balancer/grpclb/grpclb.go - third_party/github.com/grpc/grpc-go - Git at Google

 /*
  *
  * Copyright 2016 gRPC authors.
  *
  * 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 grpclb defines a grpclb balancer.
 //
 // To install grpclb balancer, import this package as:
 //    import _ "google.golang.org/grpc/balancer/grpclb"
 package grpclb

 import (
 	"context"
 	"errors"
 	"sync"
 	"time"

 	"google.golang.org/grpc"
 	"google.golang.org/grpc/balancer"
 	grpclbstate "google.golang.org/grpc/balancer/grpclb/state"
 	"google.golang.org/grpc/connectivity"
 	"google.golang.org/grpc/credentials"
 	"google.golang.org/grpc/grpclog"
 	"google.golang.org/grpc/internal"
 	"google.golang.org/grpc/internal/backoff"
 	"google.golang.org/grpc/internal/resolver/dns"
 	"google.golang.org/grpc/resolver"

 	durationpb "github.com/golang/protobuf/ptypes/duration"
 	lbpb "google.golang.org/grpc/balancer/grpclb/grpc_lb_v1"
 )

 const (
 	lbTokenKey             = "lb-token"
 	defaultFallbackTimeout = 10 * time.Second
 	grpclbName             = "grpclb"
 )

 var errServerTerminatedConnection = errors.New("grpclb: failed to recv server list: server terminated connection")
 var logger = grpclog.Component("grpclb")

 func convertDuration(d *durationpb.Duration) time.Duration {
 	if d == nil {
 		return 0
 	}
 	return time.Duration(d.Seconds)*time.Second + time.Duration(d.Nanos)*time.Nanosecond
 }

 // Client API for LoadBalancer service.
 // Mostly copied from generated pb.go file.
 // To avoid circular dependency.
 type loadBalancerClient struct {
 	cc *grpc.ClientConn
 }

 func (c *loadBalancerClient) BalanceLoad(ctx context.Context, opts ...grpc.CallOption) (*balanceLoadClientStream, error) {
 	desc := &grpc.StreamDesc{
 		StreamName:    "BalanceLoad",
 		ServerStreams: true,
 		ClientStreams: true,
 	}
 	stream, err := c.cc.NewStream(ctx, desc, "/grpc.lb.v1.LoadBalancer/BalanceLoad", opts...)
 	if err != nil {
 		return nil, err
 	}
 	x := &balanceLoadClientStream{stream}
 	return x, nil
 }

 type balanceLoadClientStream struct {
 	grpc.ClientStream
 }

 func (x *balanceLoadClientStream) Send(m *lbpb.LoadBalanceRequest) error {
 	return x.ClientStream.SendMsg(m)
 }

 func (x *balanceLoadClientStream) Recv() (*lbpb.LoadBalanceResponse, error) {
 	m := new(lbpb.LoadBalanceResponse)
 	if err := x.ClientStream.RecvMsg(m); err != nil {
 		return nil, err
 	}
 	return m, nil
 }

 func init() {
 	balancer.Register(newLBBuilder())
 	dns.EnableSRVLookups = true
 }

 // newLBBuilder creates a builder for grpclb.
 func newLBBuilder() balancer.Builder {
 	return newLBBuilderWithFallbackTimeout(defaultFallbackTimeout)
 }

 // newLBBuilderWithFallbackTimeout creates a grpclb builder with the given
 // fallbackTimeout. If no response is received from the remote balancer within
 // fallbackTimeout, the backend addresses from the resolved address list will be
 // used.
 //
 // Only call this function when a non-default fallback timeout is needed.
 func newLBBuilderWithFallbackTimeout(fallbackTimeout time.Duration) balancer.Builder {
 	return &lbBuilder{
 		fallbackTimeout: fallbackTimeout,
 	}
 }

 type lbBuilder struct {
 	fallbackTimeout time.Duration
 }

 func (b *lbBuilder) Name() string {
 	return grpclbName
 }

 func (b *lbBuilder) Build(cc balancer.ClientConn, opt balancer.BuildOptions) balancer.Balancer {
 	// This generates a manual resolver builder with a fixed scheme. This
 	// scheme will be used to dial to remote LB, so we can send filtered
 	// address updates to remote LB ClientConn using this manual resolver.
 	r := &lbManualResolver{scheme: "grpclb-internal", ccb: cc}

