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interface.go
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package process
import (
"math/big"
"time"
"github.com/ElrondNetwork/elrond-go/core"
"github.com/ElrondNetwork/elrond-go/data"
"github.com/ElrondNetwork/elrond-go/data/block"
"github.com/ElrondNetwork/elrond-go/data/rewardTx"
"github.com/ElrondNetwork/elrond-go/data/smartContractResult"
"github.com/ElrondNetwork/elrond-go/data/state"
"github.com/ElrondNetwork/elrond-go/data/transaction"
"github.com/ElrondNetwork/elrond-go/p2p"
"github.com/ElrondNetwork/elrond-go/process/block/bootstrapStorage"
"github.com/ElrondNetwork/elrond-go/process/block/processedMb"
"github.com/ElrondNetwork/elrond-go/sharding"
"github.com/ElrondNetwork/elrond-go/storage"
"github.com/ElrondNetwork/elrond-vm-common"
)
// TransactionProcessor is the main interface for transaction execution engine
type TransactionProcessor interface {
ProcessTransaction(transaction *transaction.Transaction) error
IsInterfaceNil() bool
}
// RewardTransactionProcessor is the interface for reward transaction execution engine
type RewardTransactionProcessor interface {
ProcessRewardTransaction(rewardTx *rewardTx.RewardTx) error
IsInterfaceNil() bool
}
// RewardTransactionPreProcessor prepares the processing of reward transactions
type RewardTransactionPreProcessor interface {
AddComputedRewardMiniBlocks(computedRewardMiniblocks block.MiniBlockSlice)
IsInterfaceNil() bool
}
// SmartContractResultProcessor is the main interface for smart contract result execution engine
type SmartContractResultProcessor interface {
ProcessSmartContractResult(scr *smartContractResult.SmartContractResult) error
IsInterfaceNil() bool
}
// TxTypeHandler is an interface to calculate the transaction type
type TxTypeHandler interface {
ComputeTransactionType(tx data.TransactionHandler) TransactionType
IsInterfaceNil() bool
}
// TxValidator can determine if a provided transaction handler is valid or not from the process point of view
type TxValidator interface {
CheckTxValidity(txHandler TxValidatorHandler) error
IsInterfaceNil() bool
}
// TxValidatorHandler defines the functionality that is needed for a TxValidator to validate a transaction
type TxValidatorHandler interface {
SenderShardId() uint32
ReceiverShardId() uint32
Nonce() uint64
SenderAddress() []byte
Fee() *big.Int
}
// HdrValidatorHandler defines the functionality that is needed for a HdrValidator to validate a header
type HdrValidatorHandler interface {
Hash() []byte
HeaderHandler() data.HeaderHandler
}
// HeaderValidator can determine if a provided header handler is valid or not from the process point of view
type HeaderValidator interface {
HeaderValidForProcessing(headerHandler HdrValidatorHandler) error
IsInterfaceNil() bool
}
// InterceptedDataFactory can create new instances of InterceptedData
type InterceptedDataFactory interface {
Create(buff []byte) (InterceptedData, error)
IsInterfaceNil() bool
}
// InterceptedData represents the interceptor's view of the received data
type InterceptedData interface {
CheckValidity() error
IsForCurrentShard() bool
IsInterfaceNil() bool
Hash() []byte
Type() string
Identifiers() [][]byte
String() string
}
// InterceptorProcessor further validates and saves received data
type InterceptorProcessor interface {
Validate(data InterceptedData, fromConnectedPeer p2p.PeerID) error
Save(data InterceptedData, fromConnectedPeer p2p.PeerID) error
IsInterfaceNil() bool
}
// InterceptorThrottler can monitor the number of the currently running interceptor go routines
type InterceptorThrottler interface {
CanProcess() bool
StartProcessing()
EndProcessing()
IsInterfaceNil() bool
}
// TransactionCoordinator is an interface to coordinate transaction processing using multiple processors
type TransactionCoordinator interface {
RequestMiniBlocks(header data.HeaderHandler)
RequestBlockTransactions(body *block.Body)
IsDataPreparedForProcessing(haveTime func() time.Duration) error
SaveBlockDataToStorage(body *block.Body) error
RestoreBlockDataFromStorage(body *block.Body) (int, error)
