Documentation ¶
Overview ¶
Package derive provides the data transformation functions that take L1 data and turn it into L2 blocks and results. Certain L2 data is also able to turned back into L1 data.
The flow is data is as follows receipts, batches -> eth.PayloadAttributes, by parsing the L1 data and deriving L2 inputs l2.PayloadAttributes -> l2.ExecutionPayload, by running the EVM (using an Execution Engine) L2 block -> Corresponding L1 block info, by parsing the first deposited transaction
The Payload Attributes derivation stage is a pure function. The Execution Payload derivation stage relies on the L2 execution engine to perform the state update. The inversion step is a pure function.
The steps should be kept separate to enable easier testing.
Index ¶
- Constants
- Variables
- func AttributesMatchBlock(attrs *eth.PayloadAttributes, parentHash common.Hash, ...) error
- func BatchReader(r io.Reader, l1InclusionBlock eth.L1BlockRef) (func() (BatchWithL1InclusionBlock, error), error)
- func DataFromEVMTransactions(config *rollup.Config, batcherAddr common.Address, txs types.Transactions, ...) []eth.Data
- func DeriveDeposits(receipts []*types.Receipt, depositContractAddr common.Address) ([]hexutil.Bytes, error)
- func L1InfoDeposit(seqNumber uint64, block eth.BlockInfo, sysCfg eth.SystemConfig) (*types.DepositTx, error)
- func L1InfoDepositBytes(seqNumber uint64, l1Info eth.BlockInfo, sysCfg eth.SystemConfig) ([]byte, error)
- func MarshalDepositLogEvent(depositContractAddr common.Address, deposit *types.DepositTx) (*types.Log, error)
- func NewCriticalError(err error) error
- func NewError(err error, level Level) error
- func NewResetError(err error) error
- func NewTemporaryError(err error) error
- func PayloadToBlockRef(payload *eth.ExecutionPayload, genesis *rollup.Genesis) (eth.L2BlockRef, error)
- func PayloadToSystemConfig(payload *eth.ExecutionPayload, cfg *rollup.Config) (eth.SystemConfig, error)
- func ProcessSystemConfigUpdateLogEvent(destSysCfg *eth.SystemConfig, ev *types.Log) error
- func UnmarshalDepositLogEvent(ev *types.Log) (*types.DepositTx, error)
- func UpdateSystemConfigWithL1Receipts(sysCfg *eth.SystemConfig, receipts []*types.Receipt, cfg *rollup.Config) error
- func UserDeposits(receipts []*types.Receipt, depositContractAddr common.Address) ([]*types.DepositTx, error)
- type AttributesBuilder
- type AttributesQueue
- type BatchData
- type BatchQueue
- func (bq *BatchQueue) AddBatch(batch *BatchData, l2SafeHead eth.L2BlockRef)
- func (bq *BatchQueue) NextBatch(ctx context.Context, safeL2Head eth.L2BlockRef) (*BatchData, error)
- func (bq *BatchQueue) Origin() eth.L1BlockRef
- func (bq *BatchQueue) Reset(ctx context.Context, base eth.L1BlockRef, _ eth.SystemConfig) error
- type BatchV1
- type BatchValidity
- type BatchWithL1InclusionBlock
- type BlockInsertionErrType
- func ConfirmPayload(ctx context.Context, log log.Logger, eng Engine, fc eth.ForkchoiceState, ...) (out *eth.ExecutionPayload, errTyp BlockInsertionErrType, err error)
- func StartPayload(ctx context.Context, eng Engine, fc eth.ForkchoiceState, ...) (id eth.PayloadID, errType BlockInsertionErrType, err error)
- type ByteReader
- type Channel
- type ChannelBank
- func (cb *ChannelBank) IngestFrame(f Frame)
- func (cb *ChannelBank) NextData(ctx context.Context) ([]byte, error)
- func (cb *ChannelBank) Origin() eth.L1BlockRef
- func (cb *ChannelBank) Read() (data []byte, err error)
- func (cb *ChannelBank) Reset(ctx context.Context, base eth.L1BlockRef, _ eth.SystemConfig) error
- type ChannelID
- type ChannelInReader
- func (cr *ChannelInReader) NextBatch(ctx context.Context) (*BatchData, error)
- func (cr *ChannelInReader) NextChannel()
- func (cr *ChannelInReader) Origin() eth.L1BlockRef
- func (cr *ChannelInReader) Reset(ctx context.Context, _ eth.L1BlockRef, _ eth.SystemConfig) error
- func (cr *ChannelInReader) WriteChannel(data []byte) error
- type ChannelOut
- func (co *ChannelOut) AddBatch(batch *BatchData) (uint64, error)
- func (co *ChannelOut) AddBlock(block *types.Block) (uint64, error)
- func (co *ChannelOut) Close() error
- func (co *ChannelOut) Flush() error
- func (co *ChannelOut) ID() ChannelID
- func (co *ChannelOut) InputBytes() int
- func (co *ChannelOut) OutputFrame(w *bytes.Buffer, maxSize uint64) (uint16, error)
- func (co *ChannelOut) ReadyBytes() int
- func (co *ChannelOut) Reset() error
- type DataAvailabilitySource
- type DataIter
- type DataSource
- type DataSourceFactory
- type DerivationPipeline
- func (dp *DerivationPipeline) AddUnsafePayload(payload *eth.ExecutionPayload)
- func (dp *DerivationPipeline) BuildingPayload() (onto eth.L2BlockRef, id eth.PayloadID, safe bool)
- func (dp *DerivationPipeline) CancelPayload(ctx context.Context, force bool) error
- func (dp *DerivationPipeline) ConfirmPayload(ctx context.Context) (out *eth.ExecutionPayload, errTyp BlockInsertionErrType, err error)
- func (dp *DerivationPipeline) Finalize(l1Origin eth.L1BlockRef)
- func (dp *DerivationPipeline) Finalized() eth.L2BlockRef
- func (dp *DerivationPipeline) FinalizedL1() eth.L1BlockRef
- func (dp *DerivationPipeline) Origin() eth.L1BlockRef
- func (dp *DerivationPipeline) Reset()
- func (dp *DerivationPipeline) SafeL2Head() eth.L2BlockRef
