tests/kafka/kafka_inter_container_messaging_test.go - voltha-go - Gitiles

 // +build integration

 /*
  * 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"
 	"github.com/golang/protobuf/ptypes"
 	"github.com/google/uuid"
 	rhp "github.com/opencord/voltha-go/rw_core/core"
 	kk "github.com/opencord/voltha-lib-go/v3/pkg/kafka"
 	"github.com/opencord/voltha-lib-go/v3/pkg/log"
 	ic "github.com/opencord/voltha-protos/v3/go/inter_container"
 	"github.com/opencord/voltha-protos/v3/go/voltha"
 	"github.com/stretchr/testify/assert"
 	"os"
 	"testing"
 	"time"
 )

 /*
 Prerequite:  Start the kafka/zookeeper containers.
 */

 const (
 	TEST_RPC_KEY = ""
 )

 var coreKafkaProxy *kk.InterContainerProxy
 var adapterKafkaProxy *kk.InterContainerProxy
 var kafkaPartitionClient kk.Client
 var affinityRouterTopic string
 var hostIP string
 var kafkaClient kk.Client

 func init() {
 	log.AddPackage(log.JSON, log.ErrorLevel, nil)
 	log.UpdateAllLoggers(log.Fields{"instanceId": "testing"})
 	log.SetAllLogLevel(log.ErrorLevel)
 	affinityRouterTopic = "AffinityRouter"
 	hostIP = os.Getenv("DOCKER_HOST_IP")
 	kafkaClient = kk.NewSaramaClient(
 		kk.Host(hostIP),
 		kk.Port(9092))

 	coreKafkaProxy = kk.NewInterContainerProxy(
 		kk.InterContainerHost(hostIP),
 		kk.InterContainerPort(9092),
 		kk.DefaultTopic(&kk.Topic{Name: "Core"}),
 		kk.MsgClient(kafkaClient),
 		kk.DeviceDiscoveryTopic(&kk.Topic{Name: affinityRouterTopic}))

 	adapterKafkaProxy = kk.NewInterContainerProxy(
 		kk.InterContainerHost(hostIP),
 		kk.InterContainerPort(9092),
 		kk.DefaultTopic(&kk.Topic{Name: "Adapter"}),
 		kk.MsgClient(kafkaClient))

 	kafkaPartitionClient = kk.NewSaramaClient(
 		kk.ConsumerType(kk.PartitionConsumer),
 		kk.Host(hostIP),
 		kk.Port(9092),
 		kk.AutoCreateTopic(true),
 		kk.ProducerFlushFrequency(5))
 	kafkaPartitionClient.Start()

 	coreKafkaProxy.Start()
 	adapterKafkaProxy.Start()
 	subscribeTarget(coreKafkaProxy)
 }

 func subscribeTarget(kmp *kk.InterContainerProxy) {
 	topic := kk.Topic{Name: "Core"}
 	requestProxy := &rhp.AdapterRequestHandlerProxy{TestMode: true}
 	kmp.SubscribeWithRequestHandlerInterface(topic, requestProxy)
 }

 func waitForRPCMessage(topic kk.Topic, ch <-chan *ic.InterContainerMessage, doneCh chan string) {
 	for msg := range ch {
 		log.Debugw("Got-RPC-message", log.Fields{"msg": msg})
 		//	Unpack message
 		requestBody := &ic.InterContainerRequestBody{}
 		if err := ptypes.UnmarshalAny(msg.Body, requestBody); err != nil {
 			doneCh <- "Error"
 		} else {
 			doneCh <- requestBody.Rpc
 		}
 		break
 	}
 }

