afrouter/afrouter/affinity-router.go - voltha-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.
  */
 // gRPC affinity router with active/active backends

 package afrouter

 import (
 	"errors"
 	"fmt"
 	"github.com/golang/protobuf/proto"
 	pb "github.com/golang/protobuf/protoc-gen-go/descriptor"
 	"github.com/opencord/voltha-go/common/log"
 	"google.golang.org/grpc"
 	"io/ioutil"
 	"regexp"
 	"strconv"
 )

 const (
 	PKG_MTHD_PKG  int = 1
 	PKG_MTHD_MTHD int = 2
 )

 type AffinityRouter struct {
 	name             string
 	routerType       int // TODO: This is probably not needed
 	association      int
 	routingField     string
 	grpcService      string
 	protoDescriptor  *pb.FileDescriptorSet
 	methodMap        map[string]byte
 	nbBindingMthdMap map[string]byte
 	bkndClstr        *backendCluster
 	affinity         map[string]*backend
 	curBknd          **backend
 }

 func newAffinityRouter(rconf *RouterConfig, config *RouteConfig) (Router, error) {
 	var err error = nil
 	var rtrn_err bool = false
 	var pkg_re *regexp.Regexp = regexp.MustCompile(`^(\.[^.]+\.)(.+)$`)
 	// Validate the configuration

 	// A name must exist
 	if config.Name == "" {
 		log.Error("A router 'name' must be specified")
 		rtrn_err = true
 	}

 	if rconf.ProtoPackage == "" {
 		log.Error("A 'package' must be specified")
 		rtrn_err = true
 	}

 	if rconf.ProtoService == "" {
 		log.Error("A 'service' must be specified")
 		rtrn_err = true
 	}

 	//if config.RouteField == "" {
 	//	log.Error("A 'routing_field' must be specified")
 	//	rtrn_err = true
 	//}

 	// TODO The overrieds section is currently not being used
 	// so the router will route all methods based on the
 	// routing_field. This needs to be added so that methods
 	// can have different routing fields.
 	var bptr *backend
 	bptr = nil
 	dr := AffinityRouter{
 		name:             config.Name,
 		grpcService:      rconf.ProtoService,
 		affinity:         make(map[string]*backend),
 		methodMap:        make(map[string]byte),
 		nbBindingMthdMap: make(map[string]byte),
 		curBknd:          &bptr,
 		//serialNo:0,
 	}
 	// An association must exist
 	dr.association = strIndex(rAssnNames, config.Association)
 	if dr.association == 0 {
 		if config.Association == "" {
 			log.Error("An association must be specified")
 		} else {
 			log.Errorf("The association '%s' is not valid", config.Association)
 		}
 		rtrn_err = true
 	}

 	// This has already been validated bfore this function
 	// is called so just use it.
 	for idx := range rTypeNames {
 		if config.Type == rTypeNames[idx] {
 			dr.routerType = idx
 			break
 		}
 	}

 	// Load the protobuf descriptor file
 	dr.protoDescriptor = &pb.FileDescriptorSet{}
 	fb, err := ioutil.ReadFile(config.ProtoFile)
 	if err != nil {
 		log.Errorf("Could not open proto file '%s'", config.ProtoFile)
 		rtrn_err = true
 	}
 	err = proto.Unmarshal(fb, dr.protoDescriptor)
 	if err != nil {
 		log.Errorf("Could not unmarshal %s, %v", "proto.pb", err)
 		rtrn_err = true
 	}