- func (dp *DerivationPipeline) StartPayload(ctx context.Context, parent eth.L2BlockRef, attrs *eth.PayloadAttributes, ...) (errType BlockInsertionErrType, err error)
- func (dp *DerivationPipeline) Step(ctx context.Context) error
- func (dp *DerivationPipeline) UnsafeL2Head() eth.L2BlockRef
- type Engine
- type EngineControl
- type EngineQueue
- func (eq *EngineQueue) AddSafeAttributes(attributes *eth.PayloadAttributes)
- func (eq *EngineQueue) AddUnsafePayload(payload *eth.ExecutionPayload)
- func (eq *EngineQueue) BuildingPayload() (onto eth.L2BlockRef, id eth.PayloadID, safe bool)
- func (eq *EngineQueue) CancelPayload(ctx context.Context, force bool) error
- func (eq *EngineQueue) ConfirmPayload(ctx context.Context) (out *eth.ExecutionPayload, errTyp BlockInsertionErrType, err error)
- func (eq *EngineQueue) Finalize(l1Origin eth.L1BlockRef)
- func (eq *EngineQueue) Finalized() eth.L2BlockRef
- func (eq *EngineQueue) FinalizedL1() eth.L1BlockRef
- func (eq *EngineQueue) LastL2Time() uint64
- func (eq *EngineQueue) Origin() eth.L1BlockRef
- func (eq *EngineQueue) Reset(ctx context.Context, _ eth.L1BlockRef, _ eth.SystemConfig) error
- func (eq *EngineQueue) SafeL2Head() eth.L2BlockRef
- func (eq *EngineQueue) SetUnsafeHead(head eth.L2BlockRef)
- func (eq *EngineQueue) StartPayload(ctx context.Context, parent eth.L2BlockRef, attrs *eth.PayloadAttributes, ...) (errType BlockInsertionErrType, err error)
- func (eq *EngineQueue) Step(ctx context.Context) error
- func (eq *EngineQueue) SystemConfig() eth.SystemConfig
- func (eq *EngineQueue) UnsafeL2Head() eth.L2BlockRef
- type EngineQueueStage
- type EngineState
- type Error
- type FetchingAttributesBuilder
- type FinalityData
- type Frame
- type FrameQueue
- type L1BlockInfo
- type L1BlockRefByHashFetcher
- type L1BlockRefByNumberFetcher
- type L1Fetcher
- type L1InfoDepositSource
- type L1ReceiptsFetcher
- type L1Retrieval
- type L1TransactionFetcher
- type L1Traversal
- func (l1t *L1Traversal) AdvanceL1Block(ctx context.Context) error
- func (l1t *L1Traversal) NextL1Block(_ context.Context) (eth.L1BlockRef, error)
- func (l1t *L1Traversal) Origin() eth.L1BlockRef
- func (l1t *L1Traversal) Reset(ctx context.Context, base eth.L1BlockRef, cfg eth.SystemConfig) error
- func (l1c *L1Traversal) SystemConfig() eth.SystemConfig
- type Level
- type Metrics
- type NextAttributesProvider
- type NextBatchProvider
- type NextBlockProvider
- type NextDataProvider
- type NextFrameProvider
- type PayloadsQueue
- type ResetableStage
- type SystemConfigL2Fetcher
- type UserDepositSource
Constants ¶
const ( // BatchDrop indicates that the batch is invalid, and will always be in the future, unless we reorg BatchDrop = iota // BatchAccept indicates that the batch is valid and should be processed BatchAccept // BatchUndecided indicates we are lacking L1 information until we can proceed batch filtering BatchUndecided // BatchFuture indicates that the batch may be valid, but cannot be processed yet and should be checked again later BatchFuture )
const ( UserDepositSourceDomain = 0 L1InfoDepositSourceDomain = 1 )
const ( L1InfoFuncSignature = "setL1BlockValues(uint64,uint64,uint256,bytes32,uint64,bytes32,uint256,uint256)" L1InfoArguments = 8 L1InfoLen = 4 + 32*L1InfoArguments )
const (
BatchV1Type = iota
)
const ChannelIDLength = 16
ChannelIDLength defines the length of the channel IDs
const DerivationVersion0 = 0
const MaxChannelBankSize = 100_000_000
MaxChannelBankSize is the amount of memory space, in number of bytes, till the bank is pruned by removing channels, starting with the oldest channel.
const MaxFrameLen = 1_000_000
Frames cannot be larger than 1 MB. Data transactions that carry frames are generally not larger than 128 KB due to L1 network conditions, but we leave space to grow larger anyway (gas limit allows for more data).
const MaxRLPBytesPerChannel = 10_000_000
MaxRLPBytesPerChannel is the maximum amount of bytes that will be read from a channel. This limit is set when decoding the RLP.
Variables ¶
var ( DepositEventABI = "TransactionDeposited(address,address,uint256,bytes)" DepositEventABIHash = crypto.Keccak256Hash([]byte(DepositEventABI)) DepositEventVersion0 = common.Hash{} )
var ( L1InfoFuncBytes4 = crypto.Keccak256([]byte(L1InfoFuncSignature))[:4] L1InfoDepositerAddress = common.HexToAddress("0xdeaddeaddeaddeaddeaddeaddeaddeaddead0001") L1BlockAddress = predeploys.L1BlockAddr )
var ( SystemConfigUpdateBatcher = common.Hash{31: 0} SystemConfigUpdateGasConfig = common.Hash{31: 1} SystemConfigUpdateGasLimit = common.Hash{31: 2} SystemConfigUpdateUnsafeBlockSigner = common.Hash{31: 3} )
var ( ConfigUpdateEventABI = "ConfigUpdate(uint256,uint8,bytes)" ConfigUpdateEventABIHash = crypto.Keccak256Hash([]byte(ConfigUpdateEventABI)) ConfigUpdateEventVersion0 = common.Hash{} )
var DuplicateErr = errors.New("duplicate frame")
DuplicateErr is returned when a newly read frame is already known
var ErrCritical = NewCriticalError(nil)
var ErrNotDepositTx = errors.New("first transaction in block is not a deposit tx")
var ErrReset = NewResetError(nil)
var ErrTemporary = NewTemporaryError(nil)
Sentinel errors, use these to get the severity of errors by calling errors.Is(err, ErrTemporary) for example.