 //func TestSubscribeUnsubscribe(t *testing.T) {
 //	// First subscribe to the specific topic
 //	topic := kk.Topic{Name: "Core"}
 //	ch, err := coreKafkaProxy.Subs(topic)
 //	assert.NotNil(t, ch)
 //	assert.Nil(t, err)
 //	// Create a channel to receive a response
 //	waitCh := make(chan string)
 //	// Wait for a message
 //	go waitForRPCMessage(topic, ch, waitCh)
 //	// Send the message - don't care of the response
 //	rpc := "AnyRPCRequestForTest"
 //	adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, true)
 //	// Wait for the result on ouw own channel
 //	result := <-waitCh
 //	assert.Equal(t, result, rpc)
 //	close(waitCh)
 //	err = coreKafkaProxy.UnSubscribe(topic, ch)
 //	assert.Nil(t, err)
 //}
 //
 //func TestMultipleSubscribeUnsubscribe(t *testing.T) {
 //	// First subscribe to the specific topic
 //	//log.SetPackageLogLevel("github.com/opencord/voltha-lib-go/v3/pkg/kafka", log.DebugLevel)
 //	var err error
 //	var ch1 <-chan *ic.InterContainerMessage
 //	var ch2 <-chan *ic.InterContainerMessage
 //	topic := kk.Topic{Name: "Core"}
 //	ch1, err = coreKafkaProxy.Subscribe(topic)
 //	assert.NotNil(t, ch1)
 //	assert.Nil(t, err)
 //	// Create a channel to receive responses
 //	waitCh := make(chan string)
 //	ch2, err = coreKafkaProxy.Subscribe(topic)
 //	assert.NotNil(t, ch2)
 //	assert.Nil(t, err)
 //	// Wait for a message
 //	go waitForRPCMessage(topic, ch2, waitCh)
 //	go waitForRPCMessage(topic, ch1, waitCh)
 //
 //	// Send the message - don't care of the response
 //	rpc := "AnyRPCRequestForTest"
 //	adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, true)
 //	// Wait for the result on ouw own channel
 //
 //	responses := 0
 //	for msg := range waitCh {
 //		assert.Equal(t, msg, rpc)
 //		responses = responses + 1
 //		if responses > 1 {
 //			break
 //		}
 //	}
 //	assert.Equal(t, responses, 2)
 //	close(waitCh)
 //	err = coreKafkaProxy.UnSubscribe(topic, ch1)
 //	assert.Nil(t, err)
 //	err = coreKafkaProxy.UnSubscribe(topic, ch2)
 //	assert.Nil(t, err)
 //}

 func TestIncorrectAPI(t *testing.T) {
 	log.SetPackageLogLevel("github.com/opencord/voltha-lib-go/v3/pkg/kafka", log.ErrorLevel)
 	trnsId := uuid.New().String()
 	protoMsg := &voltha.Device{Id: trnsId}
 	args := make([]*kk.KVArg, 1)
 	args[0] = &kk.KVArg{
 		Key:   "device",
 		Value: protoMsg,
 	}
 	rpc := "IncorrectAPI"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, false)
 	//Unpack the result into the actual proto object
 	unpackResult := &ic.Error{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.NotNil(t, unpackResult)
 }

 func TestIncorrectAPIParams(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoMsg := &voltha.Device{Id: trnsId}
 	args := make([]*kk.KVArg, 1)
 	args[0] = &kk.KVArg{
 		Key:   "device",
 		Value: protoMsg,
 	}
 	rpc := "GetDevice"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, false)
 	//Unpack the result into the actual proto object
 	unpackResult := &ic.Error{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.NotNil(t, unpackResult)
 }

 func TestGetDevice(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoMsg := &voltha.ID{Id: trnsId}
 	args := make([]*kk.KVArg, 1)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoMsg,
 	}
 	rpc := "GetDevice"
 	topic := kk.Topic{Name: "Core"}
 	expectedResponse := &voltha.Device{Id: trnsId}
 	timeout := time.Duration(50) * time.Millisecond
 	ctx, cancel := context.WithTimeout(context.Background(), timeout)
 	defer cancel()
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(ctx, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, true)
 	unpackResult := &voltha.Device{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.Equal(t, unpackResult, expectedResponse)
 }

 func TestGetDeviceTimeout(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoMsg := &voltha.ID{Id: trnsId}
 	args := make([]*kk.KVArg, 1)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoMsg,
 	}
 	rpc := "GetDevice"
 	topic := kk.Topic{Name: "Core"}
 	timeout := time.Duration(2) * time.Millisecond
 	ctx, cancel := context.WithTimeout(context.Background(), timeout)
 	defer cancel()
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(ctx, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, false)
 	unpackResult := &ic.Error{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.NotNil(t, unpackResult)
 }

