zolfa
/
tendermint

package client
import (	"context"	"errors"	"fmt"	"sync"	"time"
	"github.com/tendermint/tendermint/libs/log"	"github.com/tendermint/tendermint/types")
// Waiter is informed of current height, decided whether to quit early
type Waiter func(delta int64) (abort error)
// DefaultWaitStrategy is the standard backoff algorithm,
// but you can plug in another one
func DefaultWaitStrategy(delta int64) (abort error) {	if delta > 10 {		return fmt.Errorf("waiting for %d blocks... aborting", delta)	} else if delta > 0 {		// estimate of wait time....
		// wait half a second for the next block (in progress)
		// plus one second for every full block
		delay := time.Duration(delta-1)*time.Second + 500*time.Millisecond		time.Sleep(delay)	}	return nil}
// Wait for height will poll status at reasonable intervals until
// the block at the given height is available.
//
// If waiter is nil, we use DefaultWaitStrategy, but you can also
// provide your own implementation
func WaitForHeight(ctx context.Context, c StatusClient, h int64, waiter Waiter) error {	if waiter == nil {		waiter = DefaultWaitStrategy	}	delta := int64(1)	for delta > 0 {		s, err := c.Status(ctx)		if err != nil {			return err		}		delta = h - s.SyncInfo.LatestBlockHeight		// wait for the time, or abort early
		if err := waiter(delta); err != nil {			return err		}	}
	return nil}
// WaitForOneEvent subscribes to a websocket event for the given
// event time and returns upon receiving it one time, or
// when the timeout duration has expired.
//
// This handles subscribing and unsubscribing under the hood
func WaitForOneEvent(c EventsClient, eventValue string, timeout time.Duration) (types.TMEventData, error) {	const subscriber = "helpers"	ctx, cancel := context.WithTimeout(context.Background(), timeout)	defer cancel()
	// register for the next event of this type
	eventCh, err := c.Subscribe(ctx, subscriber, types.QueryForEvent(eventValue).String())	if err != nil {		return nil, fmt.Errorf("failed to subscribe: %w", err)	}
	// make sure to un-register after the test is over
	defer func() {		if deferErr := c.UnsubscribeAll(ctx, subscriber); deferErr != nil {			panic(err)		}	}()
	select {	case event := <-eventCh:		return event.Data, nil	case <-ctx.Done():		return nil, errors.New("timed out waiting for event")	}}
var (	// ErrClientRunning is returned by Start when the client is already running.
	ErrClientRunning = errors.New("client already running")
	// ErrClientNotRunning is returned by Stop when the client is not running.
	ErrClientNotRunning = errors.New("client is not running"))
// RunState is a helper that a client implementation can embed to implement
// common plumbing for keeping track of run state and logging.
//
// TODO(creachadair): This type is a temporary measure, and will be removed.
// See the discussion on #6971.
type RunState struct {	Logger log.Logger
	mu        sync.Mutex	name      string	isRunning bool}
// NewRunState returns a new unstarted run state tracker with the given logging
// label and log sink. If logger == nil, a no-op logger is provided by default.
func NewRunState(name string, logger log.Logger) *RunState {	if logger == nil {		logger = log.NewNopLogger()	}	return &RunState{		name:   name,		Logger: logger,	}}
// Start sets the state to running, or reports an error.
func (r *RunState) Start(context.Context) error {	r.mu.Lock()	defer r.mu.Unlock()	if r.isRunning {		r.Logger.Error("not starting client, it is already started", "client", r.name)		return ErrClientRunning	}	r.Logger.Info("starting client", "client", r.name)	r.isRunning = true	return nil}
// Stop sets the state to not running, or reports an error.
func (r *RunState) Stop() error {	r.mu.Lock()	defer r.mu.Unlock()	if !r.isRunning {		r.Logger.Error("not stopping client; it is already stopped", "client", r.name)		return ErrClientNotRunning	}	r.Logger.Info("stopping client", "client", r.name)	r.isRunning = false	return nil}
// IsRunning reports whether the state is running.
func (r *RunState) IsRunning() bool {	r.mu.Lock()	defer r.mu.Unlock()	return r.isRunning}