RemoveBlockDataFromPool(body *block.Body) error
ProcessBlockTransaction(body *block.Body, haveTime func() time.Duration) error
CreateBlockStarted()
CreateMbsAndProcessCrossShardTransactionsDstMe(
header data.HeaderHandler,
processedMiniBlocksHashes map[string]struct{},
haveTime func() bool,
) (block.MiniBlockSlice, uint32, bool, error)
CreateMbsAndProcessTransactionsFromMe(haveTime func() bool) block.MiniBlockSlice
CreatePostProcessMiniBlocks() block.MiniBlockSlice
CreateMarshalizedData(body *block.Body) map[string][][]byte
GetAllCurrentUsedTxs(blockType block.Type) map[string]data.TransactionHandler
CreateReceiptsHash() ([]byte, error)
VerifyCreatedBlockTransactions(hdr data.HeaderHandler, body *block.Body) error
IsInterfaceNil() bool
}
// SmartContractProcessor is the main interface for the smart contract caller engine
type SmartContractProcessor interface {
ExecuteSmartContractTransaction(tx data.TransactionHandler, acntSrc, acntDst state.UserAccountHandler) error
DeploySmartContract(tx data.TransactionHandler, acntSrc state.UserAccountHandler) error
ProcessIfError(acntSnd state.UserAccountHandler, txHash []byte, tx data.TransactionHandler, returnCode string, snapshot int) error
IsInterfaceNil() bool
}
// IntermediateTransactionHandler handles transactions which are not resolved in only one step
type IntermediateTransactionHandler interface {
AddIntermediateTransactions(txs []data.TransactionHandler) error
CreateAllInterMiniBlocks() []*block.MiniBlock
VerifyInterMiniBlocks(body *block.Body) error
SaveCurrentIntermediateTxToStorage() error
GetAllCurrentFinishedTxs() map[string]data.TransactionHandler
CreateBlockStarted()
GetCreatedInShardMiniBlock() *block.MiniBlock
RemoveProcessedResultsFor(txHashes [][]byte)
IsInterfaceNil() bool
}
// DataMarshalizer defines the behavior of a structure that is able to marshalize containing data
type DataMarshalizer interface {
CreateMarshalizedData(txHashes [][]byte) ([][]byte, error)
}
// TransactionVerifier interface validates if the transaction is good and if it should be processed
type TransactionVerifier interface {
IsTransactionValid(tx data.TransactionHandler) error
}
// TransactionFeeHandler processes the transaction fee
type TransactionFeeHandler interface {
CreateBlockStarted()
GetAccumulatedFees() *big.Int
GetDeveloperFees() *big.Int
ProcessTransactionFee(cost *big.Int, devFee *big.Int, txHash []byte)
RevertFees(txHashes [][]byte)
IsInterfaceNil() bool
}
// PreProcessor is an interface used to prepare and process transaction data
type PreProcessor interface {
CreateBlockStarted()
IsDataPrepared(requestedTxs int, haveTime func() time.Duration) error
RemoveTxBlockFromPools(body *block.Body, miniBlockPool storage.Cacher) error
RestoreTxBlockIntoPools(body *block.Body, miniBlockPool storage.Cacher) (int, error)
SaveTxBlockToStorage(body *block.Body) error
ProcessBlockTransactions(body *block.Body, haveTime func() bool) error
RequestBlockTransactions(body *block.Body) int
RequestTransactionsForMiniBlock(miniBlock *block.MiniBlock) int
ProcessMiniBlock(miniBlock *block.MiniBlock, haveTime func() bool) ([][]byte, error)
CreateAndProcessMiniBlocks(haveTime func() bool) (block.MiniBlockSlice, error)
GetAllCurrentUsedTxs() map[string]data.TransactionHandler
IsInterfaceNil() bool
}
// BlockProcessor is the main interface for block execution engine
type BlockProcessor interface {
ProcessBlock(header data.HeaderHandler, body data.BodyHandler, haveTime func() time.Duration) error
CommitBlock(header data.HeaderHandler, body data.BodyHandler) error
RevertAccountState(header data.HeaderHandler)
PruneStateOnRollback(currHeader data.HeaderHandler, prevHeader data.HeaderHandler)
RevertStateToBlock(header data.HeaderHandler) error
CreateNewHeader(round uint64, nonce uint64) data.HeaderHandler
RestoreBlockIntoPools(header data.HeaderHandler, body data.BodyHandler) error
CreateBlock(initialHdr data.HeaderHandler, haveTime func() bool) (data.HeaderHandler, data.BodyHandler, error)
ApplyProcessedMiniBlocks(processedMiniBlocks *processedMb.ProcessedMiniBlockTracker)