 func TestGetChildDevice(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoMsg := &voltha.ID{Id: trnsId}
 	args := make([]*kk.KVArg, 1)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoMsg,
 	}
 	rpc := "GetChildDevice"
 	topic := kk.Topic{Name: "Core"}
 	expectedResponse := &voltha.Device{Id: trnsId}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, true)
 	unpackResult := &voltha.Device{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.Equal(t, unpackResult, expectedResponse)
 }

 func TestGetChildDevices(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoMsg := &voltha.ID{Id: trnsId}
 	args := make([]*kk.KVArg, 1)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoMsg,
 	}
 	rpc := "GetChildDevices"
 	topic := kk.Topic{Name: "Core"}
 	expectedResponse := &voltha.Device{Id: trnsId}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, true)
 	unpackResult := &voltha.Device{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.Equal(t, unpackResult, expectedResponse)
 }

 func TestGetPorts(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoArg1 := &voltha.ID{Id: trnsId}
 	args := make([]*kk.KVArg, 2)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoArg1,
 	}
 	protoArg2 := &ic.IntType{Val: 1}
 	args[1] = &kk.KVArg{
 		Key:   "portType",
 		Value: protoArg2,
 	}
 	rpc := "GetPorts"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, true)
 	unpackResult := &voltha.Ports{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	expectedLen := len(unpackResult.Items) >= 1
 	assert.Equal(t, true, expectedLen)
 }

 func TestGetPortsMissingArgs(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoArg1 := &voltha.ID{Id: trnsId}
 	args := make([]*kk.KVArg, 1)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoArg1,
 	}
 	rpc := "GetPorts"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, false)
 	//Unpack the result into the actual proto object
 	unpackResult := &ic.Error{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.NotNil(t, unpackResult)
 }

 func TestChildDeviceDetected(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoArg1 := &ic.StrType{Val: trnsId}
 	args := make([]*kk.KVArg, 5)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoArg1,
 	}
 	protoArg2 := &ic.IntType{Val: 1}
 	args[1] = &kk.KVArg{
 		Key:   "parentPortNo",
 		Value: protoArg2,
 	}
 	protoArg3 := &ic.StrType{Val: "great_onu"}
 	args[2] = &kk.KVArg{
 		Key:   "childDeviceType",
 		Value: protoArg3,
 	}
 	protoArg4 := &voltha.Device_ProxyAddress{DeviceId: trnsId, ChannelId: 100}
 	args[3] = &kk.KVArg{
 		Key:   "proxyAddress",
 		Value: protoArg4,
 	}
 	protoArg5 := &ic.IntType{Val: 1}
 	args[4] = &kk.KVArg{
 		Key:   "portType",
 		Value: protoArg5,
 	}

 	rpc := "ChildDeviceDetected"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, true)
 	assert.Nil(t, result)
 }

 func TestChildDeviceDetectedNoWait(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoArg1 := &ic.StrType{Val: trnsId}
 	args := make([]*kk.KVArg, 5)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoArg1,
 	}
 	protoArg2 := &ic.IntType{Val: 1}
 	args[1] = &kk.KVArg{
 		Key:   "parentPortNo",
 		Value: protoArg2,
 	}
 	protoArg3 := &ic.StrType{Val: "great_onu"}
 	args[2] = &kk.KVArg{
 		Key:   "childDeviceType",
 		Value: protoArg3,
 	}
 	protoArg4 := &voltha.Device_ProxyAddress{DeviceId: trnsId, ChannelId: 100}
 	args[3] = &kk.KVArg{
 		Key:   "proxyAddress",
 		Value: protoArg4,
 	}
 	protoArg5 := &ic.IntType{Val: 1}
 	args[4] = &kk.KVArg{
 		Key:   "portType",
 		Value: protoArg5,
 	}

 	rpc := "ChildDeviceDetected"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, false, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, true)
 	assert.Nil(t, result)
 }