 	// Build the routing structure based on the loaded protobuf
 	// descriptor file and the config information.
 	type key struct {
 		mthd  string
 		field string
 	}
 	var msgs map[key]byte = make(map[key]byte)
 	for _, f := range dr.protoDescriptor.File {
 		// Build a temporary map of message types by name.
 		for _, m := range f.MessageType {
 			for _, fld := range m.Field {
 				log.Debugf("Processing message '%s', field '%s'", *m.Name, *fld.Name)
 				msgs[key{*m.Name, *fld.Name}] = byte(*fld.Number)
 			}
 		}
 	}
 	log.Debugf("The map contains: %v", msgs)
 	for _, f := range dr.protoDescriptor.File {
 		if *f.Package == rconf.ProtoPackage {
 			for _, s := range f.Service {
 				if *s.Name == rconf.ProtoService {
 					log.Debugf("Loading package data '%s' for service '%s' for router '%s'", *f.Package, *s.Name, dr.name)
 					// Now create a map keyed by method name with the value being the
 					// field number of the route selector.
 					var ok bool
 					for _, m := range s.Method {
 						// Find the input type in the messages and extract the
 						// field number and save it for future reference.
 						log.Debugf("Processing method '%s'", *m.Name)
 						// Determine if this is a method we're supposed to be processing.
 						if needMethod(*m.Name, config) == true {
 							log.Debugf("Enabling method '%s'", *m.Name)
 							pkg_methd := pkg_re.FindStringSubmatch(*m.InputType)
 							if pkg_methd == nil {
 								log.Errorf("Regular expression didn't match input type '%s'", *m.InputType)
 								rtrn_err = true
 							}
 							// The input type has the package name prepended to it. Remove it.
 							//in := (*m.InputType)[len(rconf.ProtoPackage)+2:]
 							in := pkg_methd[PKG_MTHD_MTHD]
 							dr.methodMap[*m.Name], ok = msgs[key{in, config.RouteField}]
 							if ok == false {
 								log.Errorf("Method '%s' has no field named '%s' in it's parameter message '%s'",
 									*m.Name, config.RouteField, in)
 								rtrn_err = true
 							}
 						}
 						// The sb method is always included in the methods so we can check it here too.
 						if needSbMethod(*m.Name, config) == true {
 							log.Debugf("Enabling southbound method '%s'", *m.Name)
 							// The output type has the package name prepended to it. Remove it.
 							out := (*m.OutputType)[len(rconf.ProtoPackage)+2:]
 							dr.nbBindingMthdMap[*m.Name], ok = msgs[key{out, config.RouteField}]
 							if ok == false {
 								log.Errorf("Method '%s' has no field named '%s' in it's parameter message '%s'",
 									*m.Name, config.RouteField, out)
 								rtrn_err = true
 							}
 						}
 					}
 				}
 			}
 		}
 	}

 	// Create the backend cluster or link to an existing one
 	ok := true
 	if dr.bkndClstr, ok = bClusters[config.backendCluster.Name]; ok == false {
 		if dr.bkndClstr, err = newBackendCluster(config.backendCluster); err != nil {
 			log.Errorf("Could not create a backend for router %s", config.Name)
 			rtrn_err = true
 		}
 	}

 	if rtrn_err {
 		return dr, errors.New(fmt.Sprintf("Failed to create a new router '%s'", dr.name))
 	}

 	return dr, nil
 }

 func needSbMethod(mthd string, conf *RouteConfig) bool {
 	for _, m := range conf.NbBindingMethods {
 		if mthd == m {
 			return true
 		}
 	}
 	return false
 }

 func needMethod(mthd string, conf *RouteConfig) bool {
 	for _, m := range conf.Methods {
 		if mthd == m {
 			return true
 		}
 	}
 	return false
 }

 func (r AffinityRouter) Service() string {
 	return r.grpcService
 }

 func (r AffinityRouter) Name() string {
 	return r.name
 }

 func (r AffinityRouter) skipField(data *[]byte, idx *int) error {
 	switch (*data)[*idx] & 3 {
 	case 0: // Varint
 		(*idx)++
 		for (*data)[*idx] >= 128 {
 			(*idx)++
 		}
 	case 1: // 64 bit
 		(*idx) += 9
 	case 2: // Length delimited
 		(*idx)++
 		b := proto.NewBuffer((*data)[*idx:])
 		t, _ := b.DecodeVarint()
 		(*idx) += int(t) + 1
 	case 3: // Deprecated
 	case 4: // Deprecated
 	case 5: // 32 bit
 		(*idx) += 5
 	}
 	return nil
 }