 	lb := &lbBalancer{
 		cc:              newLBCacheClientConn(cc),
 		target:          opt.Target.Endpoint,
 		opt:             opt,
 		fallbackTimeout: b.fallbackTimeout,
 		doneCh:          make(chan struct{}),

 		manualResolver: r,
 		subConns:       make(map[resolver.Address]balancer.SubConn),
 		scStates:       make(map[balancer.SubConn]connectivity.State),
 		picker:         &errPicker{err: balancer.ErrNoSubConnAvailable},
 		clientStats:    newRPCStats(),
 		backoff:        backoff.DefaultExponential, // TODO: make backoff configurable.
 	}

 	var err error
 	if opt.CredsBundle != nil {
 		lb.grpclbClientConnCreds, err = opt.CredsBundle.NewWithMode(internal.CredsBundleModeBalancer)
 		if err != nil {
 			logger.Warningf("lbBalancer: client connection creds NewWithMode failed: %v", err)
 		}
 		lb.grpclbBackendCreds, err = opt.CredsBundle.NewWithMode(internal.CredsBundleModeBackendFromBalancer)
 		if err != nil {
 			logger.Warningf("lbBalancer: backend creds NewWithMode failed: %v", err)
 		}
 	}

 	return lb
 }

 type lbBalancer struct {
 	cc     *lbCacheClientConn
 	target string
 	opt    balancer.BuildOptions

 	usePickFirst bool

 	// grpclbClientConnCreds is the creds bundle to be used to connect to grpclb
 	// servers. If it's nil, use the TransportCredentials from BuildOptions
 	// instead.
 	grpclbClientConnCreds credentials.Bundle
 	// grpclbBackendCreds is the creds bundle to be used for addresses that are
 	// returned by grpclb server. If it's nil, don't set anything when creating
 	// SubConns.
 	grpclbBackendCreds credentials.Bundle

 	fallbackTimeout time.Duration
 	doneCh          chan struct{}

 	// manualResolver is used in the remote LB ClientConn inside grpclb. When
 	// resolved address updates are received by grpclb, filtered updates will be
 	// send to remote LB ClientConn through this resolver.
 	manualResolver *lbManualResolver
 	// The ClientConn to talk to the remote balancer.
 	ccRemoteLB *remoteBalancerCCWrapper
 	// backoff for calling remote balancer.
 	backoff backoff.Strategy

 	// Support client side load reporting. Each picker gets a reference to this,
 	// and will update its content.
 	clientStats *rpcStats

 	mu sync.Mutex // guards everything following.
 	// The full server list including drops, used to check if the newly received
 	// serverList contains anything new. Each generate picker will also have
 	// reference to this list to do the first layer pick.
 	fullServerList []*lbpb.Server
 	// Backend addresses. It's kept so the addresses are available when
 	// switching between round_robin and pickfirst.
 	backendAddrs []resolver.Address
 	// All backends addresses, with metadata set to nil. This list contains all
 	// backend addresses in the same order and with the same duplicates as in
 	// serverlist. When generating picker, a SubConn slice with the same order
 	// but with only READY SCs will be gerenated.
 	backendAddrsWithoutMetadata []resolver.Address
 	// Roundrobin functionalities.
 	state    connectivity.State
 	subConns map[resolver.Address]balancer.SubConn   // Used to new/remove SubConn.
 	scStates map[balancer.SubConn]connectivity.State // Used to filter READY SubConns.
 	picker   balancer.Picker
 	// Support fallback to resolved backend addresses if there's no response
 	// from remote balancer within fallbackTimeout.
 	remoteBalancerConnected bool
 	serverListReceived      bool
 	inFallback              bool
 	// resolvedBackendAddrs is resolvedAddrs minus remote balancers. It's set
 	// when resolved address updates are received, and read in the goroutine
 	// handling fallback.
 	resolvedBackendAddrs []resolver.Address
 }