 func TestChildDeviceDetectedMissingArgs(t *testing.T) {
 	trnsId := uuid.New().String()
 	protoArg1 := &ic.StrType{Val: trnsId}
 	args := make([]*kk.KVArg, 4)
 	args[0] = &kk.KVArg{
 		Key:   "deviceID",
 		Value: protoArg1,
 	}
 	protoArg2 := &ic.IntType{Val: 1}
 	args[1] = &kk.KVArg{
 		Key:   "parentPortNo",
 		Value: protoArg2,
 	}
 	protoArg3 := &ic.StrType{Val: "great_onu"}
 	args[2] = &kk.KVArg{
 		Key:   "childDeviceType",
 		Value: protoArg3,
 	}

 	rpc := "ChildDeviceDetected"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, false)
 	unpackResult := &ic.Error{}
 	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
 		log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
 	}
 	assert.NotNil(t, unpackResult)
 }

 func TestDeviceStateChange(t *testing.T) {
 	log.SetAllLogLevel(log.DebugLevel)
 	trnsId := uuid.New().String()
 	protoArg1 := &voltha.ID{Id: trnsId}
 	args := make([]*kk.KVArg, 4)
 	args[0] = &kk.KVArg{
 		Key:   "device_id",
 		Value: protoArg1,
 	}
 	protoArg2 := &ic.IntType{Val: 1}
 	args[1] = &kk.KVArg{
 		Key:   "oper_status",
 		Value: protoArg2,
 	}
 	protoArg3 := &ic.IntType{Val: 1}
 	args[2] = &kk.KVArg{
 		Key:   "connect_status",
 		Value: protoArg3,
 	}

 	rpc := "DeviceStateUpdate"
 	topic := kk.Topic{Name: "Core"}
 	start := time.Now()
 	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
 	elapsed := time.Since(start)
 	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
 	assert.Equal(t, status, true)
 	assert.Nil(t, result)
 }

 func subscribeToTopic(topic *kk.Topic, waitingChannel chan *ic.InterContainerMessage) error {
 	var ch <-chan *ic.InterContainerMessage
 	var err error
 	if ch, err = kafkaPartitionClient.Subscribe(topic); err != nil {
 		return nil
 	}
 	msg := <-ch

 	log.Debugw("msg-received", log.Fields{"msg": msg})
 	waitingChannel <- msg
 	return nil
 }

 func TestDeviceDiscovery(t *testing.T) {
 	// Create an intercontainer proxy - similar to the Core
 	testProxy := kk.NewInterContainerProxy(
 		kk.InterContainerHost(hostIP),
 		kk.InterContainerPort(9092),
 		kk.DefaultTopic(&kk.Topic{Name: "Test"}),
 		kk.MsgClient(kafkaClient),
 		kk.DeviceDiscoveryTopic(&kk.Topic{Name: affinityRouterTopic}))

 	//	First start to wait for the message
 	waitingChannel := make(chan *ic.InterContainerMessage)
 	go subscribeToTopic(&kk.Topic{Name: affinityRouterTopic}, waitingChannel)

 	// Sleep to make sure the consumer is ready
 	time.Sleep(time.Millisecond * 100)

 	// Send the message
 	go testProxy.DeviceDiscovered("TestDeviceId", "TestDevicetype", "TestParentId", "myPODName")

 	msg := <-waitingChannel
 	totalTime := (time.Now().UnixNano() - msg.Header.Timestamp) / int64(time.Millisecond)
 	assert.Equal(t, msg.Header.Type, ic.MessageType_DEVICE_DISCOVERED)
 	//	Unpack message
 	dd := &ic.DeviceDiscovered{}
 	err := ptypes.UnmarshalAny(msg.Body, dd)
 	assert.Nil(t, err)
 	assert.Equal(t, dd.Id, "TestDeviceId")
 	assert.Equal(t, dd.DeviceType, "TestDevicetype")
 	assert.Equal(t, dd.ParentId, "TestParentId")
 	assert.Equal(t, dd.Publisher, "myPODName")
 	log.Debugw("TotalTime", log.Fields{"time": totalTime})
 }

 func TestStopKafkaProxy(t *testing.T) {
 	adapterKafkaProxy.Stop()
 	coreKafkaProxy.Stop()
 }