var ErrTooManyRLPBytes = errors.New("batch would cause RLP bytes to go over limit")
var NotEnoughData = errors.New("not enough data")
NotEnoughData implies that the function currently does not have enough data to progress but if it is retried enough times, it will eventually return a real value or io.EOF
Functions ¶
func AttributesMatchBlock ¶
func AttributesMatchBlock(attrs *eth.PayloadAttributes, parentHash common.Hash, block *eth.ExecutionPayload, l log.Logger) error
AttributesMatchBlock checks if the L2 attributes pre-inputs match the output nil if it is a match. If err is not nil, the error contains the reason for the mismatch
func BatchReader ¶
func BatchReader(r io.Reader, l1InclusionBlock eth.L1BlockRef) (func() (BatchWithL1InclusionBlock, error), error)
BatchReader provides a function that iteratively consumes batches from the reader. The L1Inclusion block is also provided at creation time.
func DataFromEVMTransactions ¶
func DataFromEVMTransactions(config *rollup.Config, batcherAddr common.Address, txs types.Transactions, log log.Logger) []eth.Data
DataFromEVMTransactions filters all of the transactions and returns the calldata from transactions that are sent to the batch inbox address from the batch sender address. This will return an empty array if no valid transactions are found.
func DeriveDeposits ¶
func L1InfoDeposit ¶
func L1InfoDeposit(seqNumber uint64, block eth.BlockInfo, sysCfg eth.SystemConfig) (*types.DepositTx, error)
L1InfoDeposit creates a L1 Info deposit transaction based on the L1 block, and the L2 block-height difference with the start of the epoch.
func L1InfoDepositBytes ¶
func L1InfoDepositBytes(seqNumber uint64, l1Info eth.BlockInfo, sysCfg eth.SystemConfig) ([]byte, error)
L1InfoDepositBytes returns a serialized L1-info attributes transaction.
func MarshalDepositLogEvent ¶
func MarshalDepositLogEvent(depositContractAddr common.Address, deposit *types.DepositTx) (*types.Log, error)
MarshalDepositLogEvent returns an EVM log entry that encodes a TransactionDeposited event from the deposit contract. This is the reverse of the deposit transaction derivation.
func NewCriticalError ¶
NewCriticalError returns a critical error.
func NewResetError ¶
NewResetError returns a pipeline reset error.
func NewTemporaryError ¶
NewTemporaryError returns a temporary error.
func PayloadToBlockRef ¶
func PayloadToBlockRef(payload *eth.ExecutionPayload, genesis *rollup.Genesis) (eth.L2BlockRef, error)
PayloadToBlockRef extracts the essential L2BlockRef information from an execution payload, falling back to genesis information if necessary.
func PayloadToSystemConfig ¶
func PayloadToSystemConfig(payload *eth.ExecutionPayload, cfg *rollup.Config) (eth.SystemConfig, error)
func ProcessSystemConfigUpdateLogEvent ¶
func ProcessSystemConfigUpdateLogEvent(destSysCfg *eth.SystemConfig, ev *types.Log) error
ProcessSystemConfigUpdateLogEvent decodes an EVM log entry emitted by the system config contract and applies it as a system config change.
parse log data for:
event ConfigUpdate( uint256 indexed version, UpdateType indexed updateType, bytes data );
func UnmarshalDepositLogEvent ¶
UnmarshalDepositLogEvent decodes an EVM log entry emitted by the deposit contract into typed deposit data.
parse log data for:
event TransactionDeposited( address indexed from, address indexed to, uint256 indexed version, bytes opaqueData );
Additionally, the event log-index and
func UpdateSystemConfigWithL1Receipts ¶
func UpdateSystemConfigWithL1Receipts(sysCfg *eth.SystemConfig, receipts []*types.Receipt, cfg *rollup.Config) error
UpdateSystemConfigWithL1Receipts filters all L1 receipts to find config updates and applies the config updates to the given sysCfg
Types ¶
type AttributesBuilder ¶ added in v0.10.11
type AttributesBuilder interface {
PreparePayloadAttributes(ctx context.Context, l2Parent eth.L2BlockRef, epoch eth.BlockID) (attrs *eth.PayloadAttributes, err error)
}
type AttributesQueue ¶
type AttributesQueue struct {
// contains filtered or unexported fields
}
func NewAttributesQueue ¶
func NewAttributesQueue(log log.Logger, cfg *rollup.Config, builder AttributesBuilder, prev *BatchQueue) *AttributesQueue
func (*AttributesQueue) NextAttributes ¶
func (aq *AttributesQueue) NextAttributes(ctx context.Context, l2SafeHead eth.L2BlockRef) (*eth.PayloadAttributes, error)
func (*AttributesQueue) Origin ¶
func (aq *AttributesQueue) Origin() eth.L1BlockRef
func (*AttributesQueue) Reset ¶
func (aq *AttributesQueue) Reset(ctx context.Context, _ eth.L1BlockRef, _ eth.SystemConfig) error
type BatchData ¶
type BatchData struct {
BatchV1
}
func BlockToBatch ¶ added in v0.10.13
BlockToBatch transforms a block into a batch object that can easily be RLP encoded.
func (*BatchData) MarshalBinary ¶
MarshalBinary returns the canonical encoding of the batch.
func (*BatchData) UnmarshalBinary ¶
UnmarshalBinary decodes the canonical encoding of batch.
type BatchQueue ¶
type BatchQueue struct {
// contains filtered or unexported fields
}
BatchQueue contains a set of batches for every L1 block. L1 blocks are contiguous and this does not support reorgs.
func NewBatchQueue ¶
func NewBatchQueue(log log.Logger, cfg *rollup.Config, prev NextBatchProvider) *BatchQueue
NewBatchQueue creates a BatchQueue, which should be Reset(origin) before use.