 // regeneratePicker takes a snapshot of the balancer, and generates a picker from
 // it. The picker
 //  - always returns ErrTransientFailure if the balancer is in TransientFailure,
 //  - does two layer roundrobin pick otherwise.
 // Caller must hold lb.mu.
 func (lb *lbBalancer) regeneratePicker(resetDrop bool) {
 	if lb.state == connectivity.TransientFailure {
 		lb.picker = &errPicker{err: balancer.ErrTransientFailure}
 		return
 	}

 	if lb.state == connectivity.Connecting {
 		lb.picker = &errPicker{err: balancer.ErrNoSubConnAvailable}
 		return
 	}

 	var readySCs []balancer.SubConn
 	if lb.usePickFirst {
 		for _, sc := range lb.subConns {
 			readySCs = append(readySCs, sc)
 			break
 		}
 	} else {
 		for _, a := range lb.backendAddrsWithoutMetadata {
 			if sc, ok := lb.subConns[a]; ok {
 				if st, ok := lb.scStates[sc]; ok && st == connectivity.Ready {
 					readySCs = append(readySCs, sc)
 				}
 			}
 		}
 	}

 	if len(readySCs) <= 0 {
 		// If there's no ready SubConns, always re-pick. This is to avoid drops
 		// unless at least one SubConn is ready. Otherwise we may drop more
 		// often than want because of drops + re-picks(which become re-drops).
 		//
 		// This doesn't seem to be necessary after the connecting check above.
 		// Kept for safety.
 		lb.picker = &errPicker{err: balancer.ErrNoSubConnAvailable}
 		return
 	}
 	if lb.inFallback {
 		lb.picker = newRRPicker(readySCs)
 		return
 	}
 	if resetDrop {
 		lb.picker = newLBPicker(lb.fullServerList, readySCs, lb.clientStats)
 		return
 	}
 	prevLBPicker, ok := lb.picker.(*lbPicker)
 	if !ok {
 		lb.picker = newLBPicker(lb.fullServerList, readySCs, lb.clientStats)
 		return
 	}
 	prevLBPicker.updateReadySCs(readySCs)
 }

 // aggregateSubConnStats calculate the aggregated state of SubConns in
 // lb.SubConns. These SubConns are subconns in use (when switching between
 // fallback and grpclb). lb.scState contains states for all SubConns, including
 // those in cache (SubConns are cached for 10 seconds after remove).
 //
 // The aggregated state is:
 //  - If at least one SubConn in Ready, the aggregated state is Ready;
 //  - Else if at least one SubConn in Connecting, the aggregated state is Connecting;
 //  - Else the aggregated state is TransientFailure.
 func (lb *lbBalancer) aggregateSubConnStates() connectivity.State {
 	var numConnecting uint64

 	for _, sc := range lb.subConns {
 		if state, ok := lb.scStates[sc]; ok {
 			switch state {
 			case connectivity.Ready:
 				return connectivity.Ready
 			case connectivity.Connecting:
 				numConnecting++
 			}
 		}
 	}
 	if numConnecting > 0 {
 		return connectivity.Connecting
 	}
 	return connectivity.TransientFailure
 }

 func (lb *lbBalancer) UpdateSubConnState(sc balancer.SubConn, scs balancer.SubConnState) {
 	s := scs.ConnectivityState
 	if logger.V(2) {
 		logger.Infof("lbBalancer: handle SubConn state change: %p, %v", sc, s)
 	}
 	lb.mu.Lock()
 	defer lb.mu.Unlock()

 	oldS, ok := lb.scStates[sc]
 	if !ok {
 		if logger.V(2) {
 			logger.Infof("lbBalancer: got state changes for an unknown SubConn: %p, %v", sc, s)
 		}
 		return
 	}
 	lb.scStates[sc] = s
 	switch s {
 	case connectivity.Idle:
 		sc.Connect()
 	case connectivity.Shutdown:
 		// When an address was removed by resolver, b called RemoveSubConn but
 		// kept the sc's state in scStates. Remove state for this sc here.
 		delete(lb.scStates, sc)
 	}
 	// Force regenerate picker if
 	//  - this sc became ready from not-ready
 	//  - this sc became not-ready from ready
 	lb.updateStateAndPicker((oldS == connectivity.Ready) != (s == connectivity.Ready), false)

 	// Enter fallback when the aggregated state is not Ready and the connection
 	// to remote balancer is lost.
 	if lb.state != connectivity.Ready {
 		if !lb.inFallback && !lb.remoteBalancerConnected {
 			// Enter fallback.
 			lb.refreshSubConns(lb.resolvedBackendAddrs, true, lb.usePickFirst)
 		}
 	}
 }