 //func TestMain(m *testing.T) {
 //	log.Info("Main")
 //}
	// +build integration

	/*
	* 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"
	"github.com/golang/protobuf/ptypes"
	"github.com/google/uuid"
	rhp "github.com/opencord/voltha-go/rw_core/core"
	kk "github.com/opencord/voltha-lib-go/v3/pkg/kafka"
	"github.com/opencord/voltha-lib-go/v3/pkg/log"
	ic "github.com/opencord/voltha-protos/v3/go/inter_container"
	"github.com/opencord/voltha-protos/v3/go/voltha"
	"github.com/stretchr/testify/assert"
	"os"
	"testing"
	"time"
	)

	/*
	Prerequite: Start the kafka/zookeeper containers.
	*/

	const (
	TEST_RPC_KEY = ""
	)

	var coreKafkaProxy *kk.InterContainerProxy
	var adapterKafkaProxy *kk.InterContainerProxy
	var kafkaPartitionClient kk.Client
	var affinityRouterTopic string
	var hostIP string
	var kafkaClient kk.Client

	func init() {
	log.AddPackage(log.JSON, log.ErrorLevel, nil)
	log.UpdateAllLoggers(log.Fields{"instanceId": "testing"})
	log.SetAllLogLevel(log.ErrorLevel)
	affinityRouterTopic = "AffinityRouter"
	hostIP = os.Getenv("DOCKER_HOST_IP")
	kafkaClient = kk.NewSaramaClient(
	kk.Host(hostIP),
	kk.Port(9092))

	coreKafkaProxy = kk.NewInterContainerProxy(
	kk.InterContainerHost(hostIP),
	kk.InterContainerPort(9092),
	kk.DefaultTopic(&kk.Topic{Name: "Core"}),
	kk.MsgClient(kafkaClient),
	kk.DeviceDiscoveryTopic(&kk.Topic{Name: affinityRouterTopic}))

	adapterKafkaProxy = kk.NewInterContainerProxy(
	kk.InterContainerHost(hostIP),
	kk.InterContainerPort(9092),
	kk.DefaultTopic(&kk.Topic{Name: "Adapter"}),
	kk.MsgClient(kafkaClient))

	kafkaPartitionClient = kk.NewSaramaClient(
	kk.ConsumerType(kk.PartitionConsumer),
	kk.Host(hostIP),
	kk.Port(9092),
	kk.AutoCreateTopic(true),
	kk.ProducerFlushFrequency(5))
	kafkaPartitionClient.Start()

	coreKafkaProxy.Start()
	adapterKafkaProxy.Start()
	subscribeTarget(coreKafkaProxy)
	}

	func subscribeTarget(kmp *kk.InterContainerProxy) {
	topic := kk.Topic{Name: "Core"}
	requestProxy := &rhp.AdapterRequestHandlerProxy{TestMode: true}
	kmp.SubscribeWithRequestHandlerInterface(topic, requestProxy)
	}

	func waitForRPCMessage(topic kk.Topic, ch <-chan *ic.InterContainerMessage, doneCh chan string) {
	for msg := range ch {
	log.Debugw("Got-RPC-message", log.Fields{"msg": msg})
	// Unpack message
	requestBody := &ic.InterContainerRequestBody{}
	if err := ptypes.UnmarshalAny(msg.Body, requestBody); err != nil {
	doneCh <- "Error"
	} else {
	doneCh <- requestBody.Rpc
	}
	break
	}
	}