func (*BatchQueue) AddBatch ¶
func (bq *BatchQueue) AddBatch(batch *BatchData, l2SafeHead eth.L2BlockRef)
func (*BatchQueue) NextBatch ¶
func (bq *BatchQueue) NextBatch(ctx context.Context, safeL2Head eth.L2BlockRef) (*BatchData, error)
func (*BatchQueue) Origin ¶
func (bq *BatchQueue) Origin() eth.L1BlockRef
func (*BatchQueue) Reset ¶
func (bq *BatchQueue) Reset(ctx context.Context, base eth.L1BlockRef, _ eth.SystemConfig) error
type BatchV1 ¶
type BatchValidity ¶
type BatchValidity uint8
func CheckBatch ¶
func CheckBatch(cfg *rollup.Config, log log.Logger, l1Blocks []eth.L1BlockRef, l2SafeHead eth.L2BlockRef, batch *BatchWithL1InclusionBlock) BatchValidity
CheckBatch checks if the given batch can be applied on top of the given l2SafeHead, given the contextual L1 blocks the batch was included in. The first entry of the l1Blocks should match the origin of the l2SafeHead. One or more consecutive l1Blocks should be provided. In case of only a single L1 block, the decision whether a batch is valid may have to stay undecided.
type BatchWithL1InclusionBlock ¶
type BatchWithL1InclusionBlock struct { L1InclusionBlock eth.L1BlockRef Batch *BatchData }
type BlockInsertionErrType ¶
type BlockInsertionErrType uint
const ( // BlockInsertOK indicates that the payload was successfully executed and appended to the canonical chain. BlockInsertOK BlockInsertionErrType = iota // BlockInsertTemporaryErr indicates that the insertion failed but may succeed at a later time without changes to the payload. BlockInsertTemporaryErr // BlockInsertPrestateErr indicates that the pre-state to insert the payload could not be prepared, e.g. due to missing chain data. BlockInsertPrestateErr // BlockInsertPayloadErr indicates that the payload was invalid and cannot become canonical. BlockInsertPayloadErr )
func ConfirmPayload ¶
func ConfirmPayload(ctx context.Context, log log.Logger, eng Engine, fc eth.ForkchoiceState, id eth.PayloadID, updateSafe bool) (out *eth.ExecutionPayload, errTyp BlockInsertionErrType, err error)
ConfirmPayload ends an execution payload building process in the provided Engine, and persists the payload as the canonical head. If updateSafe is true, then the payload will also be recognized as safe-head at the same time. The severity of the error is distinguished to determine whether the payload was valid and can become canonical.
func StartPayload ¶
func StartPayload(ctx context.Context, eng Engine, fc eth.ForkchoiceState, attrs *eth.PayloadAttributes) (id eth.PayloadID, errType BlockInsertionErrType, err error)
StartPayload starts an execution payload building process in the provided Engine, with the given attributes. The severity of the error is distinguished to determine whether the same payload attributes may be re-attempted later.
type ByteReader ¶
type ByteReader interface { io.Reader io.ByteReader }
type Channel ¶
type Channel struct {
// contains filtered or unexported fields
}
A Channel is a set of batches that are split into at least one, but possibly multiple frames. Frames are allowed to be ingested out of order. Each frame is ingested one by one. Once a frame with `closed` is added to the channel, the channel may mark itself as ready for reading once all intervening frames have been added
func NewChannel ¶
func NewChannel(id ChannelID, openBlock eth.L1BlockRef) *Channel
func (*Channel) AddFrame ¶
func (ch *Channel) AddFrame(frame Frame, l1InclusionBlock eth.L1BlockRef) error
AddFrame adds a frame to the channel. If the frame is not valid for the channel it returns an error. Otherwise the frame is buffered.
func (*Channel) OpenBlockNumber ¶
OpenBlockNumber returns the block number of L1 block that contained the first frame for this channel.
type ChannelBank ¶
type ChannelBank struct {
// contains filtered or unexported fields
}
ChannelBank buffers channel frames, and emits full channel data
func NewChannelBank ¶
func NewChannelBank(log log.Logger, cfg *rollup.Config, prev NextFrameProvider, fetcher L1Fetcher) *ChannelBank
NewChannelBank creates a ChannelBank, which should be Reset(origin) before use.
func (*ChannelBank) IngestFrame ¶
func (cb *ChannelBank) IngestFrame(f Frame)
IngestData adds new L1 data to the channel bank. Read() should be called repeatedly first, until everything has been read, before adding new data.
func (*ChannelBank) NextData ¶
func (cb *ChannelBank) NextData(ctx context.Context) ([]byte, error)
NextData pulls the next piece of data from the channel bank. Note that it attempts to pull data out of the channel bank prior to loading data in (unlike most other stages). This is to ensure maintain consistency around channel bank pruning which depends upon the order of operations.
func (*ChannelBank) Origin ¶
func (cb *ChannelBank) Origin() eth.L1BlockRef
func (*ChannelBank) Read ¶
func (cb *ChannelBank) Read() (data []byte, err error)
Read the raw data of the first channel, if it's timed-out or closed. Read returns io.EOF if there is nothing new to read.
func (*ChannelBank) Reset ¶
func (cb *ChannelBank) Reset(ctx context.Context, base eth.L1BlockRef, _ eth.SystemConfig) error
type ChannelID ¶
type ChannelID [ChannelIDLength]byte
ChannelID is an opaque identifier for a channel. It is 128 bits to be globally unique.
func (ChannelID) TerminalString ¶
TerminalString implements log.TerminalStringer, formatting a string for console output during logging.
type ChannelInReader ¶
type ChannelInReader struct {
// contains filtered or unexported fields
}
func NewChannelInReader ¶
func NewChannelInReader(log log.Logger, prev *ChannelBank) *ChannelInReader
NewChannelInReader creates a ChannelInReader, which should be Reset(origin) before use.
func (*ChannelInReader) NextBatch ¶
func (cr *ChannelInReader) NextBatch(ctx context.Context) (*BatchData, error)
NextBatch pulls out the next batch from the channel if it has it. It returns io.EOF when it cannot make any more progress. It will return a temporary error if it needs to be called again to advance some internal state.
func (*ChannelInReader) NextChannel ¶
func (cr *ChannelInReader) NextChannel()
NextChannel forces the next read to continue with the next channel, resetting any decoding/decompression state to a fresh start.
func (*ChannelInReader) Origin ¶
func (cr *ChannelInReader) Origin() eth.L1BlockRef
func (*ChannelInReader) Reset ¶
func (cr *ChannelInReader) Reset(ctx context.Context, _ eth.L1BlockRef, _ eth.SystemConfig) error
func (*ChannelInReader) WriteChannel ¶
func (cr *ChannelInReader) WriteChannel(data []byte) error
TODO: Take full channel for better logging
type ChannelOut ¶
type ChannelOut struct {
// contains filtered or unexported fields
}
func NewChannelOut ¶
func NewChannelOut() (*ChannelOut, error)
func (*ChannelOut) AddBatch ¶ added in v0.10.13
func (co *ChannelOut) AddBatch(batch *BatchData) (uint64, error)
AddBatch adds a batch to the channel. It returns the RLP encoded byte size and an error if there is a problem adding the batch. The only sentinel error that it returns is ErrTooManyRLPBytes. If this error is returned, the channel should be closed and a new one should be made.
