mempool

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Published: Jan 19, 2023 License: AGPL-3.0 Imports: 8 Imported by: 0

Documentation

Overview

(c) 2019 Dapper Labs - ALL RIGHTS RESERVED

Index

Constants

View Source
const DefaultChunkDataPackRequestQueueSize = 100_000

Variables

This section is empty.

Functions

func IsDecreasingPruningHeightError

func IsDecreasingPruningHeightError(err error) bool

IsDecreasingPruningHeightError returns whether the given error is an DecreasingPruningHeightError error

func IsUnknownExecutionResultError

func IsUnknownExecutionResultError(err error) bool

IsUnknownExecutionResultError returns whether the given error is an UnknownExecutionResultError error

func NewDecreasingPruningHeightError

func NewDecreasingPruningHeightError(msg string) error

func NewDecreasingPruningHeightErrorf

func NewDecreasingPruningHeightErrorf(msg string, args ...interface{}) error

func NewUnknownExecutionResultError

func NewUnknownExecutionResultError(msg string) error

func NewUnknownExecutionResultErrorf

func NewUnknownExecutionResultErrorf(msg string, args ...interface{}) error

Types

type Assignments

type Assignments interface {

	// Has checks whether the Assignment with the given hash is currently in
	// the memory pool.
	Has(assignmentID flow.Identifier) bool

	// Add will add the given assignment to the memory pool. It will return
	// false if it was already in the mempool.
	Add(assignmentFingerprint flow.Identifier, assignment *chunkmodels.Assignment) bool

	// Remove will remove the given Assignment from the memory pool; it will
	// return true if the Assignment was known and removed.
	Remove(assignmentID flow.Identifier) bool

	// ByID retrieve the chunk assigment with the given ID from the memory pool.
	// It will return false if it was not found in the mempool.
	ByID(assignmentID flow.Identifier) (*chunkmodels.Assignment, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// All will retrieve all Assignments that are currently in the memory pool
	// as a slice.
	All() []*chunkmodels.Assignment
}

Assignments represents a concurrency-safe memory pool for chunk assignments

type BackData

type BackData interface {
	// Has checks if backdata already contains the entity with the given identifier.
	Has(entityID flow.Identifier) bool

	// Add adds the given entity to the backdata.
	Add(entityID flow.Identifier, entity flow.Entity) bool

	// Remove removes the entity with the given identifier.
	Remove(entityID flow.Identifier) (flow.Entity, bool)

	// Adjust adjusts the entity using the given function if the given identifier can be found.
	// Returns a bool which indicates whether the entity was updated as well as the updated entity.
	Adjust(entityID flow.Identifier, f func(flow.Entity) flow.Entity) (flow.Entity, bool)

	// ByID returns the given entity from the backdata.
	ByID(entityID flow.Identifier) (flow.Entity, bool)

	// Size returns the size of the backdata, i.e., total number of stored (entityId, entity) pairs.
	Size() uint

	// All returns all entities stored in the backdata.
	All() map[flow.Identifier]flow.Entity

	// Identifiers returns the list of identifiers of entities stored in the backdata.
	Identifiers() flow.IdentifierList

	// Entities returns the list of entities stored in the backdata.
	Entities() []flow.Entity

	// Clear removes all entities from the backdata.
	Clear()
}

BackData represents the underlying data structure that is utilized by mempool.Backend, as the core structure of maintaining data on memory-pools. NOTE: BackData by default is not expected to provide concurrency-safe operations. As it is just the model layer of the mempool, the safety against concurrent operations are guaranteed by the Backend that is the control layer.

type BlockFilter

type BlockFilter func(header *flow.Header) bool

BlockFilter is used for controlling the ExecutionTree's Execution Tree search. The search only traverses to results for blocks which pass the filter. If an the block for an execution result does not pass the filter, the entire sub-tree of derived results is not traversed.

type Blocks

type Blocks interface {

	// Has checks whether the block with the given hash is currently in
	// the memory pool.
	Has(blockID flow.Identifier) bool