MarshalizedDataToBroadcast(header data.HeaderHandler, body data.BodyHandler) (map[uint32][]byte, map[string][][]byte, error)
DecodeBlockBody(dta []byte) data.BodyHandler
DecodeBlockHeader(dta []byte) data.HeaderHandler
SetNumProcessedObj(numObj uint64)
IsInterfaceNil() bool
}
// ValidatorStatisticsProcessor is the main interface for validators' consensus participation statistics
type ValidatorStatisticsProcessor interface {
UpdatePeerState(header data.HeaderHandler, cache map[string]data.HeaderHandler) ([]byte, error)
RevertPeerState(header data.HeaderHandler) error
GetPeerAccount(address []byte) (state.PeerAccountHandler, error)
Process(shardValidatorInfo data.ShardValidatorInfoHandler) error
IsInterfaceNil() bool
RootHash() ([]byte, error)
ResetValidatorStatisticsAtNewEpoch(vInfos map[uint32][]*state.ValidatorInfo) error
GetValidatorInfoForRootHash(rootHash []byte) (map[uint32][]*state.ValidatorInfo, error)
ProcessRatingsEndOfEpoch(validatorInfos map[uint32][]*state.ValidatorInfo, epoch uint32) error
Commit() ([]byte, error)
DisplayRatings(epoch uint32)
}
// TransactionLogProcessor is the main interface for saving logs generated by smart contract calls
type TransactionLogProcessor interface {
GetLog(txHash []byte) (data.LogHandler, error)
SaveLog(txHash []byte, tx data.TransactionHandler, vmLogs []*vmcommon.LogEntry) error
IsInterfaceNil() bool
}
// TransactionLogProcessorDatabase is interface the for saving logs also in RAM
type TransactionLogProcessorDatabase interface {
GetLogFromCache(txHash []byte) (data.LogHandler, bool)
EnableLogToBeSavedInCache()
Clean()
IsInterfaceNil() bool
}
// ValidatorsProvider is the main interface for validators' provider
type ValidatorsProvider interface {
GetLatestValidators() map[string]*state.ValidatorApiResponse
GetLatestValidatorInfos() (map[uint32][]*state.ValidatorInfo, error)
IsInterfaceNil() bool
}
// Checker provides functionality to checks the integrity and validity of a data structure
type Checker interface {
// IntegrityAndValidity does both validity and integrity checks on the data structure
IntegrityAndValidity(coordinator sharding.Coordinator) error
// Integrity checks only the integrity of the data
Integrity(coordinator sharding.Coordinator) error
// IsInterfaceNil returns true if there is no value under the interface
IsInterfaceNil() bool
}
// HeaderConstructionValidator provides functionality to verify header construction
type HeaderConstructionValidator interface {
IsHeaderConstructionValid(currHdr, prevHdr data.HeaderHandler) error
IsInterfaceNil() bool
}
// SigVerifier provides functionality to verify a signature of a signed data structure that holds also the verifying parameters
type SigVerifier interface {
VerifySig() error
}
// SignedDataValidator provides functionality to check the validity and signature of a data structure
type SignedDataValidator interface {
SigVerifier
Checker
}
// HashAccesser interface provides functionality over hashable objects
type HashAccesser interface {
SetHash([]byte)
Hash() []byte
}
// Bootstrapper is an interface that defines the behaviour of a struct that is able
// to synchronize the node
type Bootstrapper interface {
Close() error
AddSyncStateListener(func(isSyncing bool))
GetNodeState() core.NodeState
StartSyncingBlocks()
SetStatusHandler(handler core.AppStatusHandler) error
IsInterfaceNil() bool
}
// ForkDetector is an interface that defines the behaviour of a struct that is able
// to detect forks
type ForkDetector interface {
AddHeader(header data.HeaderHandler, headerHash []byte, state BlockHeaderState, selfNotarizedHeaders []data.HeaderHandler, selfNotarizedHeadersHashes [][]byte) error
RemoveHeader(nonce uint64, hash []byte)
CheckFork() *ForkInfo
GetHighestFinalBlockNonce() uint64
GetHighestFinalBlockHash() []byte
ProbableHighestNonce() uint64
ResetFork()
SetRollBackNonce(nonce uint64)
RestoreToGenesis()
GetNotarizedHeaderHash(nonce uint64) []byte
ResetProbableHighestNonce()
IsInterfaceNil() bool
}
// InterceptorsContainer defines an interceptors holder data type with basic functionality