AddBatch should be used together with BlockToBatch if you need to access the BatchData before adding a block to the channel. It isn't possible to access the batch data with AddBlock.
func (*ChannelOut) AddBlock ¶
func (co *ChannelOut) AddBlock(block *types.Block) (uint64, error)
AddBlock adds a block to the channel. It returns the RLP encoded byte size and an error if there is a problem adding the block. The only sentinel error that it returns is ErrTooManyRLPBytes. If this error is returned, the channel should be closed and a new one should be made.
func (*ChannelOut) Close ¶
func (co *ChannelOut) Close() error
func (*ChannelOut) Flush ¶
func (co *ChannelOut) Flush() error
Flush flushes the internal compression stage to the ready buffer. It enables pulling a larger & more complete frame. It reduces the compression efficiency.
func (*ChannelOut) ID ¶
func (co *ChannelOut) ID() ChannelID
func (*ChannelOut) InputBytes ¶ added in v0.10.12
func (co *ChannelOut) InputBytes() int
InputBytes returns the total amount of RLP-encoded input bytes.
func (*ChannelOut) OutputFrame ¶
OutputFrame writes a frame to w with a given max size and returns the frame number. Use `ReadyBytes`, `Flush`, and `Close` to modify the ready buffer. Returns io.EOF when the channel is closed & there are no more frames Returns nil if there is still more buffered data. Returns and error if it ran into an error during processing.
func (*ChannelOut) ReadyBytes ¶
func (co *ChannelOut) ReadyBytes() int
ReadyBytes returns the number of bytes that the channel out can immediately output into a frame. Use `Flush` or `Close` to move data from the compression buffer into the ready buffer if more bytes are needed. Add blocks may add to the ready buffer, but it is not guaranteed due to the compression stage.
func (*ChannelOut) Reset ¶
func (co *ChannelOut) Reset() error
TODO: reuse ChannelOut for performance
type DataAvailabilitySource ¶
type DataIter ¶
func NewDataSource ¶
func NewDataSource(ctx context.Context, log log.Logger, cfg *rollup.Config, fetcher L1TransactionFetcher, block eth.BlockID, batcherAddr common.Address) DataIter
NewDataSource creates a new calldata source. It suppresses errors in fetching the L1 block if they occur. If there is an error, it will attempt to fetch the result on the next call to `Next`.
type DataSource ¶
type DataSource struct {
// contains filtered or unexported fields
}
DataSource is a fault tolerant approach to fetching data. The constructor will never fail & it will instead re-attempt the fetcher at a later point.
type DataSourceFactory ¶
type DataSourceFactory struct {
// contains filtered or unexported fields
}
DataSourceFactory readers raw transactions from a given block & then filters for batch submitter transactions. This is not a stage in the pipeline, but a wrapper for another stage in the pipeline
func NewDataSourceFactory ¶
func NewDataSourceFactory(log log.Logger, cfg *rollup.Config, fetcher L1TransactionFetcher) *DataSourceFactory
type DerivationPipeline ¶
type DerivationPipeline struct {
// contains filtered or unexported fields
}
DerivationPipeline is updated with new L1 data, and the Step() function can be iterated on to keep the L2 Engine in sync.
func NewDerivationPipeline ¶
func NewDerivationPipeline(log log.Logger, cfg *rollup.Config, l1Fetcher L1Fetcher, engine Engine, metrics Metrics) *DerivationPipeline
NewDerivationPipeline creates a derivation pipeline, which should be reset before use.
func (*DerivationPipeline) AddUnsafePayload ¶
func (dp *DerivationPipeline) AddUnsafePayload(payload *eth.ExecutionPayload)
AddUnsafePayload schedules an execution payload to be processed, ahead of deriving it from L1
func (*DerivationPipeline) BuildingPayload ¶ added in v0.10.12
func (dp *DerivationPipeline) BuildingPayload() (onto eth.L2BlockRef, id eth.PayloadID, safe bool)
func (*DerivationPipeline) CancelPayload ¶ added in v0.10.12
func (dp *DerivationPipeline) CancelPayload(ctx context.Context, force bool) error
func (*DerivationPipeline) ConfirmPayload ¶ added in v0.10.12
func (dp *DerivationPipeline) ConfirmPayload(ctx context.Context) (out *eth.ExecutionPayload, errTyp BlockInsertionErrType, err error)
func (*DerivationPipeline) Finalize ¶
func (dp *DerivationPipeline) Finalize(l1Origin eth.L1BlockRef)
func (*DerivationPipeline) Finalized ¶
func (dp *DerivationPipeline) Finalized() eth.L2BlockRef
func (*DerivationPipeline) FinalizedL1 ¶
func (dp *DerivationPipeline) FinalizedL1() eth.L1BlockRef
FinalizedL1 is the L1 finalization of the inner-most stage of the derivation pipeline, i.e. the L1 chain up to and including this point included and/or produced all the finalized L2 blocks.
func (*DerivationPipeline) Origin ¶
func (dp *DerivationPipeline) Origin() eth.L1BlockRef
Origin is the L1 block of the inner-most stage of the derivation pipeline, i.e. the L1 chain up to and including this point included and/or produced all the safe L2 blocks.