 func (r AffinityRouter) decodeProtoField(payload []byte, fieldId byte) (string, error) {
 	idx := 0
 	b := proto.NewBuffer([]byte{})
 	//b.DebugPrint("The Buffer", payload)
 	for { // Find the route selector field
 		log.Debugf("Decoding afinity value attributeNumber: %d from %v at index %d", fieldId, payload, idx)
 		log.Debugf("Attempting match with payload: %d, methodTable: %d", payload[idx], fieldId)
 		if payload[idx]>>3 == fieldId {
 			log.Debugf("Method match with payload: %d, methodTable: %d", payload[idx], fieldId)
 			// TODO: Consider supporting other selector types.... Way, way in the future
 			// ok, the future is now, support strings as well... ugh.
 			var selector string
 			switch payload[idx] & 3 {
 			case 0: // Integer
 				b.SetBuf(payload[idx+1:])
 				v, e := b.DecodeVarint()
 				if e == nil {
 					log.Debugf("Decoded the ing field: %v", v)
 					selector = strconv.Itoa(int(v))
 				} else {
 					log.Errorf("Failed to decode varint %v", e)
 					return "", e
 				}
 			case 2: // Length delimited AKA string
 				b.SetBuf(payload[idx+1:])
 				v, e := b.DecodeStringBytes()
 				if e == nil {
 					log.Debugf("Decoded the string field: %v", v)
 					selector = v
 				} else {
 					log.Errorf("Failed to decode string %v", e)
 					return "", e
 				}
 			default:
 				err := errors.New(fmt.Sprintf("Only integer and string route selectors are permitted"))
 				log.Error(err)
 				return "", err
 			}
 			return selector, nil
 		} else if err := r.skipField(&payload, &idx); err != nil {
 			log.Errorf("Parsing message failed %v", err)
 			return "", err
 		}
 	}
 }

 func (r AffinityRouter) Route(sel interface{}) *backend {
 	switch sl := sel.(type) {
 	case *nbFrame:
 		log.Debugf("Route called for nbFrame with method %s", sl.mthdSlice[REQ_METHOD])
 		// Check if this method should be affinity bound from the
 		// reply rather than the request.
 		if _, ok := r.nbBindingMthdMap[sl.mthdSlice[REQ_METHOD]]; ok == true {
 			var err error
 			log.Debugf("Method '%s' affinity binds on reply", sl.mthdSlice[REQ_METHOD])
 			// Just round robin route the southbound request
 			if *r.curBknd, err = r.bkndClstr.nextBackend(*r.curBknd, BE_SEQ_RR); err == nil {
 				return *r.curBknd
 			} else {
 				sl.err = err
 				return nil
 			}
 		}
 		// Not a south affinity binding method, proceed with north affinity binding.
 		if selector, err := r.decodeProtoField(sl.payload, r.methodMap[sl.mthdSlice[REQ_METHOD]]); err == nil {
 			log.Debugf("Establishing affinity for selector: %s", selector)
 			if rtrn, ok := r.affinity[selector]; ok {
 				return rtrn
 			} else {
 				// The selector isn't in the map, create a new affinity mapping
 				log.Debugf("MUST CREATE A NEW AFFINITY MAP ENTRY!!")
 				var err error
 				if *r.curBknd, err = r.bkndClstr.nextBackend(*r.curBknd, BE_SEQ_RR); err == nil {
 					r.setAffinity(selector, *r.curBknd)
 					//r.affinity[selector] = *r.curBknd
 					//log.Debugf("New affinity set to backend %s",(*r.curBknd).name)
 					return *r.curBknd
 				} else {
 					sl.err = err
 					return nil
 				}
 			}
 		}
 	default:
 		log.Errorf("Internal: invalid data type in Route call %v", sel)
 		return nil
 	}
 	log.Errorf("Bad lookup in affinity map %v", r.affinity)
 	return nil
 }

