pkg/kafka/utils.go - voltha-lib-go - Gitiles

 /*
  * Copyright 2018-present Open Networking Foundation

  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at

  * http://www.apache.org/licenses/LICENSE-2.0

  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 package kafka

 import (
 	"context"
 	"errors"
 	"strings"
 	"time"

 	"github.com/golang/protobuf/ptypes/any"
 	"github.com/opencord/voltha-lib-go/v7/pkg/log"
 	"github.com/opencord/voltha-lib-go/v7/pkg/probe"
 )

 const (
 	TopicSeparator = "_"
 	DeviceIdLength = 24
 )

 // A Topic definition - may be augmented with additional attributes eventually
 type Topic struct {
 	// The name of the topic. It must start with a letter,
 	// and contain only letters (`[A-Za-z]`), numbers (`[0-9]`), dashes (`-`),
 	// underscores (`_`), periods (`.`), tildes (`~`), plus (`+`) or percent
 	// signs (`%`).
 	Name string
 }

 type KVArg struct {
 	Key   string
 	Value interface{}
 }

 type RpcMType int

 const (
 	RpcFormattingError RpcMType = iota
 	RpcSent
 	RpcReply
 	RpcTimeout
 	RpcTransportError
 	RpcSystemClosing
 )

 type RpcResponse struct {
 	MType RpcMType
 	Err   error
 	Reply *any.Any
 }

 func NewResponse(messageType RpcMType, err error, body *any.Any) *RpcResponse {
 	return &RpcResponse{
 		MType: messageType,
 		Err:   err,
 		Reply: body,
 	}
 }

 // TODO:  Remove and provide better may to get the device id
 // GetDeviceIdFromTopic extract the deviceId from the topic name.  The topic name is formatted either as:
 //			<any string> or <any string>_<deviceId>.  The device Id is 24 characters long.
 func GetDeviceIdFromTopic(topic Topic) string {
 	pos := strings.LastIndex(topic.Name, TopicSeparator)
 	if pos == -1 {
 		return ""
 	}
 	adjustedPos := pos + len(TopicSeparator)
 	if adjustedPos >= len(topic.Name) {
 		return ""
 	}
 	deviceId := topic.Name[adjustedPos:len(topic.Name)]
 	if len(deviceId) != DeviceIdLength {
 		return ""
 	}
 	return deviceId
 }

 // WaitUntilKafkaConnectionIsUp waits until the kafka client can establish a connection to the kafka broker or until the
 // context times out.
 func StartAndWaitUntilKafkaConnectionIsUp(ctx context.Context, kClient Client, connectionRetryInterval time.Duration, serviceName string) error {
 	if kClient == nil {
 		return errors.New("kafka-client-is-nil")
 	}
 	for {
 		if err := kClient.Start(ctx); err != nil {
 			probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusNotReady)
 			logger.Warnw(ctx, "kafka-connection-down", log.Fields{"error": err})
 			select {
 			case <-time.After(connectionRetryInterval):
 				continue
 			case <-ctx.Done():
 				return ctx.Err()
 			}
 		}
 		probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusRunning)
 		logger.Info(ctx, "kafka-connection-up")
 		break
 	}
 	return nil
 }

 /**
 MonitorKafkaReadiness checks the liveliness and readiness of the kafka service
 and update the status in the probe.
 */
 func MonitorKafkaReadiness(ctx context.Context,
 	kClient Client,
 	liveProbeInterval, notLiveProbeInterval time.Duration,
 	serviceName string) {

 	if kClient == nil {
 		logger.Fatal(ctx, "kafka-client-is-nil")
 	}

 	logger.Infow(ctx, "monitor-kafka-readiness", log.Fields{"service": serviceName})

 	livelinessChannel := kClient.EnableLivenessChannel(ctx, true)
 	healthinessChannel := kClient.EnableHealthinessChannel(ctx, true)
 	timeout := liveProbeInterval
 	failed := false
 	for {
 		timeoutTimer := time.NewTimer(timeout)

 		select {
 		case healthiness := <-healthinessChannel:
 			if !healthiness {
 				// This will eventually cause K8s to restart the container, and will do
 				// so in a way that allows cleanup to continue, rather than an immediate
 				// panic and exit here.
 				probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusFailed)
 				logger.Infow(ctx, "kafka-not-healthy", log.Fields{"service": serviceName})
 				failed = true
 			}
 			// Check if the timer has expired or not
 			if !timeoutTimer.Stop() {
 				<-timeoutTimer.C
 			}
 		case liveliness := <-livelinessChannel:
 			if failed {
 				// Failures of the message bus are permanent and can't ever be recovered from,
 				// so make sure we never inadvertently reset a failed state back to unready.
 			} else if !liveliness {
 				// kafka not reachable or down, updating the status to not ready state
 				probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusNotReady)
 				logger.Infow(ctx, "kafka-not-live", log.Fields{"service": serviceName})
 				timeout = notLiveProbeInterval
 			} else {
 				// kafka is reachable , updating the status to running state
 				probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusRunning)
 				timeout = liveProbeInterval
 			}
 			// Check if the timer has expired or not
 			if !timeoutTimer.Stop() {
 				<-timeoutTimer.C
 			}
 		case <-timeoutTimer.C:
 			logger.Infow(ctx, "kafka-proxy-liveness-recheck", log.Fields{"service": serviceName})
 			// send the liveness probe in a goroutine; we don't want to deadlock ourselves as
 			// the liveness probe may wait (and block) writing to our channel.
 			go func() {
 				err := kClient.SendLiveness(ctx)
 				if err != nil {
 					// Catch possible error case if sending liveness after Sarama has been stopped.
 					logger.Warnw(ctx, "error-kafka-send-liveness", log.Fields{"error": err, "service": serviceName})
 				}
 			}()
 		case <-ctx.Done():
 			return // just exit
 		}
 	}
 }
	/*
	* Copyright 2018-present Open Networking Foundation