func (*DerivationPipeline) Reset ¶
func (dp *DerivationPipeline) Reset()
func (*DerivationPipeline) SafeL2Head ¶
func (dp *DerivationPipeline) SafeL2Head() eth.L2BlockRef
func (*DerivationPipeline) StartPayload ¶ added in v0.10.12
func (dp *DerivationPipeline) StartPayload(ctx context.Context, parent eth.L2BlockRef, attrs *eth.PayloadAttributes, updateSafe bool) (errType BlockInsertionErrType, err error)
func (*DerivationPipeline) Step ¶
func (dp *DerivationPipeline) Step(ctx context.Context) error
Step tries to progress the buffer. An EOF is returned if there pipeline is blocked by waiting for new L1 data. If ctx errors no error is returned, but the step may exit early in a state that can still be continued. Any other error is critical and the derivation pipeline should be reset. An error is expected when the underlying source closes. When Step returns nil, it should be called again, to continue the derivation process.
func (*DerivationPipeline) UnsafeL2Head ¶
func (dp *DerivationPipeline) UnsafeL2Head() eth.L2BlockRef
UnsafeL2Head returns the head of the L2 chain that we are deriving for, this may be past what we derived from L1
type Engine ¶
type Engine interface { GetPayload(ctx context.Context, payloadId eth.PayloadID) (*eth.ExecutionPayload, error) ForkchoiceUpdate(ctx context.Context, state *eth.ForkchoiceState, attr *eth.PayloadAttributes) (*eth.ForkchoiceUpdatedResult, error) NewPayload(ctx context.Context, payload *eth.ExecutionPayload) (*eth.PayloadStatusV1, error) PayloadByHash(context.Context, common.Hash) (*eth.ExecutionPayload, error) PayloadByNumber(context.Context, uint64) (*eth.ExecutionPayload, error) L2BlockRefByLabel(ctx context.Context, label eth.BlockLabel) (eth.L2BlockRef, error) L2BlockRefByHash(ctx context.Context, l2Hash common.Hash) (eth.L2BlockRef, error) SystemConfigL2Fetcher }
type EngineControl ¶ added in v0.10.12
type EngineControl interface { EngineState // StartPayload requests the engine to start building a block with the given attributes. // If updateSafe, the resulting block will be marked as a safe block. StartPayload(ctx context.Context, parent eth.L2BlockRef, attrs *eth.PayloadAttributes, updateSafe bool) (errType BlockInsertionErrType, err error) // ConfirmPayload requests the engine to complete the current block. If no block is being built, or if it fails, an error is returned. ConfirmPayload(ctx context.Context) (out *eth.ExecutionPayload, errTyp BlockInsertionErrType, err error) // CancelPayload requests the engine to stop building the current block without making it canonical. // This is optional, as the engine expires building jobs that are left uncompleted, but can still save resources. CancelPayload(ctx context.Context, force bool) error // BuildingPayload indicates if a payload is being built, and onto which block it is being built, and whether or not it is a safe payload. BuildingPayload() (onto eth.L2BlockRef, id eth.PayloadID, safe bool) }
EngineControl enables other components to build blocks with the Engine, while keeping the forkchoice state and payload-id management internal to avoid state inconsistencies between different users of the EngineControl.
type EngineQueue ¶
type EngineQueue struct {
// contains filtered or unexported fields
}
EngineQueue queues up payload attributes to consolidate or process with the provided Engine
func NewEngineQueue ¶
func NewEngineQueue(log log.Logger, cfg *rollup.Config, engine Engine, metrics Metrics, prev NextAttributesProvider, l1Fetcher L1Fetcher) *EngineQueue
NewEngineQueue creates a new EngineQueue, which should be Reset(origin) before use.
func (*EngineQueue) AddSafeAttributes ¶
func (eq *EngineQueue) AddSafeAttributes(attributes *eth.PayloadAttributes)
func (*EngineQueue) AddUnsafePayload ¶
func (eq *EngineQueue) AddUnsafePayload(payload *eth.ExecutionPayload)
func (*EngineQueue) BuildingPayload ¶ added in v0.10.12
func (eq *EngineQueue) BuildingPayload() (onto eth.L2BlockRef, id eth.PayloadID, safe bool)
func (*EngineQueue) CancelPayload ¶ added in v0.10.12
func (eq *EngineQueue) CancelPayload(ctx context.Context, force bool) error
func (*EngineQueue) ConfirmPayload ¶ added in v0.10.12
func (eq *EngineQueue) ConfirmPayload(ctx context.Context) (out *eth.ExecutionPayload, errTyp BlockInsertionErrType, err error)
func (*EngineQueue) Finalize ¶
func (eq *EngineQueue) Finalize(l1Origin eth.L1BlockRef)
func (*EngineQueue) Finalized ¶
func (eq *EngineQueue) Finalized() eth.L2BlockRef
func (*EngineQueue) FinalizedL1 ¶
func (eq *EngineQueue) FinalizedL1() eth.L1BlockRef
FinalizedL1 identifies the L1 chain (incl.) that included and/or produced all the finalized L2 blocks. This may return a zeroed ID if no finalization signals have been seen yet.
func (*EngineQueue) LastL2Time ¶
func (eq *EngineQueue) LastL2Time() uint64
func (*EngineQueue) Origin ¶
func (eq *EngineQueue) Origin() eth.L1BlockRef
Origin identifies the L1 chain (incl.) that included and/or produced all the safe L2 blocks.
func (*EngineQueue) Reset ¶
func (eq *EngineQueue) Reset(ctx context.Context, _ eth.L1BlockRef, _ eth.SystemConfig) error
ResetStep Walks the L2 chain backwards until it finds an L2 block whose L1 origin is canonical. The unsafe head is set to the head of the L2 chain, unless the existing safe head is not canonical.