	//func TestSubscribeUnsubscribe(t *testing.T) {
	// // First subscribe to the specific topic
	// topic := kk.Topic{Name: "Core"}
	// ch, err := coreKafkaProxy.Subs(topic)
	// assert.NotNil(t, ch)
	// assert.Nil(t, err)
	// // Create a channel to receive a response
	// waitCh := make(chan string)
	// // Wait for a message
	// go waitForRPCMessage(topic, ch, waitCh)
	// // Send the message - don't care of the response
	// rpc := "AnyRPCRequestForTest"
	// adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, true)
	// // Wait for the result on ouw own channel
	// result := <-waitCh
	// assert.Equal(t, result, rpc)
	// close(waitCh)
	// err = coreKafkaProxy.UnSubscribe(topic, ch)
	// assert.Nil(t, err)
	//}
	//
	//func TestMultipleSubscribeUnsubscribe(t *testing.T) {
	// // First subscribe to the specific topic
	// //log.SetPackageLogLevel("github.com/opencord/voltha-lib-go/v3/pkg/kafka", log.DebugLevel)
	// var err error
	// var ch1 <-chan *ic.InterContainerMessage
	// var ch2 <-chan *ic.InterContainerMessage
	// topic := kk.Topic{Name: "Core"}
	// ch1, err = coreKafkaProxy.Subscribe(topic)
	// assert.NotNil(t, ch1)
	// assert.Nil(t, err)
	// // Create a channel to receive responses
	// waitCh := make(chan string)
	// ch2, err = coreKafkaProxy.Subscribe(topic)
	// assert.NotNil(t, ch2)
	// assert.Nil(t, err)
	// // Wait for a message
	// go waitForRPCMessage(topic, ch2, waitCh)
	// go waitForRPCMessage(topic, ch1, waitCh)
	//
	// // Send the message - don't care of the response
	// rpc := "AnyRPCRequestForTest"
	// adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, true)
	// // Wait for the result on ouw own channel
	//
	// responses := 0
	// for msg := range waitCh {
	// assert.Equal(t, msg, rpc)
	// responses = responses + 1
	// if responses > 1 {
	// break
	// }
	// }
	// assert.Equal(t, responses, 2)
	// close(waitCh)
	// err = coreKafkaProxy.UnSubscribe(topic, ch1)
	// assert.Nil(t, err)
	// err = coreKafkaProxy.UnSubscribe(topic, ch2)
	// assert.Nil(t, err)
	//}

	func TestIncorrectAPI(t *testing.T) {
	log.SetPackageLogLevel("github.com/opencord/voltha-lib-go/v3/pkg/kafka", log.ErrorLevel)
	trnsId := uuid.New().String()
	protoMsg := &voltha.Device{Id: trnsId}
	args := make([]*kk.KVArg, 1)
	args[0] = &kk.KVArg{
	Key: "device",
	Value: protoMsg,
	}
	rpc := "IncorrectAPI"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, false)
	//Unpack the result into the actual proto object
	unpackResult := &ic.Error{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.NotNil(t, unpackResult)
	}

	func TestIncorrectAPIParams(t *testing.T) {
	trnsId := uuid.New().String()
	protoMsg := &voltha.Device{Id: trnsId}
	args := make([]*kk.KVArg, 1)
	args[0] = &kk.KVArg{
	Key: "device",
	Value: protoMsg,
	}
	rpc := "GetDevice"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, false)
	//Unpack the result into the actual proto object
	unpackResult := &ic.Error{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.NotNil(t, unpackResult)
	}

	func TestGetDevice(t *testing.T) {
	trnsId := uuid.New().String()
	protoMsg := &voltha.ID{Id: trnsId}
	args := make([]*kk.KVArg, 1)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoMsg,
	}
	rpc := "GetDevice"
	topic := kk.Topic{Name: "Core"}
	expectedResponse := &voltha.Device{Id: trnsId}
	timeout := time.Duration(50) * time.Millisecond
	ctx, cancel := context.WithTimeout(context.Background(), timeout)
	defer cancel()
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(ctx, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, true)
	unpackResult := &voltha.Device{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.Equal(t, unpackResult, expectedResponse)
	}

	func TestGetDeviceTimeout(t *testing.T) {
	trnsId := uuid.New().String()
	protoMsg := &voltha.ID{Id: trnsId}
	args := make([]*kk.KVArg, 1)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoMsg,
	}
	rpc := "GetDevice"
	topic := kk.Topic{Name: "Core"}
	timeout := time.Duration(2) * time.Millisecond
	ctx, cancel := context.WithTimeout(context.Background(), timeout)
	defer cancel()
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(ctx, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, false)
	unpackResult := &ic.Error{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.NotNil(t, unpackResult)
	}