	// Add will add the given block to the memory pool. It will return
	// false if it was already in the mempool.
	Add(block *flow.Block) bool

	// Remove will remove the given block from the memory pool; it will
	// will return true if the block was known and removed.
	Remove(blockID flow.Identifier) bool

	// ByID retrieve the block with the given ID from the memory pool.
	// It will return false if it was not found in the mempool.
	ByID(blockID flow.Identifier) (*flow.Block, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// All will retrieve all blocks that are currently in the memory pool
	// as a slice.
	All() []*flow.Block

	// Hash will return a hash of the contents of the memory pool.
	Hash() flow.Identifier
}

Blocks represents a concurrency-safe memory pool for blocks.

type ChunkDataPackRequest

type ChunkDataPackRequest struct {
	// Identifier of the chunk.
	ChunkId flow.Identifier
	// Identifier of the requester node.
	RequesterId flow.Identifier
}

ChunkDataPackRequest is an internal data type for Execution Nodes that represents a request for a chunk data pack.

type ChunkDataPacks

type ChunkDataPacks interface {

	// Has checks whether the ChunkDataPack with the given chunkID is currently in
	// the memory pool.
	Has(chunkID flow.Identifier) bool

	// Add will add the given chunk datapack to the memory pool. It will return
	// false if it was already in the mempool.
	Add(cdp *flow.ChunkDataPack) bool

	// Remove will remove the given ChunkDataPack from the memory pool; it will
	// return true if the ChunkDataPack was known and removed.
	Remove(chunkID flow.Identifier) bool

	// ByChunkID retrieve the chunk datapacke with the given chunk ID from the memory
	// pool. It will return false if it was not found in the mempool.
	ByChunkID(chunkID flow.Identifier) (*flow.ChunkDataPack, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// All will retrieve all ChunkDataPacks that are currently in the memory pool
	// as a slice.
	All() []*flow.ChunkDataPack
}

ChunkDataPacks represents a concurrency-safe memory pool for chunk data packs.

type ChunkRequestHistoryUpdaterFunc

type ChunkRequestHistoryUpdaterFunc func(uint64, time.Duration) (uint64, time.Duration, bool)

ChunkRequestHistoryUpdaterFunc is a function type that used by ChunkRequests mempool to perform atomic and isolated updates on the underlying chunk requests history.

func ExponentialUpdater

func ExponentialUpdater(multiplier float64, maxInterval time.Duration, minInterval time.Duration) ChunkRequestHistoryUpdaterFunc

ExponentialUpdater is a chunk request history updater factory that updates the retryAfter value of a request to multiplier * retryAfter. For example, if multiplier = 2, then invoking it n times results in a retryAfter value of 2^n * retryAfter, which follows an exponential series.

It also keeps updated retryAfter value between the minInterval and maxInterval inclusive. It means that if updated retryAfter value is below minInterval, it is bumped up to the minInterval. Also, if updated retryAfter value is above maxInterval, it is skimmed off back to the maxInterval.

Note: if initial retryAfter is below minInterval, the first call to this function returns minInterval, and hence after the nth invocations, the retryAfter value is set to 2^(n-1) * minInterval.

func IncrementalAttemptUpdater

func IncrementalAttemptUpdater() ChunkRequestHistoryUpdaterFunc

IncrementalAttemptUpdater is a chunk request history updater factory that increments the attempt field of request status and makes it instantly available against any retryAfter qualifier.

type ChunkRequests

type ChunkRequests interface {
	// RequestHistory returns the number of times the chunk has been requested,
	// last time the chunk has been requested, and the retryAfter duration of the
	// underlying request status of this chunk.
	//
	// The last boolean parameter returns whether a chunk request for this chunk ID
	// exists in memory-pool.
	RequestHistory(chunkID flow.Identifier) (uint64, time.Time, time.Duration, bool)

