatus{Status: engine_types.AcceptedStatus}, nil
}
e.logger.Debug(fmt.Sprintf("[%s] New payload begin verification", logPrefix))
status, latestValidHash, err := e.chainRW.ValidateChain(headerHash, headerNumber)
e.logger.Debug(fmt.Sprintf("[%s] New payload verification ended", logPrefix), "status", status.String(), "err", err)
if err != nil {
return nil, err
}
if status == execution.ExecutionStatus_BadBlock {
e.hd.ReportBadHeaderPoS(block.Hash(), latestValidHash)
}
return &engine_types.PayloadStatus{
Status: convertGrpcStatusToEngineStatus(status),
LatestValidHash: &latestValidHash,
}, nil
}
func convertGrpcStatusToEngineStatus(status execution.ExecutionStatus) engine_types.EngineStatus {
switch status {
case execution.ExecutionStatus_Success:
return engine_types.ValidStatus
case execution.ExecutionStatus_MissingSegment:
return engine_types.AcceptedStatus
case execution.ExecutionStatus_TooFarAway:
return engine_types.AcceptedStatus
case execution.ExecutionStatus_BadBlock:
return engine_types.InvalidStatus
case execution.ExecutionStatus_Busy:
return engine_types.SyncingStatus
}
panic("giulio u stupid.")
}
func (e *EngineServer) HandlesForkChoice(
logPrefix string,
forkChoice *engine_types.ForkChoiceState,
requestId int,
) (*engine_types.PayloadStatus, error) {
headerHash := forkChoice.HeadHash
e.logger.Debug(fmt.Sprintf("[%s] Handling fork choice", logPrefix), "headerHash", headerHash)
headerNumber, err := e.chainRW.HeaderNumber(headerHash)
if err != nil {
return nil, err
}
// We do not have header, download.
if headerNumber == nil {
e.logger.Debug(fmt.Sprintf("[%s] Fork choice: need to download header with hash %x", logPrefix, headerHash))
if !e.test {
e.blockDownloader.StartDownloading(requestId, headerHash, headerHash, nil)
}
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
// Header itself may already be in the snapshots, if CL starts off at much earlier state than Erigon
header := e.chainRW.GetHeader(headerHash, *headerNumber)
if header == nil {
e.logger.Debug(fmt.Sprintf("[%s] Fork choice: need to download header with hash %x", logPrefix, headerHash))
if !e.test {
e.blockDownloader.StartDownloading(requestId, headerHash, headerHash, nil)
}
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
// Call forkchoice here
status, latestValidHash, err := e.chainRW.UpdateForkChoice(forkChoice.HeadHash, forkChoice.SafeBlockHash, forkChoice.FinalizedBlockHash)
if err != nil {
return nil, err
}
if status == execution.ExecutionStatus_InvalidForkchoice {
return nil, &engine_helpers.InvalidForkchoiceStateErr
}
if status == execution.ExecutionStatus_Busy {
return &engine_types.PayloadStatus{Status: engine_types.SyncingStatus}, nil
}
if status == execution.ExecutionStatus_BadBlock {
return &engine_types.PayloadStatus{Status: engine_types.InvalidStatus}, nil
}
return &engine_types.PayloadStatus{
Status: convertGrpcStatusToEngineStatus(status),
LatestValidHash: &latestValidHash,
}, nil
}