type InterceptorsContainer interface {
Get(key string) (Interceptor, error)
Add(key string, val Interceptor) error
AddMultiple(keys []string, interceptors []Interceptor) error
Replace(key string, val Interceptor) error
Remove(key string)
Len() int
Iterate(handler func(key string, interceptor Interceptor) bool)
IsInterfaceNil() bool
}
// InterceptorsContainerFactory defines the functionality to create an interceptors container
type InterceptorsContainerFactory interface {
Create() (InterceptorsContainer, error)
IsInterfaceNil() bool
}
// PreProcessorsContainer defines an PreProcessors holder data type with basic functionality
type PreProcessorsContainer interface {
Get(key block.Type) (PreProcessor, error)
Add(key block.Type, val PreProcessor) error
AddMultiple(keys []block.Type, preprocessors []PreProcessor) error
Replace(key block.Type, val PreProcessor) error
Remove(key block.Type)
Len() int
Keys() []block.Type
IsInterfaceNil() bool
}
// PreProcessorsContainerFactory defines the functionality to create an PreProcessors container
type PreProcessorsContainerFactory interface {
Create() (PreProcessorsContainer, error)
IsInterfaceNil() bool
}
// IntermediateProcessorContainer defines an IntermediateProcessor holder data type with basic functionality
type IntermediateProcessorContainer interface {
Get(key block.Type) (IntermediateTransactionHandler, error)
Add(key block.Type, val IntermediateTransactionHandler) error
AddMultiple(keys []block.Type, preprocessors []IntermediateTransactionHandler) error
Replace(key block.Type, val IntermediateTransactionHandler) error
Remove(key block.Type)
Len() int
Keys() []block.Type
IsInterfaceNil() bool
}
// IntermediateProcessorsContainerFactory defines the functionality to create an IntermediateProcessors container
type IntermediateProcessorsContainerFactory interface {
Create() (IntermediateProcessorContainer, error)
IsInterfaceNil() bool
}
// VirtualMachinesContainer defines a virtual machine holder data type with basic functionality
type VirtualMachinesContainer interface {
Close() error
Get(key []byte) (vmcommon.VMExecutionHandler, error)
Add(key []byte, val vmcommon.VMExecutionHandler) error
AddMultiple(keys [][]byte, vms []vmcommon.VMExecutionHandler) error
Replace(key []byte, val vmcommon.VMExecutionHandler) error
Remove(key []byte)
Len() int
Keys() [][]byte
IsInterfaceNil() bool
}
// VirtualMachinesContainerFactory defines the functionality to create a virtual machine container
type VirtualMachinesContainerFactory interface {
Create() (VirtualMachinesContainer, error)
BlockChainHookImpl() BlockChainHookHandler
IsInterfaceNil() bool
}
// EpochStartTriggerHandler defines that actions which are needed by processor for start of epoch
type EpochStartTriggerHandler interface {
Update(round uint64, nonce uint64)
IsEpochStart() bool
Epoch() uint32
MetaEpoch() uint32
EpochStartRound() uint64
SetProcessed(header data.HeaderHandler, body data.BodyHandler)
RevertStateToBlock(header data.HeaderHandler) error
EpochStartMetaHdrHash() []byte
GetSavedStateKey() []byte
LoadState(key []byte) error
IsInterfaceNil() bool
SetFinalityAttestingRound(round uint64)
EpochFinalityAttestingRound() uint64
RequestEpochStartIfNeeded(interceptedHeader data.HeaderHandler)
}
// EpochBootstrapper defines the actions needed by bootstrapper
type EpochBootstrapper interface {
SetCurrentEpochStartRound(round uint64)
IsInterfaceNil() bool
}
// PendingMiniBlocksHandler is an interface to keep unfinalized miniblocks
type PendingMiniBlocksHandler interface {
AddProcessedHeader(handler data.HeaderHandler) error
RevertHeader(handler data.HeaderHandler) error
GetPendingMiniBlocks(shardID uint32) [][]byte
SetPendingMiniBlocks(shardID uint32, mbHashes [][]byte)
IsInterfaceNil() bool
}
// BlockChainHookHandler defines the actions which should be performed by implementation
type BlockChainHookHandler interface {
TemporaryAccountsHandler
SetCurrentHeader(hdr data.HeaderHandler)
GetBuiltInFunctions() BuiltInFunctionContainer
NewAddress(creatorAddress []byte, creatorNonce uint64, vmType []byte) ([]byte, error)