	// Add provides insertion functionality into the memory pool.
	// The insertion is only successful if there is no duplicate chunk request with the same
	// chunk ID in the memory. Otherwise, it aborts the insertion and returns false.
	Add(request *verification.ChunkDataPackRequest) bool

	// Remove provides deletion functionality from the memory pool.
	// If there is a chunk request with this ID, Remove removes it and returns true.
	// Otherwise, it returns false.
	Remove(chunkID flow.Identifier) bool

	// PopAll atomically returns all locators associated with this chunk ID while clearing out the
	// chunk request status for this chunk id.
	// Boolean return value indicates whether there are requests in the memory pool associated
	// with chunk ID.
	PopAll(chunkID flow.Identifier) (chunks.LocatorMap, bool)

	// IncrementAttempt increments the Attempt field of the corresponding status of the
	// chunk request in memory pool that has the specified chunk ID.
	// If such chunk ID does not exist in the memory pool, it returns false.
	//
	// The increments are done atomically, thread-safe, and in isolation.
	IncrementAttempt(chunkID flow.Identifier) bool

	// UpdateRequestHistory updates the request history of the specified chunk ID. If the update was successful, i.e.,
	// the updater returns true, the result of update is committed to the mempool, and the time stamp of the chunk request
	// is updated to the current time. Otherwise, it aborts and returns false.
	//
	// It returns the updated request history values.
	//
	// The updates under this method are atomic, thread-safe, and done in isolation.
	UpdateRequestHistory(chunkID flow.Identifier, updater ChunkRequestHistoryUpdaterFunc) (uint64, time.Time, time.Duration, bool)

	// All returns all chunk requests stored in this memory pool.
	All() verification.ChunkDataPackRequestInfoList

	// Size returns total number of chunk requests in the memory pool.
	Size() uint
}

ChunkRequests is an in-memory storage for maintaining chunk data pack requests.

type ChunkStatuses

type ChunkStatuses interface {
	// Get returns a chunk status by its chunk index and result ID.
	// There is a one-to-one correspondence between the chunk statuses in memory, and
	// their pair of chunk index and result id.
	Get(chunkIndex uint64, resultID flow.Identifier) (*verification.ChunkStatus, bool)

	// Add provides insertion functionality into the memory pool.
	// The insertion is only successful if there is no duplicate status with the same
	// chunk ID in the memory. Otherwise, it aborts the insertion and returns false.
	Add(status *verification.ChunkStatus) bool

	// Remove provides deletion functionality from the memory pool based on the pair of
	// chunk index and result id.
	// If there is a chunk status associated with this pair, Remove removes it and returns true.
	// Otherwise, it returns false.
	Remove(chunkIndex uint64, resultID flow.Identifier) bool

	// All returns all chunk statuses stored in this memory pool.
	All() []*verification.ChunkStatus

	// Size returns total number of chunk statuses in the memory pool.
	Size() uint
}

ChunkStatuses is an in-memory storage for maintaining the chunk status data objects.

type Collections

type Collections interface {

	// Has checks whether the collection with the given hash is currently in
	// the memory pool.
	Has(collID flow.Identifier) bool

	// Add will add the given collection to the memory pool. It will return
	// false if it was already in the mempool.
	Add(coll *flow.Collection) bool

	// Remove will remove the given collection from the memory pool; it will
	// return true if the collection was known and removed.
	Remove(collID flow.Identifier) bool

	// ByID retrieve the collection with the given ID from the memory pool.
	// It will return false if it was not found in the mempool.
	ByID(collID flow.Identifier) (*flow.Collection, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// All will retrieve all collections that are currently in the memory pool
	// as a slice.
	All() []*flow.Collection
}

Collections represents a concurrency-safe memory pool for collections.

type DNSCache

type DNSCache interface {
	// PutIpDomain adds the given ip domain into cache.
	// The int64 argument is the timestamp associated with the domain.
	PutIpDomain(string, []net.IPAddr, int64) bool

	// PutTxtRecord adds the given txt record into the cache.
	// The int64 argument is the timestamp associated with the domain.
	PutTxtRecord(string, []string, int64) bool