	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at

	* http://www.apache.org/licenses/LICENSE-2.0

	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	package kafka

	import (
	"context"
	"errors"
	"strings"
	"time"

	"github.com/golang/protobuf/ptypes/any"
	"github.com/opencord/voltha-lib-go/v7/pkg/log"
	"github.com/opencord/voltha-lib-go/v7/pkg/probe"
	)

	const (
	TopicSeparator = "_"
	DeviceIdLength = 24
	)

	// A Topic definition - may be augmented with additional attributes eventually
	type Topic struct {
	// The name of the topic. It must start with a letter,
	// and contain only letters (`[A-Za-z]`), numbers (`[0-9]`), dashes (`-`),
	// underscores (`_`), periods (`.`), tildes (`~`), plus (`+`) or percent
	// signs (`%`).
	Name string
	}

	type KVArg struct {
	Key string
	Value interface{}
	}

	type RpcMType int

	const (
	RpcFormattingError RpcMType = iota
	RpcSent
	RpcReply
	RpcTimeout
	RpcTransportError
	RpcSystemClosing
	)

	type RpcResponse struct {
	MType RpcMType
	Err error
	Reply *any.Any
	}

	func NewResponse(messageType RpcMType, err error, body any.Any) RpcResponse {
	return &RpcResponse{
	MType: messageType,
	Err: err,
	Reply: body,
	}
	}

	// TODO: Remove and provide better may to get the device id
	// GetDeviceIdFromTopic extract the deviceId from the topic name. The topic name is formatted either as:
	// <any string> or <any string>_<deviceId>. The device Id is 24 characters long.
	func GetDeviceIdFromTopic(topic Topic) string {
	pos := strings.LastIndex(topic.Name, TopicSeparator)
	if pos == -1 {
	return ""
	}
	adjustedPos := pos + len(TopicSeparator)
	if adjustedPos >= len(topic.Name) {
	return ""
	}
	deviceId := topic.Name[adjustedPos:len(topic.Name)]
	if len(deviceId) != DeviceIdLength {
	return ""
	}
	return deviceId
	}

	// WaitUntilKafkaConnectionIsUp waits until the kafka client can establish a connection to the kafka broker or until the
	// context times out.
	func StartAndWaitUntilKafkaConnectionIsUp(ctx context.Context, kClient Client, connectionRetryInterval time.Duration, serviceName string) error {
	if kClient == nil {
	return errors.New("kafka-client-is-nil")
	}
	for {
	if err := kClient.Start(ctx); err != nil {
	probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusNotReady)
	logger.Warnw(ctx, "kafka-connection-down", log.Fields{"error": err})
	select {
	case <-time.After(connectionRetryInterval):
	continue
	case <-ctx.Done():
	return ctx.Err()
	}
	}
	probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusRunning)
	logger.Info(ctx, "kafka-connection-up")
	break
	}
	return nil
	}

	/**
	MonitorKafkaReadiness checks the liveliness and readiness of the kafka service
	and update the status in the probe.
	*/
	func MonitorKafkaReadiness(ctx context.Context,
	kClient Client,
	liveProbeInterval, notLiveProbeInterval time.Duration,
	serviceName string) {

	if kClient == nil {
	logger.Fatal(ctx, "kafka-client-is-nil")
	}

	logger.Infow(ctx, "monitor-kafka-readiness", log.Fields{"service": serviceName})

	livelinessChannel := kClient.EnableLivenessChannel(ctx, true)
	healthinessChannel := kClient.EnableHealthinessChannel(ctx, true)
	timeout := liveProbeInterval
	failed := false
	for {
	timeoutTimer := time.NewTimer(timeout)

	select {
	case healthiness := <-healthinessChannel:
	if !healthiness {
	// This will eventually cause K8s to restart the container, and will do
	// so in a way that allows cleanup to continue, rather than an immediate
	// panic and exit here.
	probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusFailed)
	logger.Infow(ctx, "kafka-not-healthy", log.Fields{"service": serviceName})
	failed = true
	}
	// Check if the timer has expired or not
	if !timeoutTimer.Stop() {
	<-timeoutTimer.C
	}
	case liveliness := <-livelinessChannel:
	if failed {
	// Failures of the message bus are permanent and can't ever be recovered from,
	// so make sure we never inadvertently reset a failed state back to unready.
	} else if !liveliness {
	// kafka not reachable or down, updating the status to not ready state
	probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusNotReady)
	logger.Infow(ctx, "kafka-not-live", log.Fields{"service": serviceName})
	timeout = notLiveProbeInterval
	} else {
	// kafka is reachable , updating the status to running state
	probe.UpdateStatusFromContext(ctx, serviceName, probe.ServiceStatusRunning)
	timeout = liveProbeInterval
	}
	// Check if the timer has expired or not
	if !timeoutTimer.Stop() {
	<-timeoutTimer.C
	}
	case <-timeoutTimer.C:
	logger.Infow(ctx, "kafka-proxy-liveness-recheck", log.Fields{"service": serviceName})
	// send the liveness probe in a goroutine; we don't want to deadlock ourselves as
	// the liveness probe may wait (and block) writing to our channel.
	go func() {
	err := kClient.SendLiveness(ctx)
	if err != nil {
	// Catch possible error case if sending liveness after Sarama has been stopped.
	logger.Warnw(ctx, "error-kafka-send-liveness", log.Fields{"error": err, "service": serviceName})
	}
	}()
	case <-ctx.Done():
	return // just exit
	}
	}
	}