	func TestGetChildDevice(t *testing.T) {
	trnsId := uuid.New().String()
	protoMsg := &voltha.ID{Id: trnsId}
	args := make([]*kk.KVArg, 1)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoMsg,
	}
	rpc := "GetChildDevice"
	topic := kk.Topic{Name: "Core"}
	expectedResponse := &voltha.Device{Id: trnsId}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, true)
	unpackResult := &voltha.Device{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.Equal(t, unpackResult, expectedResponse)
	}

	func TestGetChildDevices(t *testing.T) {
	trnsId := uuid.New().String()
	protoMsg := &voltha.ID{Id: trnsId}
	args := make([]*kk.KVArg, 1)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoMsg,
	}
	rpc := "GetChildDevices"
	topic := kk.Topic{Name: "Core"}
	expectedResponse := &voltha.Device{Id: trnsId}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, true)
	unpackResult := &voltha.Device{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.Equal(t, unpackResult, expectedResponse)
	}

	func TestGetPorts(t *testing.T) {
	trnsId := uuid.New().String()
	protoArg1 := &voltha.ID{Id: trnsId}
	args := make([]*kk.KVArg, 2)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoArg1,
	}
	protoArg2 := &ic.IntType{Val: 1}
	args[1] = &kk.KVArg{
	Key: "portType",
	Value: protoArg2,
	}
	rpc := "GetPorts"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, true)
	unpackResult := &voltha.Ports{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	expectedLen := len(unpackResult.Items) >= 1
	assert.Equal(t, true, expectedLen)
	}

	func TestGetPortsMissingArgs(t *testing.T) {
	trnsId := uuid.New().String()
	protoArg1 := &voltha.ID{Id: trnsId}
	args := make([]*kk.KVArg, 1)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoArg1,
	}
	rpc := "GetPorts"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, false)
	//Unpack the result into the actual proto object
	unpackResult := &ic.Error{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.NotNil(t, unpackResult)
	}

	func TestChildDeviceDetected(t *testing.T) {
	trnsId := uuid.New().String()
	protoArg1 := &ic.StrType{Val: trnsId}
	args := make([]*kk.KVArg, 5)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoArg1,
	}
	protoArg2 := &ic.IntType{Val: 1}
	args[1] = &kk.KVArg{
	Key: "parentPortNo",
	Value: protoArg2,
	}
	protoArg3 := &ic.StrType{Val: "great_onu"}
	args[2] = &kk.KVArg{
	Key: "childDeviceType",
	Value: protoArg3,
	}
	protoArg4 := &voltha.Device_ProxyAddress{DeviceId: trnsId, ChannelId: 100}
	args[3] = &kk.KVArg{
	Key: "proxyAddress",
	Value: protoArg4,
	}
	protoArg5 := &ic.IntType{Val: 1}
	args[4] = &kk.KVArg{
	Key: "portType",
	Value: protoArg5,
	}

	rpc := "ChildDeviceDetected"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, true)
	assert.Nil(t, result)
	}

	func TestChildDeviceDetectedNoWait(t *testing.T) {
	trnsId := uuid.New().String()
	protoArg1 := &ic.StrType{Val: trnsId}
	args := make([]*kk.KVArg, 5)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoArg1,
	}
	protoArg2 := &ic.IntType{Val: 1}
	args[1] = &kk.KVArg{
	Key: "parentPortNo",
	Value: protoArg2,
	}
	protoArg3 := &ic.StrType{Val: "great_onu"}
	args[2] = &kk.KVArg{
	Key: "childDeviceType",
	Value: protoArg3,
	}
	protoArg4 := &voltha.Device_ProxyAddress{DeviceId: trnsId, ChannelId: 100}
	args[3] = &kk.KVArg{
	Key: "proxyAddress",
	Value: protoArg4,
	}
	protoArg5 := &ic.IntType{Val: 1}
	args[4] = &kk.KVArg{
	Key: "portType",
	Value: protoArg5,
	}

	rpc := "ChildDeviceDetected"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, false, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, true)
	assert.Nil(t, result)
	}