	// GetDomainIp returns the ip domain if exists in the cache.
	// The boolean return value determines if domain exists in the cache.
	GetDomainIp(string) (*IpRecord, bool)

	// GetTxtRecord returns the txt record if exists in the cache.
	// The boolean return value determines if record exists in the cache.
	GetTxtRecord(string) (*TxtRecord, bool)

	// LockIPDomain locks an ip address dns record if exists in the cache.
	// The boolean return value determines whether attempt on locking was successful.
	//
	// A locking attempt is successful when the domain record exists in the cache and has not
	// been locked before.
	// Once a domain record gets locked the only way to unlock it is through updating that record.
	//
	// The locking process is defined to record that a resolving attempt is ongoing for an expired domain.
	// So the locking happens to avoid any other parallel resolving.
	LockIPDomain(string) (bool, error)

	// LockTxtRecord locks a txt address dns record if exists in the cache.
	// The boolean return value determines whether attempt on locking was successful.
	//
	// A locking attempt is successful when the domain record exists in the cache and has not
	// been locked before.
	// Once a domain record gets locked the only way to unlock it is through updating that record.
	//
	// The locking process is defined to record that a resolving attempt is ongoing for an expired domain.
	// So the locking happens to avoid any other parallel resolving.
	LockTxtRecord(string) (bool, error)

	// RemoveIp removes an ip domain from cache.
	RemoveIp(string) bool

	// RemoveTxt removes a txt record from cache.
	RemoveTxt(string) bool

	// UpdateTxtRecord updates the dns record for the given txt domain with the new address and timestamp values.
	UpdateTxtRecord(string, []string, int64) error

	// UpdateIPDomain updates the dns record for the given ip domain with the new address and timestamp values.
	UpdateIPDomain(string, []net.IPAddr, int64) error

	// Size returns total domains maintained into this cache.
	// The first returned value determines number of ip domains.
	// The second returned value determines number of txt records.
	Size() (uint, uint)
}

DNSCache provides an in-memory cache for storing dns entries.

type DecreasingPruningHeightError

type DecreasingPruningHeightError struct {
	// contains filtered or unexported fields
}

DecreasingPruningHeightError indicates that we are pruning a mempool by a height that is lower than existing height

func (DecreasingPruningHeightError) Error

func (DecreasingPruningHeightError) Unwrap

type Deltas

type Deltas interface {

	// Has checks whether the block delta with the given hash is currently in
	// the memory pool.
	Has(blockID flow.Identifier) bool

	// Add will add the given block delta to the memory pool. It will return
	// false if it was already in the mempool.
	Add(delta *messages.ExecutionStateDelta) bool

	// Remove will remove the given block delta from the memory pool; it will
	// will return true if the block delta was known and removed.
	Remove(blockID flow.Identifier) bool

	// ByID retrieve the block delta with the given ID from the memory
	// pool. It will return false if it was not found in the mempool.
	ByBlockID(blockID flow.Identifier) (*messages.ExecutionStateDelta, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// Limit will return the maximum size of the memory pool
	Limit() uint

	// All will retrieve all block deltas that are currently in the memory pool
	// as a slice.
	All() []*messages.ExecutionStateDelta
}

Deltas represents a concurrency-safe memory pool for block deltas.

type ExecutionTree

type ExecutionTree interface {

	// AddResult adds an Execution Result to the Execution Tree (without any receipts), in
	// case the result is not already stored in the tree.
	// This is useful for crash recovery:
	// After recovering from a crash, the mempools are wiped and the sealed results will not
	// be stored in the Execution Tree anymore. Adding the result to the tree allows to create
	// a vertex in the tree without attaching any Execution Receipts to it.
	AddResult(result *flow.ExecutionResult, block *flow.Header) error

	// AddReceipt adds the given execution receipt to the memory pool. Requires height
	// of the block the receipt is for. We enforce data consistency on an API
	// level by using the block header as input.
	AddReceipt(receipt *flow.ExecutionReceipt, block *flow.Header) (bool, error)