}
// Interceptor defines what a data interceptor should do
// It should also adhere to the p2p.MessageProcessor interface so it can wire to a p2p.Messenger
type Interceptor interface {
ProcessReceivedMessage(message p2p.MessageP2P, fromConnectedPeer p2p.PeerID) error
SetInterceptedDebugHandler(handler InterceptedDebugHandler) error
IsInterfaceNil() bool
}
// TopicHandler defines the functionality needed by structs to manage topics and message processors
type TopicHandler interface {
HasTopic(name string) bool
CreateTopic(name string, createChannelForTopic bool) error
RegisterMessageProcessor(topic string, handler p2p.MessageProcessor) error
IsInterfaceNil() bool
}
// DataPacker can split a large slice of byte slices in smaller packets
type DataPacker interface {
PackDataInChunks(data [][]byte, limit int) ([][]byte, error)
IsInterfaceNil() bool
}
// RequestHandler defines the methods through which request to data can be made
type RequestHandler interface {
SetEpoch(epoch uint32)
RequestShardHeader(shardID uint32, hash []byte)
RequestMetaHeader(hash []byte)
RequestMetaHeaderByNonce(nonce uint64)
RequestShardHeaderByNonce(shardID uint32, nonce uint64)
RequestTransaction(destShardID uint32, txHashes [][]byte)
RequestUnsignedTransactions(destShardID uint32, scrHashes [][]byte)
RequestRewardTransactions(destShardID uint32, txHashes [][]byte)
RequestMiniBlock(destShardID uint32, miniblockHash []byte)
RequestMiniBlocks(destShardID uint32, miniblocksHashes [][]byte)
RequestTrieNodes(destShardID uint32, hashes [][]byte, topic string)
RequestStartOfEpochMetaBlock(epoch uint32)
RequestInterval() time.Duration
SetNumPeersToQuery(key string, intra int, cross int) error
GetNumPeersToQuery(key string) (int, int, error)
IsInterfaceNil() bool
}
// ArgumentsParser defines the functionality to parse transaction data into arguments and code for smart contracts
type ArgumentsParser interface {
GetFunctionArguments() ([][]byte, error)
GetConstructorArguments() ([][]byte, error)
GetCode() ([]byte, error)
GetCodeDecoded() ([]byte, error)
GetVMType() ([]byte, error)
GetCodeMetadata() (vmcommon.CodeMetadata, error)
GetFunction() (string, error)
ParseData(data string) error
CreateDataFromStorageUpdate(storageUpdates []*vmcommon.StorageUpdate) string
GetStorageUpdates(data string) ([]*vmcommon.StorageUpdate, error)
IsInterfaceNil() bool
}
// TemporaryAccountsHandler defines the functionality to create temporary accounts and pass to VM.
// This holder will contain usually one account from shard X that calls a SC in shard Y
// so when executing the code in shard Y, this impl will hold an ephemeral copy of the sender account from shard X
type TemporaryAccountsHandler interface {
AddTempAccount(address []byte, balance *big.Int, nonce uint64)
CleanTempAccounts()
TempAccount(address []byte) state.AccountHandler
IsInterfaceNil() bool
}
// BlockSizeThrottler defines the functionality of adapting the node to the network speed/latency when it should send a
// block to its peers which should be received in a limited time frame
type BlockSizeThrottler interface {
GetCurrentMaxSize() uint32
Add(round uint64, size uint32)
Succeed(round uint64)
ComputeCurrentMaxSize()
IsInterfaceNil() bool
}
// RewardsHandler will return information about rewards
type RewardsHandler interface {
LeaderPercentage() float64
CommunityPercentage() float64
CommunityAddress() string
MinInflationRate() float64
MaxInflationRate() float64
IsInterfaceNil() bool
}
// EndOfEpochEconomics defines the functionality that is needed to compute end of epoch economics data
type EndOfEpochEconomics interface {
ComputeEndOfEpochEconomics(metaBlock *block.MetaBlock) (*block.Economics, error)
VerifyRewardsPerBlock(metaBlock *block.MetaBlock) error
IsInterfaceNil() bool
}
// ValidatorSettingsHandler defines the functionality which is needed for validators' settings
type ValidatorSettingsHandler interface {
UnBondPeriod() uint64
GenesisNodePrice() *big.Int
IsInterfaceNil() bool
}
// FeeHandler is able to perform some economics calculation on a provided transaction