 // updateStateAndPicker re-calculate the aggregated state, and regenerate picker
 // if overall state is changed.
 //
 // If forceRegeneratePicker is true, picker will be regenerated.
 func (lb *lbBalancer) updateStateAndPicker(forceRegeneratePicker bool, resetDrop bool) {
 	oldAggrState := lb.state
 	lb.state = lb.aggregateSubConnStates()
 	// Regenerate picker when one of the following happens:
 	//  - caller wants to regenerate
 	//  - the aggregated state changed
 	if forceRegeneratePicker || (lb.state != oldAggrState) {
 		lb.regeneratePicker(resetDrop)
 	}

 	lb.cc.UpdateState(balancer.State{ConnectivityState: lb.state, Picker: lb.picker})
 }

 // fallbackToBackendsAfter blocks for fallbackTimeout and falls back to use
 // resolved backends (backends received from resolver, not from remote balancer)
 // if no connection to remote balancers was successful.
 func (lb *lbBalancer) fallbackToBackendsAfter(fallbackTimeout time.Duration) {
 	timer := time.NewTimer(fallbackTimeout)
 	defer timer.Stop()
 	select {
 	case <-timer.C:
 	case <-lb.doneCh:
 		return
 	}
 	lb.mu.Lock()
 	if lb.inFallback || lb.serverListReceived {
 		lb.mu.Unlock()
 		return
 	}
 	// Enter fallback.
 	lb.refreshSubConns(lb.resolvedBackendAddrs, true, lb.usePickFirst)
 	lb.mu.Unlock()
 }

 func (lb *lbBalancer) handleServiceConfig(gc *grpclbServiceConfig) {
 	lb.mu.Lock()
 	defer lb.mu.Unlock()

 	newUsePickFirst := childIsPickFirst(gc)
 	if lb.usePickFirst == newUsePickFirst {
 		return
 	}
 	if logger.V(2) {
 		logger.Infof("lbBalancer: switching mode, new usePickFirst: %+v", newUsePickFirst)
 	}
 	lb.refreshSubConns(lb.backendAddrs, lb.inFallback, newUsePickFirst)
 }

 func (lb *lbBalancer) ResolverError(error) {
 	// Ignore resolver errors.  GRPCLB is not selected unless the resolver
 	// works at least once.
 }

 func (lb *lbBalancer) UpdateClientConnState(ccs balancer.ClientConnState) error {
 	if logger.V(2) {
 		logger.Infof("lbBalancer: UpdateClientConnState: %+v", ccs)
 	}
 	gc, _ := ccs.BalancerConfig.(*grpclbServiceConfig)
 	lb.handleServiceConfig(gc)

 	addrs := ccs.ResolverState.Addresses

 	var remoteBalancerAddrs, backendAddrs []resolver.Address
 	for _, a := range addrs {
 		if a.Type == resolver.GRPCLB {
 			a.Type = resolver.Backend
 			remoteBalancerAddrs = append(remoteBalancerAddrs, a)
 		} else {
 			backendAddrs = append(backendAddrs, a)
 		}
 	}
 	if sd := grpclbstate.Get(ccs.ResolverState); sd != nil {
 		// Override any balancer addresses provided via
 		// ccs.ResolverState.Addresses.
 		remoteBalancerAddrs = sd.BalancerAddresses
 	}

 	if len(backendAddrs)+len(remoteBalancerAddrs) == 0 {
 		// There should be at least one address, either grpclb server or
 		// fallback. Empty address is not valid.
 		return balancer.ErrBadResolverState
 	}

 	if len(remoteBalancerAddrs) == 0 {
 		if lb.ccRemoteLB != nil {
 			lb.ccRemoteLB.close()
 			lb.ccRemoteLB = nil
 		}
 	} else if lb.ccRemoteLB == nil {
 		// First time receiving resolved addresses, create a cc to remote
 		// balancers.
 		lb.newRemoteBalancerCCWrapper()
 		// Start the fallback goroutine.
 		go lb.fallbackToBackendsAfter(lb.fallbackTimeout)
 	}

 	if lb.ccRemoteLB != nil {
 		// cc to remote balancers uses lb.manualResolver. Send the updated remote
 		// balancer addresses to it through manualResolver.
 		lb.manualResolver.UpdateState(resolver.State{Addresses: remoteBalancerAddrs})
 	}

 	lb.mu.Lock()
 	lb.resolvedBackendAddrs = backendAddrs
 	if len(remoteBalancerAddrs) == 0 || lb.inFallback {
 		// If there's no remote balancer address in ClientConn update, grpclb
 		// enters fallback mode immediately.
 		//
 		// If a new update is received while grpclb is in fallback, update the
 		// list of backends being used to the new fallback backends.
 		lb.refreshSubConns(lb.resolvedBackendAddrs, true, lb.usePickFirst)
 	}
 	lb.mu.Unlock()
 	return nil
 }