	// HasReceipt returns true if the given receipt is already present in the mempool.
	HasReceipt(receipt *flow.ExecutionReceipt) bool

	// ReachableReceipts returns a slice of ExecutionReceipt, whose result
	// is computationally reachable from resultID. Context:
	// * Conceptually, the Execution results form a tree, which we refer to as
	//   Execution Tree. A branch in the execution can be due to a fork in the main
	//   chain. Furthermore, the execution branches if ENs disagree about the result
	//   for the same block.
	// * As the ID of an execution result contains the BlockID, which the result
	//   for, all Execution Results with the same ID necessarily are for the same
	//   block. All Execution Receipts committing to the same result from an
	//   equivalence class and can be represented as one vertex in the Execution
	//   Tree.
	// * An execution result r1 points (field ExecutionResult.ParentResultID) to
	//   its parent result r0 , whose end state was used as the starting state
	//   to compute r1. Formally, we have an edge r0 -> r1 in the Execution Tree,
	//   if a result r1 is stored in the mempool, whose ParentResultID points to
	//   r0.
	// ReachableReceipts implements a tree search on the Execution Tree starting
	// from the provided resultID. Execution Receipts are traversed in a
	// parent-first manner, meaning that a the parent result is traversed
	// _before_ any of its derived results. The algorithm only traverses to
	// results, for which there exists a sequence of interim result in the
	// mempool without any gaps.
	//
	// Two filters are supplied:
	// * blockFilter: the tree search will only travers to results for
	//   blocks which pass the filter. Often higher-level logic is only
	//   interested in results for blocks in a specific fork. Such can be
	//   implemented by a suitable blockFilter.
	// * receiptFilter: for a reachable result (subject to the restrictions
	//   imposed by blockFilter, all known receipts are returned.
	//   While _all_ Receipts for the parent result are guaranteed to be
	//   listed before the receipts for the derived results, there is no
	//   specific ordering for the receipts committing to the same result
	//   (random order). If only a subset of receipts for a result is desired
	//   (e.g. for de-duplication with parent blocks), receiptFilter should
	//   be used.
	// Note the important difference between the two filters:
	// * The blockFilter suppresses traversal to derived results.
	// * The receiptFilter does _not_ suppresses traversal to derived results.
	//   Only individual receipts are dropped.
	//
	// Error returns:
	// * UnknownExecutionResultError (sentinel) if resultID is unknown
	// * all other error are unexpected and potential indicators of corrupted internal state
	ReachableReceipts(resultID flow.Identifier, blockFilter BlockFilter, receiptFilter ReceiptFilter) ([]*flow.ExecutionReceipt, error)

	// Size returns the number of receipts stored in the mempool
	Size() uint

	// PruneUpToHeight prunes all results for all blocks with height up to but
	// NOT INCLUDING `newLowestHeight`. Errors if newLowestHeight is smaller than
	// the previous value (as we cannot recover previously pruned results).
	PruneUpToHeight(newLowestHeight uint64) error

	// LowestHeight returns the lowest height, where results are still
	// stored in the mempool.
	LowestHeight() uint64
}

ExecutionTree represents a concurrency-safe memory pool for execution Receipts. Its is aware of the tree structure formed by execution results. All execution receipts for the _same result_ form an equivalence class and are represented by _one_ vertex in the execution tree. The mempool utilizes knowledge about the height of the block the result is for. Hence, the Mempool can only store and process Receipts whose block is known.