 func (ar AffinityRouter) GetMetaKeyVal(serverStream grpc.ServerStream) (string, string, error) {
 	return "", "", nil
 }

 func (ar AffinityRouter) BackendCluster(mthd string, metaKey string) (*backendCluster, error) {
 	return ar.bkndClstr, nil
 }

 func (ar AffinityRouter) FindBackendCluster(beName string) *backendCluster {
 	if beName == ar.bkndClstr.name {
 		return ar.bkndClstr
 	}
 	return nil
 }

 func (r AffinityRouter) ReplyHandler(sel interface{}) error {
 	switch sl := sel.(type) {
 	case *sbFrame:
 		sl.lck.Lock()
 		defer sl.lck.Unlock()
 		log.Debugf("Reply handler called for sbFrame with method %s", sl.method)
 		// Determine if reply action is required.
 		if fld, ok := r.nbBindingMthdMap[sl.method]; ok == true && len(sl.payload) > 0 {
 			// Extract the field value from the frame and
 			// and set affinity accordingly
 			if selector, err := r.decodeProtoField(sl.payload, fld); err == nil {
 				log.Debug("Settign affinity on reply")
 				if r.setAffinity(selector, sl.be) != nil {
 					log.Error("Setting affinity on reply failed")
 				}
 				return nil
 			} else {
 				err := errors.New(fmt.Sprintf("Failed to decode reply field %d for method %s", fld, sl.method))
 				log.Error(err)
 				return err
 			}
 		}
 		return nil
 	default:
 		err := errors.New(fmt.Sprintf("Internal: invalid data type in ReplyHander call %v", sl))
 		log.Error(err)
 		return err
 	}
 }

 func (ar AffinityRouter) setAffinity(key string, be *backend) error {
 	if be2, ok := ar.affinity[key]; ok == false {
 		ar.affinity[key] = be
 		log.Debugf("New affinity set to backend %s for key %s", be.name, key)
 	} else if be2 != be {
 		err := errors.New(fmt.Sprintf("Attempting multiple sets of affinity for key %s to backend %s from %s on router %s",
 			key, be.name, ar.affinity[key].name, ar.name))
 		log.Error(err)
 		return err
 	}
 	return nil
 }
	/*
	* 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.
	*/
	// gRPC affinity router with active/active backends

	package afrouter

	import (
	"errors"
	"fmt"
	"github.com/golang/protobuf/proto"
	pb "github.com/golang/protobuf/protoc-gen-go/descriptor"
	"github.com/opencord/voltha-go/common/log"
	"google.golang.org/grpc"
	"io/ioutil"
	"regexp"
	"strconv"
	)

	const (
	PKG_MTHD_PKG int = 1
	PKG_MTHD_MTHD int = 2
	)

	type AffinityRouter struct {
	name string
	routerType int // TODO: This is probably not needed
	association int
	routingField string
	grpcService string
	protoDescriptor *pb.FileDescriptorSet
	methodMap map[string]byte
	nbBindingMthdMap map[string]byte
	bkndClstr *backendCluster
	affinity map[string]*backend
	curBknd **backend
	}

	func newAffinityRouter(rconf RouterConfig, config RouteConfig) (Router, error) {
	var err error = nil
	var rtrn_err bool = false
	var pkg_re *regexp.Regexp = regexp.MustCompile(`^(\.[^.]+\.)(.+)$`)
	// Validate the configuration

	// A name must exist
	if config.Name == "" {
	log.Error("A router 'name' must be specified")
	rtrn_err = true
	}

	if rconf.ProtoPackage == "" {
	log.Error("A 'package' must be specified")
	rtrn_err = true
	}

	if rconf.ProtoService == "" {
	log.Error("A 'service' must be specified")
	rtrn_err = true
	}