 func (lb *lbBalancer) Close() {
 	select {
 	case <-lb.doneCh:
 		return
 	default:
 	}
 	close(lb.doneCh)
 	if lb.ccRemoteLB != nil {
 		lb.ccRemoteLB.close()
 	}
 	lb.cc.close()
 }
	/*
	*
	* Copyright 2016 gRPC authors.
	*
	* 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 grpclb defines a grpclb balancer.
	//
	// To install grpclb balancer, import this package as:
	// import _ "google.golang.org/grpc/balancer/grpclb"
	package grpclb

	import (
	"context"
	"errors"
	"sync"
	"time"

	"google.golang.org/grpc"
	"google.golang.org/grpc/balancer"
	grpclbstate "google.golang.org/grpc/balancer/grpclb/state"
	"google.golang.org/grpc/connectivity"
	"google.golang.org/grpc/credentials"
	"google.golang.org/grpc/grpclog"
	"google.golang.org/grpc/internal"
	"google.golang.org/grpc/internal/backoff"
	"google.golang.org/grpc/internal/resolver/dns"
	"google.golang.org/grpc/resolver"

	durationpb "github.com/golang/protobuf/ptypes/duration"
	lbpb "google.golang.org/grpc/balancer/grpclb/grpc_lb_v1"
	)

	const (
	lbTokenKey = "lb-token"
	defaultFallbackTimeout = 10 * time.Second
	grpclbName = "grpclb"
	)

	var errServerTerminatedConnection = errors.New("grpclb: failed to recv server list: server terminated connection")
	var logger = grpclog.Component("grpclb")

	func convertDuration(d *durationpb.Duration) time.Duration {
	if d == nil {
	return 0
	}
	return time.Duration(d.Seconds)time.Second + time.Duration(d.Nanos)time.Nanosecond
	}

	// Client API for LoadBalancer service.
	// Mostly copied from generated pb.go file.
	// To avoid circular dependency.
	type loadBalancerClient struct {
	cc *grpc.ClientConn
	}

	func (c loadBalancerClient) BalanceLoad(ctx context.Context, opts ...grpc.CallOption) (balanceLoadClientStream, error) {
	desc := &grpc.StreamDesc{
	StreamName: "BalanceLoad",
	ServerStreams: true,
	ClientStreams: true,
	}
	stream, err := c.cc.NewStream(ctx, desc, "/grpc.lb.v1.LoadBalancer/BalanceLoad", opts...)
	if err != nil {
	return nil, err
	}
	x := &balanceLoadClientStream{stream}
	return x, nil
	}

	type balanceLoadClientStream struct {
	grpc.ClientStream
	}

	func (x balanceLoadClientStream) Send(m lbpb.LoadBalanceRequest) error {
	return x.ClientStream.SendMsg(m)
	}

	func (x balanceLoadClientStream) Recv() (lbpb.LoadBalanceResponse, error) {
	m := new(lbpb.LoadBalanceResponse)
	if err := x.ClientStream.RecvMsg(m); err != nil {
	return nil, err
	}
	return m, nil
	}

	func init() {
	balancer.Register(newLBBuilder())
	dns.EnableSRVLookups = true
	}

	// newLBBuilder creates a builder for grpclb.
	func newLBBuilder() balancer.Builder {
	return newLBBuilderWithFallbackTimeout(defaultFallbackTimeout)
	}

	// newLBBuilderWithFallbackTimeout creates a grpclb builder with the given
	// fallbackTimeout. If no response is received from the remote balancer within
	// fallbackTimeout, the backend addresses from the resolved address list will be
	// used.
	//
	// Only call this function when a non-default fallback timeout is needed.
	func newLBBuilderWithFallbackTimeout(fallbackTimeout time.Duration) balancer.Builder {
	return &lbBuilder{
	fallbackTimeout: fallbackTimeout,
	}
	}

	type lbBuilder struct {
	fallbackTimeout time.Duration
	}

	func (b *lbBuilder) Name() string {
	return grpclbName
	}

	func (b *lbBuilder) Build(cc balancer.ClientConn, opt balancer.BuildOptions) balancer.Balancer {
	// This generates a manual resolver builder with a fixed scheme. This
	// scheme will be used to dial to remote LB, so we can send filtered
	// address updates to remote LB ClientConn using this manual resolver.
	r := &lbManualResolver{scheme: "grpclb-internal", ccb: cc}