Implementations are concurrency safe.

type Guarantees

type Guarantees interface {

	// Has checks whether the collection guarantee with the given hash is
	// currently in the memory pool.
	Has(collID flow.Identifier) bool

	// Add will add the given collection guarantee to the memory pool. It will
	// return false if it was already in the mempool.
	Add(guarantee *flow.CollectionGuarantee) bool

	// Remove will remove the given collection guarantees from the memory pool; it
	// will return true if the collection guarantees was known and removed.
	Remove(collID flow.Identifier) bool

	// ByID retrieve the collection guarantee with the given ID from the memory
	// pool. It will return false if it was not found in the mempool.
	ByID(collID flow.Identifier) (*flow.CollectionGuarantee, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// All will retrieve all collection guarantees that are currently in the memory pool
	// as a slice.
	All() []*flow.CollectionGuarantee
}

Guarantees represents a concurrency-safe memory pool for collection guarantees.

type IdentifierMap

type IdentifierMap interface {
	// Append will append the id to the list of identifiers associated with key.
	Append(key, id flow.Identifier) error

	// Remove removes the given key with all associated identifiers.
	Remove(key flow.Identifier) bool

	// RemoveIdFromKey removes the id from the list of identifiers associated with key.
	// If the list becomes empty, it also removes the key from the map.
	RemoveIdFromKey(key, id flow.Identifier) error

	// Get returns list of all identifiers associated with key and true, if the key exists in the mempool.
	// Otherwise it returns nil and false.
	Get(key flow.Identifier) ([]flow.Identifier, bool)

	// Has returns true if the key exists in the map, i.e., there is at least an id
	// attached to it.
	Has(key flow.Identifier) bool

	// Keys returns a list of all keys in the mempool
	Keys() ([]flow.Identifier, bool)

	// Size returns number of IdMapEntities in mempool
	Size() uint
}

IdentifierMap represents a concurrency-safe memory pool for mapping an identifier to a list of identifiers

type IncorporatedResultSeals

type IncorporatedResultSeals interface {
	// Add adds an IncorporatedResultSeal to the mempool
	Add(irSeal *flow.IncorporatedResultSeal) (bool, error)

	// All returns all the IncorporatedResultSeals in the mempool
	All() []*flow.IncorporatedResultSeal

	// ByID returns an IncorporatedResultSeal by ID
	ByID(flow.Identifier) (*flow.IncorporatedResultSeal, bool)

	// Limit returns the size limit of the mempool
	Limit() uint

	// Remove removes an IncorporatedResultSeal from the mempool
	Remove(incorporatedResultID flow.Identifier) bool

	// Size returns the number of items in the mempool
	Size() uint

	// Clear removes all entities from the pool.
	Clear()

	// PruneUpToHeight remove all seals for blocks whose height is strictly
	// smaller that height. Note: seals for blocks at height are retained.
	// After pruning, seals below for blocks below the given height are dropped.
	//
	// Monotonicity Requirement:
	// The pruned height cannot decrease, as we cannot recover already pruned elements.
	// If `height` is smaller than the previous value, the previous value is kept
	// and the sentinel empool.NewDecreasingPruningHeightError is returned.
	PruneUpToHeight(height uint64) error
}

IncorporatedResultSeals represents a concurrency safe memory pool for incorporated result seals

type IpRecord

type IpRecord struct {
	Domain    string
	Addresses []net.IPAddr
	Timestamp int64

	// An IpRecord is locked when it is expired and a resolving is ongoing for it.
	// A locked IpRecord is unlocked by updating it through the cache.
	Locked bool
}

IpRecord represents the data model for maintaining an ip dns record in cache.

type OnEjection

type OnEjection func(flow.Entity)

OnEjection is a callback which a mempool executes on ejecting one of its elements. The callbacks are executed from within the thread that serves the mempool. Implementations should be non-blocking.

type PendingReceipts

type PendingReceipts interface {
	// Add a pending receipt
	// return true if added
	// return false if is a duplication
	Add(receipt *flow.ExecutionReceipt) bool

	// Remove a pending receipt by ID
	Remove(receiptID flow.Identifier) bool

	// ByPreviousResultID returns all the pending receipts whose previous result id
	// matches the given result id
	ByPreviousResultID(previousReusltID flow.Identifier) []*flow.ExecutionReceipt