	//if config.RouteField == "" {
	// log.Error("A 'routing_field' must be specified")
	// rtrn_err = true
	//}

	// TODO The overrieds section is currently not being used
	// so the router will route all methods based on the
	// routing_field. This needs to be added so that methods
	// can have different routing fields.
	var bptr *backend
	bptr = nil
	dr := AffinityRouter{
	name: config.Name,
	grpcService: rconf.ProtoService,
	affinity: make(map[string]*backend),
	methodMap: make(map[string]byte),
	nbBindingMthdMap: make(map[string]byte),
	curBknd: &bptr,
	//serialNo:0,
	}
	// An association must exist
	dr.association = strIndex(rAssnNames, config.Association)
	if dr.association == 0 {
	if config.Association == "" {
	log.Error("An association must be specified")
	} else {
	log.Errorf("The association '%s' is not valid", config.Association)
	}
	rtrn_err = true
	}

	// This has already been validated bfore this function
	// is called so just use it.
	for idx := range rTypeNames {
	if config.Type == rTypeNames[idx] {
	dr.routerType = idx
	break
	}
	}

	// Load the protobuf descriptor file
	dr.protoDescriptor = &pb.FileDescriptorSet{}
	fb, err := ioutil.ReadFile(config.ProtoFile)
	if err != nil {
	log.Errorf("Could not open proto file '%s'", config.ProtoFile)
	rtrn_err = true
	}
	err = proto.Unmarshal(fb, dr.protoDescriptor)
	if err != nil {
	log.Errorf("Could not unmarshal %s, %v", "proto.pb", err)
	rtrn_err = true
	}

	// Build the routing structure based on the loaded protobuf
	// descriptor file and the config information.
	type key struct {
	mthd string
	field string
	}
	var msgs map[key]byte = make(map[key]byte)
	for _, f := range dr.protoDescriptor.File {
	// Build a temporary map of message types by name.
	for _, m := range f.MessageType {
	for _, fld := range m.Field {
	log.Debugf("Processing message '%s', field '%s'", m.Name, fld.Name)
	msgs[key{m.Name, fld.Name}] = byte(*fld.Number)
	}
	}
	}
	log.Debugf("The map contains: %v", msgs)
	for _, f := range dr.protoDescriptor.File {
	if *f.Package == rconf.ProtoPackage {
	for _, s := range f.Service {
	if *s.Name == rconf.ProtoService {
	log.Debugf("Loading package data '%s' for service '%s' for router '%s'", f.Package, s.Name, dr.name)
	// Now create a map keyed by method name with the value being the
	// field number of the route selector.
	var ok bool
	for _, m := range s.Method {
	// Find the input type in the messages and extract the
	// field number and save it for future reference.
	log.Debugf("Processing method '%s'", *m.Name)
	// Determine if this is a method we're supposed to be processing.
	if needMethod(*m.Name, config) == true {
	log.Debugf("Enabling method '%s'", *m.Name)
	pkg_methd := pkg_re.FindStringSubmatch(*m.InputType)
	if pkg_methd == nil {
	log.Errorf("Regular expression didn't match input type '%s'", *m.InputType)
	rtrn_err = true
	}
	// The input type has the package name prepended to it. Remove it.
	//in := (*m.InputType)[len(rconf.ProtoPackage)+2:]
	in := pkg_methd[PKG_MTHD_MTHD]
	dr.methodMap[*m.Name], ok = msgs[key{in, config.RouteField}]
	if ok == false {
	log.Errorf("Method '%s' has no field named '%s' in it's parameter message '%s'",
	*m.Name, config.RouteField, in)
	rtrn_err = true
	}
	}
	// The sb method is always included in the methods so we can check it here too.
	if needSbMethod(*m.Name, config) == true {
	log.Debugf("Enabling southbound method '%s'", *m.Name)
	// The output type has the package name prepended to it. Remove it.
	out := (*m.OutputType)[len(rconf.ProtoPackage)+2:]
	dr.nbBindingMthdMap[*m.Name], ok = msgs[key{out, config.RouteField}]
	if ok == false {
	log.Errorf("Method '%s' has no field named '%s' in it's parameter message '%s'",
	*m.Name, config.RouteField, out)
	rtrn_err = true
	}
	}
	}
	}
	}
	}
	}