type FeeHandler interface {
DeveloperPercentage() float64
MaxGasLimitPerBlock() uint64
ComputeGasLimit(tx TransactionWithFeeHandler) uint64
ComputeFee(tx TransactionWithFeeHandler) *big.Int
CheckValidityTxValues(tx TransactionWithFeeHandler) error
MinGasPrice() uint64
IsInterfaceNil() bool
}
// TransactionWithFeeHandler represents a transaction structure that has economics variables defined
type TransactionWithFeeHandler interface {
GetGasLimit() uint64
GetGasPrice() uint64
GetData() []byte
GetRcvAddr() []byte
}
// EconomicsAddressesHandler will return information about economics addresses
type EconomicsAddressesHandler interface {
CommunityAddress() string
BurnAddress() string
IsInterfaceNil() bool
}
// SmartContractToProtocolHandler is able to translate data from smart contract state into protocol changes
type SmartContractToProtocolHandler interface {
UpdateProtocol(body *block.Body, nonce uint64) error
IsInterfaceNil() bool
}
// PeerChangesHandler will create the peer changes data for current block and will verify them
type PeerChangesHandler interface {
PeerChanges() []block.PeerData
VerifyPeerChanges(peerChanges []block.PeerData) error
IsInterfaceNil() bool
}
// BlackListHandler can determine if a certain key is or not blacklisted
type BlackListHandler interface {
Add(key string) error
Has(key string) bool
Sweep()
IsInterfaceNil() bool
}
// NetworkConnectionWatcher defines a watchdog functionality used to specify if the current node
// is still connected to the rest of the network
type NetworkConnectionWatcher interface {
IsConnectedToTheNetwork() bool
IsInterfaceNil() bool
}
// SCQuery represents a prepared query for executing a function of the smart contract
type SCQuery struct {
ScAddress []byte
FuncName string
Arguments [][]byte
}
// GasHandler is able to perform some gas calculation
type GasHandler interface {
Init()
SetGasConsumed(gasConsumed uint64, hash []byte)
SetGasRefunded(gasRefunded uint64, hash []byte)
GasConsumed(hash []byte) uint64
GasRefunded(hash []byte) uint64
TotalGasConsumed() uint64
TotalGasRefunded() uint64
RemoveGasConsumed(hashes [][]byte)
RemoveGasRefunded(hashes [][]byte)
ComputeGasConsumedByMiniBlock(*block.MiniBlock, map[string]data.TransactionHandler) (uint64, uint64, error)
ComputeGasConsumedByTx(txSenderShardId uint32, txReceiverShardId uint32, txHandler data.TransactionHandler) (uint64, uint64, error)
IsInterfaceNil() bool
}
// BootStorer is the interface needed by bootstrapper to read/write data in storage
type BootStorer interface {
SaveLastRound(round int64) error
Put(round int64, bootData bootstrapStorage.BootstrapData) error
Get(round int64) (bootstrapStorage.BootstrapData, error)
GetHighestRound() int64
IsInterfaceNil() bool
}
// BootstrapperFromStorage is the interface needed by boot component to load data from storage
type BootstrapperFromStorage interface {
LoadFromStorage() error
GetHighestBlockNonce() uint64
IsInterfaceNil() bool
}
// RequestBlockBodyHandler is the interface needed by process block
type RequestBlockBodyHandler interface {
GetBlockBodyFromPool(headerHandler data.HeaderHandler) (data.BodyHandler, error)
}
// InterceptedHeaderSigVerifier is the interface needed at interceptors level to check a header if is correct
type InterceptedHeaderSigVerifier interface {
VerifyRandSeedAndLeaderSignature(header data.HeaderHandler) error
VerifySignature(header data.HeaderHandler) error
IsInterfaceNil() bool
}
// BlockTracker defines the functionality for node to track the blocks which are received from network
type BlockTracker interface {
AddCrossNotarizedHeader(shradID uint32, crossNotarizedHeader data.HeaderHandler, crossNotarizedHeaderHash []byte)
AddSelfNotarizedHeader(shardID uint32, selfNotarizedHeader data.HeaderHandler, selfNotarizedHeaderHash []byte)
AddTrackedHeader(header data.HeaderHandler, hash []byte)
CheckBlockAgainstFinal(headerHandler data.HeaderHandler) error
CheckBlockAgainstRounder(headerHandler data.HeaderHandler) error
CleanupHeadersBehindNonce(shardID uint32, selfNotarizedNonce uint64, crossNotarizedNonce uint64)