	lb := &lbBalancer{
	cc: newLBCacheClientConn(cc),
	target: opt.Target.Endpoint,
	opt: opt,
	fallbackTimeout: b.fallbackTimeout,
	doneCh: make(chan struct{}),

	manualResolver: r,
	subConns: make(map[resolver.Address]balancer.SubConn),
	scStates: make(map[balancer.SubConn]connectivity.State),
	picker: &errPicker{err: balancer.ErrNoSubConnAvailable},
	clientStats: newRPCStats(),
	backoff: backoff.DefaultExponential, // TODO: make backoff configurable.
	}

	var err error
	if opt.CredsBundle != nil {
	lb.grpclbClientConnCreds, err = opt.CredsBundle.NewWithMode(internal.CredsBundleModeBalancer)
	if err != nil {
	logger.Warningf("lbBalancer: client connection creds NewWithMode failed: %v", err)
	}
	lb.grpclbBackendCreds, err = opt.CredsBundle.NewWithMode(internal.CredsBundleModeBackendFromBalancer)
	if err != nil {
	logger.Warningf("lbBalancer: backend creds NewWithMode failed: %v", err)
	}
	}

	return lb
	}

	type lbBalancer struct {
	cc *lbCacheClientConn
	target string
	opt balancer.BuildOptions

	usePickFirst bool

	// grpclbClientConnCreds is the creds bundle to be used to connect to grpclb
	// servers. If it's nil, use the TransportCredentials from BuildOptions
	// instead.
	grpclbClientConnCreds credentials.Bundle
	// grpclbBackendCreds is the creds bundle to be used for addresses that are
	// returned by grpclb server. If it's nil, don't set anything when creating
	// SubConns.
	grpclbBackendCreds credentials.Bundle

	fallbackTimeout time.Duration
	doneCh chan struct{}

	// manualResolver is used in the remote LB ClientConn inside grpclb. When
	// resolved address updates are received by grpclb, filtered updates will be
	// send to remote LB ClientConn through this resolver.
	manualResolver *lbManualResolver
	// The ClientConn to talk to the remote balancer.
	ccRemoteLB *remoteBalancerCCWrapper
	// backoff for calling remote balancer.
	backoff backoff.Strategy

	// Support client side load reporting. Each picker gets a reference to this,
	// and will update its content.
	clientStats *rpcStats

	mu sync.Mutex // guards everything following.
	// The full server list including drops, used to check if the newly received
	// serverList contains anything new. Each generate picker will also have
	// reference to this list to do the first layer pick.
	fullServerList []*lbpb.Server
	// Backend addresses. It's kept so the addresses are available when
	// switching between round_robin and pickfirst.
	backendAddrs []resolver.Address
	// All backends addresses, with metadata set to nil. This list contains all
	// backend addresses in the same order and with the same duplicates as in
	// serverlist. When generating picker, a SubConn slice with the same order
	// but with only READY SCs will be gerenated.
	backendAddrsWithoutMetadata []resolver.Address
	// Roundrobin functionalities.
	state connectivity.State
	subConns map[resolver.Address]balancer.SubConn // Used to new/remove SubConn.
	scStates map[balancer.SubConn]connectivity.State // Used to filter READY SubConns.
	picker balancer.Picker
	// Support fallback to resolved backend addresses if there's no response
	// from remote balancer within fallbackTimeout.
	remoteBalancerConnected bool
	serverListReceived bool
	inFallback bool
	// resolvedBackendAddrs is resolvedAddrs minus remote balancers. It's set
	// when resolved address updates are received, and read in the goroutine
	// handling fallback.
	resolvedBackendAddrs []resolver.Address
	}