	func TestChildDeviceDetectedMissingArgs(t *testing.T) {
	trnsId := uuid.New().String()
	protoArg1 := &ic.StrType{Val: trnsId}
	args := make([]*kk.KVArg, 4)
	args[0] = &kk.KVArg{
	Key: "deviceID",
	Value: protoArg1,
	}
	protoArg2 := &ic.IntType{Val: 1}
	args[1] = &kk.KVArg{
	Key: "parentPortNo",
	Value: protoArg2,
	}
	protoArg3 := &ic.StrType{Val: "great_onu"}
	args[2] = &kk.KVArg{
	Key: "childDeviceType",
	Value: protoArg3,
	}

	rpc := "ChildDeviceDetected"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, false)
	unpackResult := &ic.Error{}
	if err := ptypes.UnmarshalAny(result, unpackResult); err != nil {
	log.Warnw("cannot-unmarshal-response", log.Fields{"error": err})
	}
	assert.NotNil(t, unpackResult)
	}

	func TestDeviceStateChange(t *testing.T) {
	log.SetAllLogLevel(log.DebugLevel)
	trnsId := uuid.New().String()
	protoArg1 := &voltha.ID{Id: trnsId}
	args := make([]*kk.KVArg, 4)
	args[0] = &kk.KVArg{
	Key: "device_id",
	Value: protoArg1,
	}
	protoArg2 := &ic.IntType{Val: 1}
	args[1] = &kk.KVArg{
	Key: "oper_status",
	Value: protoArg2,
	}
	protoArg3 := &ic.IntType{Val: 1}
	args[2] = &kk.KVArg{
	Key: "connect_status",
	Value: protoArg3,
	}

	rpc := "DeviceStateUpdate"
	topic := kk.Topic{Name: "Core"}
	start := time.Now()
	status, result := adapterKafkaProxy.InvokeRPC(nil, rpc, &topic, &topic, true, TEST_RPC_KEY, args...)
	elapsed := time.Since(start)
	log.Infow("Result", log.Fields{"status": status, "result": result, "time": elapsed})
	assert.Equal(t, status, true)
	assert.Nil(t, result)
	}

	func subscribeToTopic(topic kk.Topic, waitingChannel chan ic.InterContainerMessage) error {
	var ch <-chan *ic.InterContainerMessage
	var err error
	if ch, err = kafkaPartitionClient.Subscribe(topic); err != nil {
	return nil
	}
	msg := <-ch

	log.Debugw("msg-received", log.Fields{"msg": msg})
	waitingChannel <- msg
	return nil
	}

	func TestDeviceDiscovery(t *testing.T) {
	// Create an intercontainer proxy - similar to the Core
	testProxy := kk.NewInterContainerProxy(
	kk.InterContainerHost(hostIP),
	kk.InterContainerPort(9092),
	kk.DefaultTopic(&kk.Topic{Name: "Test"}),
	kk.MsgClient(kafkaClient),
	kk.DeviceDiscoveryTopic(&kk.Topic{Name: affinityRouterTopic}))

	// First start to wait for the message
	waitingChannel := make(chan *ic.InterContainerMessage)
	go subscribeToTopic(&kk.Topic{Name: affinityRouterTopic}, waitingChannel)

	// Sleep to make sure the consumer is ready
	time.Sleep(time.Millisecond * 100)

	// Send the message
	go testProxy.DeviceDiscovered("TestDeviceId", "TestDevicetype", "TestParentId", "myPODName")

	msg := <-waitingChannel
	totalTime := (time.Now().UnixNano() - msg.Header.Timestamp) / int64(time.Millisecond)
	assert.Equal(t, msg.Header.Type, ic.MessageType_DEVICE_DISCOVERED)
	// Unpack message
	dd := &ic.DeviceDiscovered{}
	err := ptypes.UnmarshalAny(msg.Body, dd)
	assert.Nil(t, err)
	assert.Equal(t, dd.Id, "TestDeviceId")
	assert.Equal(t, dd.DeviceType, "TestDevicetype")
	assert.Equal(t, dd.ParentId, "TestParentId")
	assert.Equal(t, dd.Publisher, "myPODName")
	log.Debugw("TotalTime", log.Fields{"time": totalTime})
	}

	func TestStopKafkaProxy(t *testing.T) {
	adapterKafkaProxy.Stop()
	coreKafkaProxy.Stop()
	}

	//func TestMain(m *testing.T) {
	// log.Info("Main")
	//}