CleanupInvalidCrossHeaders(metaNewEpoch uint32, metaRoundAttestingEpoch uint64)
ComputeLongestChain(shardID uint32, header data.HeaderHandler) ([]data.HeaderHandler, [][]byte)
ComputeLongestMetaChainFromLastNotarized() ([]data.HeaderHandler, [][]byte, error)
ComputeLongestShardsChainsFromLastNotarized() ([]data.HeaderHandler, [][]byte, map[uint32][]data.HeaderHandler, error)
DisplayTrackedHeaders()
GetCrossNotarizedHeader(shardID uint32, offset uint64) (data.HeaderHandler, []byte, error)
GetLastCrossNotarizedHeader(shardID uint32) (data.HeaderHandler, []byte, error)
GetLastCrossNotarizedHeadersForAllShards() (map[uint32]data.HeaderHandler, error)
GetLastSelfNotarizedHeader(shardID uint32) (data.HeaderHandler, []byte, error)
GetSelfNotarizedHeader(shardID uint32, offset uint64) (data.HeaderHandler, []byte, error)
GetTrackedHeaders(shardID uint32) ([]data.HeaderHandler, [][]byte)
GetTrackedHeadersForAllShards() map[uint32][]data.HeaderHandler
GetTrackedHeadersWithNonce(shardID uint32, nonce uint64) ([]data.HeaderHandler, [][]byte)
IsShardStuck(shardID uint32) bool
RegisterCrossNotarizedHeadersHandler(func(shardID uint32, headers []data.HeaderHandler, headersHashes [][]byte))
RegisterSelfNotarizedHeadersHandler(func(shardID uint32, headers []data.HeaderHandler, headersHashes [][]byte))
RemoveLastNotarizedHeaders()
RestoreToGenesis()
ShouldAddHeader(headerHandler data.HeaderHandler) bool
IsInterfaceNil() bool
}
// FloodPreventer defines the behavior of a component that is able to signal that too many events occurred
// on a provided identifier between Reset calls
type FloodPreventer interface {
IncreaseLoadGlobal(identifier string, size uint64) error
IncreaseLoad(identifier string, size uint64) error
Reset()
IsInterfaceNil() bool
}
// TopicFloodPreventer defines the behavior of a component that is able to signal that too many events occurred
// on a provided identifier between Reset calls, on a given topic
type TopicFloodPreventer interface {
IncreaseLoad(identifier string, topic string, numMessages uint32) error
ResetForTopic(topic string)
ResetForNotRegisteredTopics()
SetMaxMessagesForTopic(topic string, maxNum uint32)
IsInterfaceNil() bool
}
// P2PAntifloodHandler defines the behavior of a component able to signal that the system is too busy (or flooded) processing
// p2p messages
type P2PAntifloodHandler interface {
CanProcessMessage(message p2p.MessageP2P, fromConnectedPeer p2p.PeerID) error
CanProcessMessagesOnTopic(peer p2p.PeerID, topic string, numMessages uint32) error
IsInterfaceNil() bool
}
// SCQueryService defines how data should be get from a SC account
type SCQueryService interface {
ExecuteQuery(query *SCQuery) (*vmcommon.VMOutput, error)
IsInterfaceNil() bool
}
// EpochStartDataCreator defines the functionality for node to create epoch start data
type EpochStartDataCreator interface {
CreateEpochStartData() (*block.EpochStart, error)
VerifyEpochStartDataForMetablock(metaBlock *block.MetaBlock) error
IsInterfaceNil() bool
}
// EpochStartRewardsCreator defines the functionality for the metachain to create rewards at end of epoch
type EpochStartRewardsCreator interface {
CreateRewardsMiniBlocks(metaBlock *block.MetaBlock, validatorsInfo map[uint32][]*state.ValidatorInfo) (block.MiniBlockSlice, error)
VerifyRewardsMiniBlocks(metaBlock *block.MetaBlock, validatorsInfo map[uint32][]*state.ValidatorInfo) error
CreateMarshalizedData(body *block.Body) map[string][][]byte
GetRewardsTxs(body *block.Body) map[string]data.TransactionHandler
SaveTxBlockToStorage(metaBlock *block.MetaBlock, body *block.Body)
DeleteTxsFromStorage(metaBlock *block.MetaBlock, body *block.Body)
RemoveBlockDataFromPools(metaBlock *block.MetaBlock, body *block.Body)
IsInterfaceNil() bool
}
// EpochStartValidatorInfoCreator defines the functionality for the metachain to create validator statistics at end of epoch
type EpochStartValidatorInfoCreator interface {
CreateValidatorInfoMiniBlocks(validatorInfo map[uint32][]*state.ValidatorInfo) (block.MiniBlockSlice, error)