	// PruneUpToHeight remove all receipts for blocks whose height is strictly
	// smaller that height. Note: receipts for blocks at height are retained.
	// After pruning, receipts below for blocks below the given height are dropped.
	//
	// Monotonicity Requirement:
	// The pruned height cannot decrease, as we cannot recover already pruned elements.
	// If `height` is smaller than the previous value, the previous value is kept
	// and the sentinel mempool.DecreasingPruningHeightError is returned.
	PruneUpToHeight(height uint64) error
}

PendingReceipts stores pending receipts indexed by the id. It also maintains a secondary index on the previous result id, which is unique, in order to allow to find a receipt by the previous result id.

type ReceiptFilter

type ReceiptFilter func(receipt *flow.ExecutionReceipt) bool

ReceiptFilter is used to drop specific receipts from. It does NOT affect the ExecutionTree's Execution Tree search.

type Results

type Results interface {

	// Has will check if the given result is in the memory pool.
	Has(resultID flow.Identifier) bool

	// Add will add the given execution result to the memory pool. It will return
	// false if it was already in the mempool.
	Add(result *flow.ExecutionResult) bool

	// Remove will attempt to remove the result from the memory pool.
	Remove(resultID flow.Identifier) bool

	// ByID retrieve the execution result with the given ID from the memory pool.
	// It will return false if it was not found in the mempool.
	ByID(resultID flow.Identifier) (*flow.ExecutionResult, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// All will return a list of all approvals in the memory pool.
	All() []*flow.ExecutionResult
}

Results represents a concurrency-safe memory pool for execution results.

type TransactionTimings

type TransactionTimings interface {

	// Add adds a transaction timing to the mempool.
	Add(tx *flow.TransactionTiming) bool

	// ByID returns the transaction timing with the given ID from the mempool.
	ByID(txID flow.Identifier) (*flow.TransactionTiming, bool)
	// Adjust will adjust the transaction timing using the given function if the given key can be found.
	// Returns a bool which indicates whether the value was updated as well as the updated value.
	Adjust(txID flow.Identifier, f func(*flow.TransactionTiming) *flow.TransactionTiming) (*flow.TransactionTiming,
		bool)

	// All returns all transaction timings from the mempool.
	All() []*flow.TransactionTiming

	// Remove removes the transaction timing with the given ID.
	Remove(txID flow.Identifier) bool
}

TransactionTimings represents a concurrency-safe memory pool for transaction timings.

type Transactions

type Transactions interface {

	// Has checks whether the transaction with the given hash is currently in
	// the memory pool.
	Has(txID flow.Identifier) bool

	// Add will add the given transaction body to the memory pool. It will
	// return false if it was already in the mempool.
	Add(tx *flow.TransactionBody) bool

	// Remove will remove the given transaction from the memory pool; it will
	// will return true if the transaction was known and removed.
	Remove(txID flow.Identifier) bool

	// ByID retrieve the transaction with the given ID from the memory
	// pool. It will return false if it was not found in the mempool.
	ByID(txID flow.Identifier) (*flow.TransactionBody, bool)

	// Size will return the current size of the memory pool.
	Size() uint

	// All will retrieve all transactions that are currently in the memory pool
	// as a slice.
	All() []*flow.TransactionBody

	// Clear removes all transactions from the mempool.
	Clear()
}

Transactions represents a concurrency-safe memory pool for transactions.

type TxtRecord

type TxtRecord struct {
	Txt       string
	Records   []string
	Timestamp int64

	// A TxtRecord is locked when it is expired and a resolving is ongoing for it.
	// A locked TxtRecord is unlocked by updating it through the cache.
	Locked bool
}

TxtRecord represents the data model for maintaining a txt dns record in cache.

type UnknownExecutionResultError

type UnknownExecutionResultError struct {
	// contains filtered or unexported fields
}

UnknownExecutionResultError indicates that the Execution Result is unknown

func (UnknownExecutionResultError) Error

func (UnknownExecutionResultError) Unwrap

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(c) 2019 Dapper Labs - ALL RIGHTS RESERVED
(c) 2019 Dapper Labs - ALL RIGHTS RESERVED

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