func (*EngineQueue) SafeL2Head ¶
func (eq *EngineQueue) SafeL2Head() eth.L2BlockRef
func (*EngineQueue) SetUnsafeHead ¶
func (eq *EngineQueue) SetUnsafeHead(head eth.L2BlockRef)
func (*EngineQueue) StartPayload ¶ added in v0.10.12
func (eq *EngineQueue) StartPayload(ctx context.Context, parent eth.L2BlockRef, attrs *eth.PayloadAttributes, updateSafe bool) (errType BlockInsertionErrType, err error)
func (*EngineQueue) SystemConfig ¶
func (eq *EngineQueue) SystemConfig() eth.SystemConfig
func (*EngineQueue) UnsafeL2Head ¶
func (eq *EngineQueue) UnsafeL2Head() eth.L2BlockRef
type EngineQueueStage ¶
type EngineQueueStage interface { EngineControl FinalizedL1() eth.L1BlockRef Finalized() eth.L2BlockRef UnsafeL2Head() eth.L2BlockRef SafeL2Head() eth.L2BlockRef Origin() eth.L1BlockRef SystemConfig() eth.SystemConfig SetUnsafeHead(head eth.L2BlockRef) Finalize(l1Origin eth.L1BlockRef) AddSafeAttributes(attributes *eth.PayloadAttributes) AddUnsafePayload(payload *eth.ExecutionPayload) Step(context.Context) error }
type EngineState ¶ added in v0.10.12
type EngineState interface { Finalized() eth.L2BlockRef UnsafeL2Head() eth.L2BlockRef SafeL2Head() eth.L2BlockRef }
EngineState provides a read-only interface of the forkchoice state properties of the L2 Engine.
type Error ¶
type Error struct {
// contains filtered or unexported fields
}
Error is a wrapper for error, description and a severity level.
type FetchingAttributesBuilder ¶ added in v0.10.11
type FetchingAttributesBuilder struct {
// contains filtered or unexported fields
}
FetchingAttributesBuilder fetches inputs for the building of L2 payload attributes on the fly.
func NewFetchingAttributesBuilder ¶ added in v0.10.11
func NewFetchingAttributesBuilder(cfg *rollup.Config, l1 L1ReceiptsFetcher, l2 SystemConfigL2Fetcher) *FetchingAttributesBuilder
func (*FetchingAttributesBuilder) PreparePayloadAttributes ¶ added in v0.10.11
func (ba *FetchingAttributesBuilder) PreparePayloadAttributes(ctx context.Context, l2Parent eth.L2BlockRef, epoch eth.BlockID) (attrs *eth.PayloadAttributes, err error)
PreparePayloadAttributes prepares a PayloadAttributes template that is ready to build a L2 block with deposits only, on top of the given l2Parent, with the given epoch as L1 origin. The template defaults to NoTxPool=true, and no sequencer transactions: the caller has to modify the template to add transactions, by setting NoTxPool=false as sequencer, or by appending batch transactions as verifier. The severity of the error is returned; a crit=false error means there was a temporary issue, like a failed RPC or time-out. A crit=true error means the input arguments are inconsistent or invalid.
type FinalityData ¶
type FinalityData struct { // The last L2 block that was fully derived and inserted into the L2 engine while processing this L1 block. L2Block eth.L2BlockRef // The L1 block this stage was at when inserting the L2 block. // When this L1 block is finalized, the L2 chain up to this block can be fully reproduced from finalized L1 data. L1Block eth.BlockID }
type Frame ¶
func ParseFrames ¶
ParseFrames parse the on chain serialization of frame(s) in an L1 transaction. Currently only version 0 of the serialization format is supported. All frames must be parsed without error and there must not be any left over data and there must be at least one frame.
func (*Frame) MarshalBinary ¶
MarshalBinary writes the frame to `w`. It returns any errors encountered while writing, but generally expects the writer very rarely fail.
func (*Frame) UnmarshalBinary ¶
func (f *Frame) UnmarshalBinary(r ByteReader) error
UnmarshalBinary consumes a full frame from the reader. If `r` fails a read, it returns the error from the reader The reader will be left in a partially read state.
type FrameQueue ¶
type FrameQueue struct {
// contains filtered or unexported fields
}
func NewFrameQueue ¶
func NewFrameQueue(log log.Logger, prev NextDataProvider) *FrameQueue
func (*FrameQueue) Origin ¶
func (fq *FrameQueue) Origin() eth.L1BlockRef
func (*FrameQueue) Reset ¶
func (fq *FrameQueue) Reset(_ context.Context, _ eth.L1BlockRef, _ eth.SystemConfig) error
type L1BlockInfo ¶
type L1BlockInfo struct { Number uint64 Time uint64 BaseFee *big.Int BlockHash common.Hash // Not strictly a piece of L1 information. Represents the number of L2 blocks since the start of the epoch, // i.e. when the actual L1 info was first introduced. SequenceNumber uint64 // BatcherHash version 0 is just the address with 0 padding to the left. BatcherAddr common.Address L1FeeOverhead eth.Bytes32 L1FeeScalar eth.Bytes32 }
L1BlockInfo presents the information stored in a L1Block.setL1BlockValues call
func L1InfoDepositTxData ¶
func L1InfoDepositTxData(data []byte) (L1BlockInfo, error)
L1InfoDepositTxData is the inverse of L1InfoDeposit, to see where the L2 chain is derived from
func (*L1BlockInfo) MarshalBinary ¶
func (info *L1BlockInfo) MarshalBinary() ([]byte, error)
func (*L1BlockInfo) UnmarshalBinary ¶
func (info *L1BlockInfo) UnmarshalBinary(data []byte) error
type L1BlockRefByHashFetcher ¶
type L1Fetcher ¶
type L1Fetcher interface { L1BlockRefByLabel(ctx context.Context, label eth.BlockLabel) (eth.L1BlockRef, error) L1BlockRefByNumberFetcher L1BlockRefByHashFetcher L1ReceiptsFetcher L1TransactionFetcher }
type L1InfoDepositSource ¶
func (*L1InfoDepositSource) SourceHash ¶
func (dep *L1InfoDepositSource) SourceHash() common.Hash
type L1ReceiptsFetcher ¶
type L1ReceiptsFetcher interface { InfoByHash(ctx context.Context, hash common.Hash) (eth.BlockInfo, error) FetchReceipts(ctx context.Context, blockHash common.Hash) (eth.BlockInfo, types.Receipts, error) }
L1ReceiptsFetcher fetches L1 header info and receipts for the payload attributes derivation (the info tx and deposits)
type L1Retrieval ¶
type L1Retrieval struct {
// contains filtered or unexported fields
}
func NewL1Retrieval ¶
func NewL1Retrieval(log log.Logger, dataSrc DataAvailabilitySource, prev NextBlockProvider) *L1Retrieval
func (*L1Retrieval) NextData ¶
func (l1r *L1Retrieval) NextData(ctx context.Context) ([]byte, error)
NextData does an action in the L1 Retrieval stage If there is data, it pushes it to the next stage. If there is no more data open ourselves if we are closed or close ourselves if we are open
func (*L1Retrieval) Origin ¶
func (l1r *L1Retrieval) Origin() eth.L1BlockRef
func (*L1Retrieval) Reset ¶
func (l1r *L1Retrieval) Reset(ctx context.Context, base eth.L1BlockRef, sysCfg eth.SystemConfig) error
ResetStep re-initializes the L1 Retrieval stage to block of it's `next` progress. Note that we open up the `l1r.datas` here because it is requires to maintain the internal invariants that later propagate up the derivation pipeline.