VerifyValidatorInfoMiniBlocks(miniblocks []*block.MiniBlock, validatorsInfo map[uint32][]*state.ValidatorInfo) error
SaveValidatorInfoBlocksToStorage(metaBlock *block.MetaBlock, body *block.Body)
DeleteValidatorInfoBlocksFromStorage(metaBlock *block.MetaBlock)
RemoveBlockDataFromPools(metaBlock *block.MetaBlock, body *block.Body)
IsInterfaceNil() bool
}
// ValidityAttester is able to manage the valid blocks
type ValidityAttester interface {
CheckBlockAgainstFinal(headerHandler data.HeaderHandler) error
CheckBlockAgainstRounder(headerHandler data.HeaderHandler) error
IsInterfaceNil() bool
}
// MiniBlockProvider defines what a miniblock data provider should do
type MiniBlockProvider interface {
GetMiniBlocks(hashes [][]byte) ([]*MiniblockAndHash, [][]byte)
GetMiniBlocksFromPool(hashes [][]byte) ([]*MiniblockAndHash, [][]byte)
IsInterfaceNil() bool
}
// BuiltinFunction defines the methods for the built-in protocol smart contract functions
type BuiltinFunction interface {
ProcessBuiltinFunction(acntSnd, acntDst state.UserAccountHandler, vmInput *vmcommon.ContractCallInput) (*vmcommon.VMOutput, error)
IsInterfaceNil() bool
}
// BuiltInFunctionContainer defines the methods for the built-in protocol container
type BuiltInFunctionContainer interface {
Get(key string) (BuiltinFunction, error)
Add(key string, function BuiltinFunction) error
Replace(key string, function BuiltinFunction) error
Remove(key string)
Len() int
Keys() map[string]struct{}
IsInterfaceNil() bool
}
// RoundTimeDurationHandler defines the methods to get the time duration of a round
type RoundTimeDurationHandler interface {
TimeDuration() time.Duration
IsInterfaceNil() bool
}
// Rounder defines the actions which should be handled by a round implementation
type Rounder interface {
Index() int64
IsInterfaceNil() bool
}
// SelectionChance defines the actions which should be handled by a round implementation
type SelectionChance interface {
GetMaxThreshold() uint32
GetChancePercent() uint32
}
// RatingsInfoHandler defines the information needed for the rating computation
type RatingsInfoHandler interface {
StartRating() uint32
MaxRating() uint32
MinRating() uint32
SignedBlocksThreshold() float32
MetaChainRatingsStepHandler() RatingsStepHandler
ShardChainRatingsStepHandler() RatingsStepHandler
SelectionChances() []SelectionChance
IsInterfaceNil() bool
}
// RatingsStepHandler defines the information needed for the rating computation on shards or meta
type RatingsStepHandler interface {
ProposerIncreaseRatingStep() int32
ProposerDecreaseRatingStep() int32
ValidatorIncreaseRatingStep() int32
ValidatorDecreaseRatingStep() int32
ConsecutiveMissedBlocksPenalty() float32
}
// ValidatorInfoSyncer defines the method needed for validatorInfoProcessing
type ValidatorInfoSyncer interface {
SyncMiniBlocks(metaBlock *block.MetaBlock) ([][]byte, data.BodyHandler, error)
IsInterfaceNil() bool
}
//RatingChanceHandler provides the methods needed for the computation of chances from the Rating
type RatingChanceHandler interface {
//GetMaxThreshold returns the threshold until this ChancePercentage holds
GetMaxThreshold() uint32
//GetChancePercentage returns the percentage for the RatingChanceHandler
GetChancePercentage() uint32
//IsInterfaceNil verifies if the interface is nil
IsInterfaceNil() bool
}
// WhiteListHandler is the interface needed to add whitelisted data
type WhiteListHandler interface {
Remove(keys [][]byte)
Add(keys [][]byte)
IsWhiteListed(interceptedData InterceptedData) bool
IsInterfaceNil() bool
}
// InterceptedDebugHandler defines an interface for debugging the intercepted data
type InterceptedDebugHandler interface {
LogReceivedHashes(topic string, hashes [][]byte)
LogProcessedHashes(topic string, hashes [][]byte, err error)
IsInterfaceNil() bool
}
// MiniblockAndHash holds the info related to a miniblock and its hash
type MiniblockAndHash struct {
Miniblock *block.MiniBlock
Hash []byte
}
// PoolsCleaner defines the functionality to clean pools for old records
type PoolsCleaner interface {
Close() error
StartCleaning()
IsInterfaceNil() bool
}