	// regeneratePicker takes a snapshot of the balancer, and generates a picker from
	// it. The picker
	// - always returns ErrTransientFailure if the balancer is in TransientFailure,
	// - does two layer roundrobin pick otherwise.
	// Caller must hold lb.mu.
	func (lb *lbBalancer) regeneratePicker(resetDrop bool) {
	if lb.state == connectivity.TransientFailure {
	lb.picker = &errPicker{err: balancer.ErrTransientFailure}
	return
	}

	if lb.state == connectivity.Connecting {
	lb.picker = &errPicker{err: balancer.ErrNoSubConnAvailable}
	return
	}

	var readySCs []balancer.SubConn
	if lb.usePickFirst {
	for _, sc := range lb.subConns {
	readySCs = append(readySCs, sc)
	break
	}
	} else {
	for _, a := range lb.backendAddrsWithoutMetadata {
	if sc, ok := lb.subConns[a]; ok {
	if st, ok := lb.scStates[sc]; ok && st == connectivity.Ready {
	readySCs = append(readySCs, sc)
	}
	}
	}
	}

	if len(readySCs) <= 0 {
	// If there's no ready SubConns, always re-pick. This is to avoid drops
	// unless at least one SubConn is ready. Otherwise we may drop more
	// often than want because of drops + re-picks(which become re-drops).
	//
	// This doesn't seem to be necessary after the connecting check above.
	// Kept for safety.
	lb.picker = &errPicker{err: balancer.ErrNoSubConnAvailable}
	return
	}
	if lb.inFallback {
	lb.picker = newRRPicker(readySCs)
	return
	}
	if resetDrop {
	lb.picker = newLBPicker(lb.fullServerList, readySCs, lb.clientStats)
	return
	}
	prevLBPicker, ok := lb.picker.(*lbPicker)
	if !ok {
	lb.picker = newLBPicker(lb.fullServerList, readySCs, lb.clientStats)
	return
	}
	prevLBPicker.updateReadySCs(readySCs)
	}

	// aggregateSubConnStats calculate the aggregated state of SubConns in
	// lb.SubConns. These SubConns are subconns in use (when switching between
	// fallback and grpclb). lb.scState contains states for all SubConns, including
	// those in cache (SubConns are cached for 10 seconds after remove).
	//
	// The aggregated state is:
	// - If at least one SubConn in Ready, the aggregated state is Ready;
	// - Else if at least one SubConn in Connecting, the aggregated state is Connecting;
	// - Else the aggregated state is TransientFailure.
	func (lb *lbBalancer) aggregateSubConnStates() connectivity.State {
	var numConnecting uint64

	for _, sc := range lb.subConns {
	if state, ok := lb.scStates[sc]; ok {
	switch state {
	case connectivity.Ready:
	return connectivity.Ready
	case connectivity.Connecting:
	numConnecting++
	}
	}
	}
	if numConnecting > 0 {
	return connectivity.Connecting
	}
	return connectivity.TransientFailure
	}

	func (lb *lbBalancer) UpdateSubConnState(sc balancer.SubConn, scs balancer.SubConnState) {
	s := scs.ConnectivityState
	if logger.V(2) {
	logger.Infof("lbBalancer: handle SubConn state change: %p, %v", sc, s)
	}
	lb.mu.Lock()
	defer lb.mu.Unlock()

	oldS, ok := lb.scStates[sc]
	if !ok {
	if logger.V(2) {
	logger.Infof("lbBalancer: got state changes for an unknown SubConn: %p, %v", sc, s)
	}
	return
	}
	lb.scStates[sc] = s
	switch s {
	case connectivity.Idle:
	sc.Connect()
	case connectivity.Shutdown:
	// When an address was removed by resolver, b called RemoveSubConn but
	// kept the sc's state in scStates. Remove state for this sc here.
	delete(lb.scStates, sc)
	}
	// Force regenerate picker if
	// - this sc became ready from not-ready
	// - this sc became not-ready from ready
	lb.updateStateAndPicker((oldS == connectivity.Ready) != (s == connectivity.Ready), false)

	// Enter fallback when the aggregated state is not Ready and the connection
	// to remote balancer is lost.
	if lb.state != connectivity.Ready {
	if !lb.inFallback && !lb.remoteBalancerConnected {
	// Enter fallback.
	lb.refreshSubConns(lb.resolvedBackendAddrs, true, lb.usePickFirst)
	}
	}
	}

	// updateStateAndPicker re-calculate the aggregated state, and regenerate picker
	// if overall state is changed.
	//
	// If forceRegeneratePicker is true, picker will be regenerated.
	func (lb *lbBalancer) updateStateAndPicker(forceRegeneratePicker bool, resetDrop bool) {
	oldAggrState := lb.state
	lb.state = lb.aggregateSubConnStates()
	// Regenerate picker when one of the following happens:
	// - caller wants to regenerate
	// - the aggregated state changed
	if forceRegeneratePicker \|\| (lb.state != oldAggrState) {
	lb.regeneratePicker(resetDrop)
	}

	lb.cc.UpdateState(balancer.State{ConnectivityState: lb.state, Picker: lb.picker})
	}

