/
attributes_queue.go
103 lines (87 loc) · 3.28 KB
/
attributes_queue.go
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package derive
import (
"context"
"fmt"
"io"
"time"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum-optimism/optimism/op-node/eth"
"github.com/ethereum-optimism/optimism/op-node/rollup"
)
// The attributes queue sits in between the batch queue and the engine queue
// It transforms batches into payload attributes. The outputted payload
// attributes cannot be buffered because each batch->attributes transformation
// pulls in data about the current L2 safe head.
//
// It also buffers batches that have been output because multiple batches can
// be created at once.
//
// This stage can be reset by clearing its batch buffer.
// This stage does not need to retain any references to L1 blocks.
type AttributesBuilder interface {
PreparePayloadAttributes(ctx context.Context, l2Parent eth.L2BlockRef, epoch eth.BlockID) (attrs *eth.PayloadAttributes, err error)
}
type AttributesQueue struct {
log log.Logger
config *rollup.Config
builder AttributesBuilder
prev *BatchQueue
batch *BatchData
}
func NewAttributesQueue(log log.Logger, cfg *rollup.Config, builder AttributesBuilder, prev *BatchQueue) *AttributesQueue {
return &AttributesQueue{
log: log,
config: cfg,
builder: builder,
prev: prev,
}
}
func (aq *AttributesQueue) Origin() eth.L1BlockRef {
return aq.prev.Origin()
}
func (aq *AttributesQueue) NextAttributes(ctx context.Context, l2SafeHead eth.L2BlockRef) (*eth.PayloadAttributes, error) {
// Get a batch if we need it
if aq.batch == nil {
batch, err := aq.prev.NextBatch(ctx, l2SafeHead)
if err != nil {
return nil, err
}
aq.batch = batch
}
// Actually generate the next attributes
if attrs, err := aq.createNextAttributes(ctx, aq.batch, l2SafeHead); err != nil {
return nil, err
} else {
// Clear out the local state once we will succeed
aq.batch = nil
return attrs, nil
}
}
// createNextAttributes transforms a batch into a payload attributes. This sets `NoTxPool` and appends the batched transactions
// to the attributes transaction list
func (aq *AttributesQueue) createNextAttributes(ctx context.Context, batch *BatchData, l2SafeHead eth.L2BlockRef) (*eth.PayloadAttributes, error) {
// sanity check parent hash
if batch.ParentHash != l2SafeHead.Hash {
return nil, NewResetError(fmt.Errorf("valid batch has bad parent hash %s, expected %s", batch.ParentHash, l2SafeHead.Hash))
}
// sanity check timestamp
if expected := l2SafeHead.Time + aq.config.BlockTime; expected != batch.Timestamp {
return nil, NewResetError(fmt.Errorf("valid batch has bad timestamp %d, expected %d", batch.Timestamp, expected))
}
fetchCtx, cancel := context.WithTimeout(ctx, 20*time.Second)
defer cancel()
attrs, err := aq.builder.PreparePayloadAttributes(fetchCtx, l2SafeHead, batch.Epoch())
if err != nil {
return nil, err
}
// we are verifying, not sequencing, we've got all transactions and do not pull from the tx-pool
// (that would make the block derivation non-deterministic)
attrs.NoTxPool = true
attrs.Transactions = append(attrs.Transactions, batch.Transactions...)
aq.log.Info("generated attributes in payload queue", "txs", len(attrs.Transactions), "timestamp", batch.Timestamp)
return attrs, nil
}
func (aq *AttributesQueue) Reset(ctx context.Context, _ eth.L1BlockRef, _ eth.SystemConfig) error {
aq.batch = nil
return io.EOF
}