	// Create the backend cluster or link to an existing one
	ok := true
	if dr.bkndClstr, ok = bClusters[config.backendCluster.Name]; ok == false {
	if dr.bkndClstr, err = newBackendCluster(config.backendCluster); err != nil {
	log.Errorf("Could not create a backend for router %s", config.Name)
	rtrn_err = true
	}
	}

	if rtrn_err {
	return dr, errors.New(fmt.Sprintf("Failed to create a new router '%s'", dr.name))
	}

	return dr, nil
	}

	func needSbMethod(mthd string, conf *RouteConfig) bool {
	for _, m := range conf.NbBindingMethods {
	if mthd == m {
	return true
	}
	}
	return false
	}

	func needMethod(mthd string, conf *RouteConfig) bool {
	for _, m := range conf.Methods {
	if mthd == m {
	return true
	}
	}
	return false
	}

	func (r AffinityRouter) Service() string {
	return r.grpcService
	}

	func (r AffinityRouter) Name() string {
	return r.name
	}

	func (r AffinityRouter) skipField(data []byte, idx int) error {
	switch (data)[idx] & 3 {
	case 0: // Varint
	(*idx)++
	for (data)[idx] >= 128 {
	(*idx)++
	}
	case 1: // 64 bit
	(*idx) += 9
	case 2: // Length delimited
	(*idx)++
	b := proto.NewBuffer((data)[idx:])
	t, _ := b.DecodeVarint()
	(*idx) += int(t) + 1
	case 3: // Deprecated
	case 4: // Deprecated
	case 5: // 32 bit
	(*idx) += 5
	}
	return nil
	}

	func (r AffinityRouter) decodeProtoField(payload []byte, fieldId byte) (string, error) {
	idx := 0
	b := proto.NewBuffer([]byte{})
	//b.DebugPrint("The Buffer", payload)
	for { // Find the route selector field
	log.Debugf("Decoding afinity value attributeNumber: %d from %v at index %d", fieldId, payload, idx)
	log.Debugf("Attempting match with payload: %d, methodTable: %d", payload[idx], fieldId)
	if payload[idx]>>3 == fieldId {
	log.Debugf("Method match with payload: %d, methodTable: %d", payload[idx], fieldId)
	// TODO: Consider supporting other selector types.... Way, way in the future
	// ok, the future is now, support strings as well... ugh.
	var selector string
	switch payload[idx] & 3 {
	case 0: // Integer
	b.SetBuf(payload[idx+1:])
	v, e := b.DecodeVarint()
	if e == nil {
	log.Debugf("Decoded the ing field: %v", v)
	selector = strconv.Itoa(int(v))
	} else {
	log.Errorf("Failed to decode varint %v", e)
	return "", e
	}
	case 2: // Length delimited AKA string
	b.SetBuf(payload[idx+1:])
	v, e := b.DecodeStringBytes()
	if e == nil {
	log.Debugf("Decoded the string field: %v", v)
	selector = v
	} else {
	log.Errorf("Failed to decode string %v", e)
	return "", e
	}
	default:
	err := errors.New(fmt.Sprintf("Only integer and string route selectors are permitted"))
	log.Error(err)
	return "", err
	}
	return selector, nil
	} else if err := r.skipField(&payload, &idx); err != nil {
	log.Errorf("Parsing message failed %v", err)
	return "", err
	}
	}
	}