	// fallbackToBackendsAfter blocks for fallbackTimeout and falls back to use
	// resolved backends (backends received from resolver, not from remote balancer)
	// if no connection to remote balancers was successful.
	func (lb *lbBalancer) fallbackToBackendsAfter(fallbackTimeout time.Duration) {
	timer := time.NewTimer(fallbackTimeout)
	defer timer.Stop()
	select {
	case <-timer.C:
	case <-lb.doneCh:
	return
	}
	lb.mu.Lock()
	if lb.inFallback \|\| lb.serverListReceived {
	lb.mu.Unlock()
	return
	}
	// Enter fallback.
	lb.refreshSubConns(lb.resolvedBackendAddrs, true, lb.usePickFirst)
	lb.mu.Unlock()
	}

	func (lb lbBalancer) handleServiceConfig(gc grpclbServiceConfig) {
	lb.mu.Lock()
	defer lb.mu.Unlock()

	newUsePickFirst := childIsPickFirst(gc)
	if lb.usePickFirst == newUsePickFirst {
	return
	}
	if logger.V(2) {
	logger.Infof("lbBalancer: switching mode, new usePickFirst: %+v", newUsePickFirst)
	}
	lb.refreshSubConns(lb.backendAddrs, lb.inFallback, newUsePickFirst)
	}

	func (lb *lbBalancer) ResolverError(error) {
	// Ignore resolver errors. GRPCLB is not selected unless the resolver
	// works at least once.
	}

	func (lb *lbBalancer) UpdateClientConnState(ccs balancer.ClientConnState) error {
	if logger.V(2) {
	logger.Infof("lbBalancer: UpdateClientConnState: %+v", ccs)
	}
	gc, _ := ccs.BalancerConfig.(*grpclbServiceConfig)
	lb.handleServiceConfig(gc)

	addrs := ccs.ResolverState.Addresses

	var remoteBalancerAddrs, backendAddrs []resolver.Address
	for _, a := range addrs {
	if a.Type == resolver.GRPCLB {
	a.Type = resolver.Backend
	remoteBalancerAddrs = append(remoteBalancerAddrs, a)
	} else {
	backendAddrs = append(backendAddrs, a)
	}
	}
	if sd := grpclbstate.Get(ccs.ResolverState); sd != nil {
	// Override any balancer addresses provided via
	// ccs.ResolverState.Addresses.
	remoteBalancerAddrs = sd.BalancerAddresses
	}

	if len(backendAddrs)+len(remoteBalancerAddrs) == 0 {
	// There should be at least one address, either grpclb server or
	// fallback. Empty address is not valid.
	return balancer.ErrBadResolverState
	}

	if len(remoteBalancerAddrs) == 0 {
	if lb.ccRemoteLB != nil {
	lb.ccRemoteLB.close()
	lb.ccRemoteLB = nil
	}
	} else if lb.ccRemoteLB == nil {
	// First time receiving resolved addresses, create a cc to remote
	// balancers.
	lb.newRemoteBalancerCCWrapper()
	// Start the fallback goroutine.
	go lb.fallbackToBackendsAfter(lb.fallbackTimeout)
	}

	if lb.ccRemoteLB != nil {
	// cc to remote balancers uses lb.manualResolver. Send the updated remote
	// balancer addresses to it through manualResolver.
	lb.manualResolver.UpdateState(resolver.State{Addresses: remoteBalancerAddrs})
	}

	lb.mu.Lock()
	lb.resolvedBackendAddrs = backendAddrs
	if len(remoteBalancerAddrs) == 0 \|\| lb.inFallback {
	// If there's no remote balancer address in ClientConn update, grpclb
	// enters fallback mode immediately.
	//
	// If a new update is received while grpclb is in fallback, update the
	// list of backends being used to the new fallback backends.
	lb.refreshSubConns(lb.resolvedBackendAddrs, true, lb.usePickFirst)
	}
	lb.mu.Unlock()
	return nil
	}

	func (lb *lbBalancer) Close() {
	select {
	case <-lb.doneCh:
	return
	default:
	}
	close(lb.doneCh)
	if lb.ccRemoteLB != nil {
	lb.ccRemoteLB.close()
	}
	lb.cc.close()
	}