Documentation ¶
Index ¶
Constants ¶
This section is empty.
Variables ¶
var ( // ErrQueryTimeout is an error returned if the worker doesn't respond // with a valid response to the request within the timeout. ErrQueryTimeout = errors.New("did not get response before timeout") // ErrPeerDisconnected is returned if the worker's peer disconnect // before the query has been answered. ErrPeerDisconnected = errors.New("peer disconnected") // ErrJobCanceled is returned if the job is canceled before the query // has been answered. ErrJobCanceled = errors.New("job canceled") )
var ( // ErrWorkManagerShuttingDown will be returned in case the WorkManager // is in the process of exiting. ErrWorkManagerShuttingDown = errors.New("WorkManager shutting down") )
Functions ¶
func DisableLog ¶
func DisableLog()
DisableLog disables all library log output. Logging output is disabled by default until either UseLogger or SetLogWriter are called.
Types ¶
type Config ¶
type Config struct { // ConnectedPeers is a function that returns a channel where all // connected peers will be sent. It is assumed that all current peers // will be sent imemdiately, and new peers as they connect. // // The returned function closure is called to cancel the subscription. ConnectedPeers func() (<-chan Peer, func(), error) // NewWorker is function closure that should start a new worker. We // make this configurable to easily mock the worker used during tests. NewWorker func(Peer) Worker // Ranking is used to rank the connected peers when determining who to // give work to. Ranking PeerRanking }
Config holds the configuration options for a new WorkManager.
type Dispatcher ¶
type Dispatcher interface { // Query distributes the slice of requests to the set of connected // peers. It returns an error channel where the final result of the // batch of queries will be sent. Responses for the individual queries // should be handled by the response handler of each Request. Query(reqs []*Request, options ...QueryOption) chan error }
Dispatcher is an interface defining the API for dispatching queries to bitcoin peers.
type Peer ¶
type Peer interface { // QueueMessageWithEncoding adds the passed bitcoin message to the peer // send queue. QueueMessageWithEncoding(msg wire.Message, doneChan chan<- struct{}, encoding wire.MessageEncoding) // SubscribeRecvMsg adds a OnRead subscription to the peer. All bitcoin // messages received from this peer will be sent on the returned // channel. A closure is also returned, that should be called to cancel // the subscription. SubscribeRecvMsg() (<-chan wire.Message, func()) // Addr returns the address of this peer. Addr() string // OnDisconnect returns a channel that will be closed when this peer is // disconnected. OnDisconnect() <-chan struct{} }
Peer is the interface that defines the methods needed by the query package to be able to make requests and receive responses from a network peer.
type PeerRanking ¶
type PeerRanking interface { // AddPeer adds a peer to the ranking. AddPeer(peer string) // Reward should be called when the peer has succeeded in a query, // increasing the likelihood that it will be picked for subsequent // queries. Reward(peer string) // Punish should be called when the peer has failed in a query, // decreasing the likelihood that it will be picked for subsequent // queries. Punish(peer string) // Order sorst the slice of peers according to their ranking. Order(peers []string) }
PeerRanking is an interface that must be satisfied by the underlying module that is used to determine which peers to prioritize querios on.
func NewPeerRanking ¶
func NewPeerRanking() PeerRanking
NewPeerRanking returns a new, empty ranking.
type Progress ¶
type Progress struct { // Finished is true if the query was finished as a result of the // received response. Finished bool // Progressed is true if the query made progress towards fully // answering the request as a result of the received response. This is // used for the requests types where more than one response is // expected. Progressed bool }
Progress encloses the result of handling a response for a given Request, determining whether the response did progress the query.
type QueryOption ¶
type QueryOption func(*queryOptions) // nolint
QueryOption is a functional option argument to any of the network query methods, such as GetBlock and GetCFilter (when that resorts to a network query). These are always processed in order, with later options overriding earlier ones.
func Cancel ¶
func Cancel(cancel chan struct{}) QueryOption
Cancel takes a channel that can be closed to indicate that the query should be canceled.
func Encoding ¶
func Encoding(encoding wire.MessageEncoding) QueryOption
Encoding is a query option that allows the caller to set a message encoding for the query messages.
func NoRetryMax ¶ added in v0.16.0
func NoRetryMax() QueryOption
NoRetryMax is a query option that can be used to disable the cap on the number of retries. If this is set then NumRetries has no effect.
func NumRetries ¶ added in v0.16.0
func NumRetries(num uint8) QueryOption
NumRetries is a query option that specifies the number of times a query should be retried.
func Timeout ¶
func Timeout(timeout time.Duration) QueryOption
Timeout is a query option that specifies the total time a query is allowed to be tried before it is failed.
type Request ¶
type Request struct { // Req is the message request to send. Req wire.Message // HandleResp is a response handler that will be called for every // message received from the peer that the request was made to. It // should validate the response against the request made, and return a // Progress indicating whether the request was answered by this // particular response. // // NOTE: Since the worker's job queue will be stalled while this method // is running, it should not be doing any expensive operations. It // should validate the response and immediately return the progress. // The response should be handed off to another goroutine for // processing. HandleResp func(req, resp wire.Message, peer string) Progress }
Request is the main struct that defines a bitcoin network query to be sent to connected peers.
type Task ¶
type Task interface { // Index returns this Task's index in the work queue. Index() uint64 }
Task is an interface that has a method for returning their index in the work queue.
type WorkManager ¶
type WorkManager interface { Dispatcher // Start sets up any resources that the WorkManager requires. It must // be called before any of the Dispatcher calls can be made. Start() error // Stop cleans up the resources held by the WorkManager. Stop() error }
WorkManager defines an API for a manager that dispatches queries to bitcoin peers that must be started and stopped in order to perform these queries.
func NewWorkManager ¶ added in v0.16.0
func NewWorkManager(cfg *Config) WorkManager
NewWorkManager returns a new WorkManager with the regular worker implementation.
type Worker ¶
type Worker interface { // Run starts the worker. The worker will supply its peer with queries, // and handle responses from it. Results for any query handled by this // worker will be delivered on the results channel. quit can be closed // to immediately make the worker exit. // // The method is blocking, and should be started in a goroutine. It // will run until the peer disconnects or the worker is told to quit. Run(results chan<- *jobResult, quit <-chan struct{}) // NewJob returns a channel where work that is to be handled by the // worker can be sent. If the worker reads a queryJob from this // channel, it is guaranteed that a response will eventually be // delivered on the results channel (except when the quit channel has // been closed). NewJob() chan<- *queryJob }
Worker is the interface that must be satisfied by workers managed by the WorkManager.