	func (r AffinityRouter) Route(sel interface{}) *backend {
	switch sl := sel.(type) {
	case *nbFrame:
	log.Debugf("Route called for nbFrame with method %s", sl.mthdSlice[REQ_METHOD])
	// Check if this method should be affinity bound from the
	// reply rather than the request.
	if _, ok := r.nbBindingMthdMap[sl.mthdSlice[REQ_METHOD]]; ok == true {
	var err error
	log.Debugf("Method '%s' affinity binds on reply", sl.mthdSlice[REQ_METHOD])
	// Just round robin route the southbound request
	if r.curBknd, err = r.bkndClstr.nextBackend(r.curBknd, BE_SEQ_RR); err == nil {
	return *r.curBknd
	} else {
	sl.err = err
	return nil
	}
	}
	// Not a south affinity binding method, proceed with north affinity binding.
	if selector, err := r.decodeProtoField(sl.payload, r.methodMap[sl.mthdSlice[REQ_METHOD]]); err == nil {
	log.Debugf("Establishing affinity for selector: %s", selector)
	if rtrn, ok := r.affinity[selector]; ok {
	return rtrn
	} else {
	// The selector isn't in the map, create a new affinity mapping
	log.Debugf("MUST CREATE A NEW AFFINITY MAP ENTRY!!")
	var err error
	if r.curBknd, err = r.bkndClstr.nextBackend(r.curBknd, BE_SEQ_RR); err == nil {
	r.setAffinity(selector, *r.curBknd)
	//r.affinity[selector] = *r.curBknd
	//log.Debugf("New affinity set to backend %s",(*r.curBknd).name)
	return *r.curBknd
	} else {
	sl.err = err
	return nil
	}
	}
	}
	default:
	log.Errorf("Internal: invalid data type in Route call %v", sel)
	return nil
	}
	log.Errorf("Bad lookup in affinity map %v", r.affinity)
	return nil
	}

	func (ar AffinityRouter) GetMetaKeyVal(serverStream grpc.ServerStream) (string, string, error) {
	return "", "", nil
	}

	func (ar AffinityRouter) BackendCluster(mthd string, metaKey string) (*backendCluster, error) {
	return ar.bkndClstr, nil
	}

	func (ar AffinityRouter) FindBackendCluster(beName string) *backendCluster {
	if beName == ar.bkndClstr.name {
	return ar.bkndClstr
	}
	return nil
	}

	func (r AffinityRouter) ReplyHandler(sel interface{}) error {
	switch sl := sel.(type) {
	case *sbFrame:
	sl.lck.Lock()
	defer sl.lck.Unlock()
	log.Debugf("Reply handler called for sbFrame with method %s", sl.method)
	// Determine if reply action is required.
	if fld, ok := r.nbBindingMthdMap[sl.method]; ok == true && len(sl.payload) > 0 {
	// Extract the field value from the frame and
	// and set affinity accordingly
	if selector, err := r.decodeProtoField(sl.payload, fld); err == nil {
	log.Debug("Settign affinity on reply")
	if r.setAffinity(selector, sl.be) != nil {
	log.Error("Setting affinity on reply failed")
	}
	return nil
	} else {
	err := errors.New(fmt.Sprintf("Failed to decode reply field %d for method %s", fld, sl.method))
	log.Error(err)
	return err
	}
	}
	return nil
	default:
	err := errors.New(fmt.Sprintf("Internal: invalid data type in ReplyHander call %v", sl))
	log.Error(err)
	return err
	}
	}

	func (ar AffinityRouter) setAffinity(key string, be *backend) error {
	if be2, ok := ar.affinity[key]; ok == false {
	ar.affinity[key] = be
	log.Debugf("New affinity set to backend %s for key %s", be.name, key)
	} else if be2 != be {
	err := errors.New(fmt.Sprintf("Attempting multiple sets of affinity for key %s to backend %s from %s on router %s",
	key, be.name, ar.affinity[key].name, ar.name))
	log.Error(err)
	return err
	}
	return nil
	}