package watch import ( "context" "fmt" "io" "log" "reflect" "time" consulapi "github.com/hashicorp/consul/api" "github.com/hashicorp/go-hclog" ) const ( // retryInterval is the base retry value retryInterval = 5 * time.Second // maximum back off time, this is to prevent // exponential runaway maxBackoffTime = 180 * time.Second // Name used with hclog Logger. We do not add this to the logging package // because we do not want to pull in the root consul module. watchLoggerName = "watch" ) func (p *Plan) Run(address string) error { return p.RunWithConfig(address, nil) } // Run is used to run a watch plan func (p *Plan) RunWithConfig(address string, conf *consulapi.Config) error { logger := p.Logger if logger == nil { logger = newWatchLogger(p.LogOutput) } // Setup the client p.address = address if conf == nil { conf = consulapi.DefaultConfigWithLogger(logger) } conf.Address = address conf.Datacenter = p.Datacenter conf.Token = p.Token client, err := consulapi.NewClient(conf) if err != nil { return fmt.Errorf("Failed to connect to agent: %v", err) } return p.RunWithClientAndHclog(client, logger) } // RunWithClientAndLogger runs a watch plan using an external client and // hclog.Logger instance. Using this, the plan's Datacenter, Token and LogOutput // fields are ignored and the passed client is expected to be configured as // needed. func (p *Plan) RunWithClientAndHclog(client *consulapi.Client, logger hclog.Logger) error { var watchLogger hclog.Logger if logger == nil { watchLogger = newWatchLogger(nil) } else { watchLogger = logger.Named(watchLoggerName) } p.client = client // Loop until we are canceled failures := 0 OUTER: for !p.shouldStop() { // Invoke the handler blockParamVal, result, err := p.Watcher(p) // Check if we should terminate since the function // could have blocked for a while if p.shouldStop() { break } // Handle an error in the watch function if err != nil { // Perform an exponential backoff failures++ if blockParamVal == nil { p.lastParamVal = nil } else { p.lastParamVal = blockParamVal.Next(p.lastParamVal) } retry := retryInterval * time.Duration(failures*failures) if retry > maxBackoffTime { retry = maxBackoffTime } watchLogger.Error("Watch errored", "type", p.Type, "error", err, "retry", retry) select { case <-time.After(retry): continue OUTER case <-p.stopCh: return nil } } // Clear the failures failures = 0 // If the index is unchanged do nothing if p.lastParamVal != nil && p.lastParamVal.Equal(blockParamVal) { continue } // Update the index, look for change oldParamVal := p.lastParamVal p.lastParamVal = blockParamVal.Next(oldParamVal) if oldParamVal != nil && reflect.DeepEqual(p.lastResult, result) { continue } // Handle the updated result p.lastResult = result // If a hybrid handler exists use that if p.HybridHandler != nil { p.HybridHandler(blockParamVal, result) } else if p.Handler != nil { idx, ok := blockParamVal.(WaitIndexVal) if !ok { watchLogger.Error("Handler only supports index-based " + " watches but non index-based watch run. Skipping Handler.") } p.Handler(uint64(idx), result) } } return nil } //Deprecated: Use RunwithClientAndHclog func (p *Plan) RunWithClientAndLogger(client *consulapi.Client, logger *log.Logger) error { p.client = client // Loop until we are canceled failures := 0 OUTER: for !p.shouldStop() { // Invoke the handler blockParamVal, result, err := p.Watcher(p) // Check if we should terminate since the function // could have blocked for a while if p.shouldStop() { break } // Handle an error in the watch function if err != nil { // Perform an exponential backoff failures++ if blockParamVal == nil { p.lastParamVal = nil } else { p.lastParamVal = blockParamVal.Next(p.lastParamVal) } retry := retryInterval * time.Duration(failures*failures) if retry > maxBackoffTime { retry = maxBackoffTime } logger.Printf("[ERR] consul.watch: Watch (type: %s) errored: %v, retry in %v", p.Type, err, retry) select { case <-time.After(retry): continue OUTER case <-p.stopCh: return nil } } // Clear the failures failures = 0 // If the index is unchanged do nothing if p.lastParamVal != nil && p.lastParamVal.Equal(blockParamVal) { continue } // Update the index, look for change oldParamVal := p.lastParamVal p.lastParamVal = blockParamVal.Next(oldParamVal) if oldParamVal != nil && reflect.DeepEqual(p.lastResult, result) { continue } // Handle the updated result p.lastResult = result // If a hybrid handler exists use that if p.HybridHandler != nil { p.HybridHandler(blockParamVal, result) } else if p.Handler != nil { idx, ok := blockParamVal.(WaitIndexVal) if !ok { logger.Printf("[ERR] consul.watch: Handler only supports index-based " + " watches but non index-based watch run. Skipping Handler.") } p.Handler(uint64(idx), result) } } return nil } // Stop is used to stop running the watch plan func (p *Plan) Stop() { p.stopLock.Lock() defer p.stopLock.Unlock() if p.stop { return } p.stop = true if p.cancelFunc != nil { p.cancelFunc() } close(p.stopCh) } func (p *Plan) shouldStop() bool { select { case <-p.stopCh: return true default: return false } } func (p *Plan) setCancelFunc(cancel context.CancelFunc) { p.stopLock.Lock() defer p.stopLock.Unlock() if p.shouldStop() { // The watch is stopped and execute the new cancel func to stop watchFactory cancel() return } p.cancelFunc = cancel } func (p *Plan) IsStopped() bool { p.stopLock.Lock() defer p.stopLock.Unlock() return p.stop } func newWatchLogger(output io.Writer) hclog.Logger { return hclog.New(&hclog.LoggerOptions{ Name: watchLoggerName, Output: output, }) }