type L1TransactionFetcher ¶
type L1Traversal ¶
type L1Traversal struct {
// contains filtered or unexported fields
}
func NewL1Traversal ¶
func NewL1Traversal(log log.Logger, cfg *rollup.Config, l1Blocks L1BlockRefByNumberFetcher) *L1Traversal
func (*L1Traversal) AdvanceL1Block ¶
func (l1t *L1Traversal) AdvanceL1Block(ctx context.Context) error
AdvanceL1Block advances the internal state of L1 Traversal
func (*L1Traversal) NextL1Block ¶
func (l1t *L1Traversal) NextL1Block(_ context.Context) (eth.L1BlockRef, error)
NextL1Block returns the next block. It does not advance, but it can only be called once before returning io.EOF
func (*L1Traversal) Origin ¶
func (l1t *L1Traversal) Origin() eth.L1BlockRef
func (*L1Traversal) Reset ¶
func (l1t *L1Traversal) Reset(ctx context.Context, base eth.L1BlockRef, cfg eth.SystemConfig) error
Reset sets the internal L1 block to the supplied base. Note that the next call to `NextL1Block` will return the block after `base` TODO: Walk one back/figure this out.
func (*L1Traversal) SystemConfig ¶
func (l1c *L1Traversal) SystemConfig() eth.SystemConfig
type Level ¶
type Level uint
Level is the severity level of the error.
const ( // LevelTemporary is a temporary error for example due to an RPC or // connection issue, and can be safely ignored and retried by the caller LevelTemporary Level = iota // LevelReset is a pipeline reset error. It must be treated like a reorg. LevelReset // LevelCritical is a critical error. LevelCritical )
There are three levels currently, out of which only 2 are being used to classify error by severity. LevelTemporary
type Metrics ¶
type Metrics interface { RecordL1Ref(name string, ref eth.L1BlockRef) RecordL2Ref(name string, ref eth.L2BlockRef) RecordUnsafePayloadsBuffer(length uint64, memSize uint64, next eth.BlockID) }
type NextAttributesProvider ¶
type NextAttributesProvider interface { Origin() eth.L1BlockRef NextAttributes(context.Context, eth.L2BlockRef) (*eth.PayloadAttributes, error) }
type NextBatchProvider ¶
type NextBlockProvider ¶
type NextBlockProvider interface { NextL1Block(context.Context) (eth.L1BlockRef, error) Origin() eth.L1BlockRef SystemConfig() eth.SystemConfig }
type NextDataProvider ¶
type NextFrameProvider ¶
type PayloadsQueue ¶
type PayloadsQueue struct { MaxSize uint64 SizeFn func(p *eth.ExecutionPayload) uint64 // contains filtered or unexported fields }
PayloadsQueue buffers payloads by block number. PayloadsQueue is not safe to use concurrently. PayloadsQueue exposes typed Push/Peek/Pop methods to use the queue, without the need to use heap.Push/heap.Pop as caller. PayloadsQueue maintains a MaxSize by counting and tracking sizes of added eth.ExecutionPayload entries. When the size grows too large, the first (lowest block-number) payload is removed from the queue. PayloadsQueue allows entries with same block number, or even full duplicates.
func (*PayloadsQueue) Len ¶
func (upq *PayloadsQueue) Len() int
func (*PayloadsQueue) MemSize ¶
func (upq *PayloadsQueue) MemSize() uint64
func (*PayloadsQueue) Peek ¶
func (upq *PayloadsQueue) Peek() *eth.ExecutionPayload
Peek retrieves the payload with the lowest block number from the queue in O(1), or nil if the queue is empty.
func (*PayloadsQueue) Pop ¶
func (upq *PayloadsQueue) Pop() *eth.ExecutionPayload
Pop removes the payload with the lowest block number from the queue in O(log(N)), and may return nil if the queue is empty.
func (*PayloadsQueue) Push ¶
func (upq *PayloadsQueue) Push(p *eth.ExecutionPayload) error
Push adds the payload to the queue, in O(log(N)).
Don't DoS ourselves by buffering too many unsafe payloads. If the queue size after pushing exceed the allowed memory, then pop payloads until memory is not exceeding anymore.
We prefer higher block numbers over lower block numbers, since lower block numbers are more likely to be conflicts and/or read from L1 sooner. The higher payload block numbers can be preserved, and once L1 contents meets these, they can all be processed in order.
type ResetableStage ¶
type ResetableStage interface { // Reset resets a pull stage. `base` refers to the L1 Block Reference to reset to, with corresponding configuration. Reset(ctx context.Context, base eth.L1BlockRef, baseCfg eth.SystemConfig) error }
type SystemConfigL2Fetcher ¶
type UserDepositSource ¶
func (*UserDepositSource) SourceHash ¶
func (dep *UserDepositSource) SourceHash() common.Hash
Source Files ¶
- attributes.go
- attributes_queue.go
- batch.go
- batch_queue.go
- batches.go
- calldata_source.go
- channel.go
- channel_bank.go
- channel_in_reader.go
- channel_out.go
- deposit_log.go
- deposit_source.go
- deposits.go
- doc.go
- engine_consolidate.go
- engine_queue.go
- engine_update.go
- error.go
- frame.go
- frame_queue.go
- l1_block_info.go
- l1_retrieval.go
- l1_traversal.go
- params.go
- payload_util.go
- payloads_queue.go
- pipeline.go
- system_config.go