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client.go
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client.go
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/*
* Copyright 2020 The Dragonfly 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 rpc
import (
"context"
"fmt"
"sync"
"time"
"github.com/pkg/errors"
"github.com/serialx/hashring"
"google.golang.org/grpc"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/credentials/insecure"
"google.golang.org/grpc/keepalive"
"google.golang.org/grpc/status"
"k8s.io/apimachinery/pkg/util/sets"
"d7y.io/dragonfly/v2/internal/dferrors"
logger "d7y.io/dragonfly/v2/internal/dflog"
"d7y.io/dragonfly/v2/pkg/dfnet"
"d7y.io/dragonfly/v2/pkg/rpc/base"
)
const (
// defaultGcConnTimeout specifies the timeout for clientConn gc.
// If the actual execution time exceeds this threshold, a warning will be thrown.
defaultGcConnTimeout = 1.0 * time.Second
defaultGcConnInterval = 60 * time.Second
defaultConnExpireTime = 2 * time.Minute
defaultDialTimeout = 10 * time.Second
)
type Closer interface {
Close() error
}
// TODO Perfect state
type ConnStatus string
type Connection struct {
ctx context.Context
cancelFun context.CancelFunc
rwMutex sync.RWMutex
dialOpts []grpc.DialOption
key2NodeMap sync.Map // key -> node(many to one)
node2ClientMap sync.Map // node -> clientConn(one to one)
accessNodeMap sync.Map // clientConn access time
connExpireTime time.Duration
gcConnTimeout time.Duration
gcConnInterval time.Duration
dialTimeout time.Duration
name string
hashRing *hashring.HashRing // server hash ring
serverNodes []dfnet.NetAddr
status ConnStatus
}
func newDefaultConnection(ctx context.Context) *Connection {
childCtx, cancel := context.WithCancel(ctx)
return &Connection{
ctx: childCtx,
cancelFun: cancel,
dialOpts: defaultClientOpts,
connExpireTime: defaultConnExpireTime,
gcConnTimeout: defaultGcConnTimeout,
gcConnInterval: defaultGcConnInterval,
dialTimeout: defaultDialTimeout,
}
}
var defaultClientOpts = []grpc.DialOption{
grpc.FailOnNonTempDialError(true),
grpc.WithBlock(),
grpc.WithDisableServiceConfig(),
grpc.WithInitialConnWindowSize(8 * 1024 * 1024),
grpc.WithTransportCredentials(insecure.NewCredentials()),
grpc.WithKeepaliveParams(keepalive.ClientParameters{
Time: 1 * time.Minute,
Timeout: 10 * time.Second,
}),
grpc.WithStreamInterceptor(streamClientInterceptor),
grpc.WithUnaryInterceptor(unaryClientInterceptor),
}
type ConnOption interface {
apply(*Connection)
}
type funcConnOption struct {
f func(*Connection)
}
func (fdo *funcConnOption) apply(conn *Connection) {
fdo.f(conn)
}
func newFuncConnOption(f func(option *Connection)) *funcConnOption {
return &funcConnOption{
f: f,
}
}
func WithConnExpireTime(duration time.Duration) ConnOption {
return newFuncConnOption(func(conn *Connection) {
conn.connExpireTime = duration
})
}
func WithDialOption(opts []grpc.DialOption) ConnOption {
return newFuncConnOption(func(conn *Connection) {
conn.dialOpts = append(defaultClientOpts, opts...)
})
}
func WithGcConnTimeout(gcConnTimeout time.Duration) ConnOption {
return newFuncConnOption(func(conn *Connection) {
conn.gcConnTimeout = gcConnTimeout
})
}
func WithGcConnInterval(gcConnInterval time.Duration) ConnOption {
return newFuncConnOption(func(conn *Connection) {
conn.gcConnInterval = gcConnInterval
})
}
func WithDialTimeout(dialTimeout time.Duration) ConnOption {
return newFuncConnOption(func(conn *Connection) {
conn.dialTimeout = dialTimeout
})
}
func NewConnection(ctx context.Context, name string, addrs []dfnet.NetAddr, connOpts []ConnOption) *Connection {
conn := newDefaultConnection(ctx)
conn.name = name
addresses := make([]string, 0, len(addrs))
for _, addr := range addrs {
addresses = append(addresses, addr.GetEndpoint())
}
conn.hashRing = hashring.New(addresses)
conn.serverNodes = addrs
for _, opt := range connOpts {
opt.apply(conn)
}
go conn.startGC()
return conn
}
func (conn *Connection) CorrectKey2NodeRelation(tmpHashKey, realHashKey string) {
if tmpHashKey == realHashKey {
return
}
conn.rwMutex.Lock()
defer conn.rwMutex.Unlock()
key, _ := conn.key2NodeMap.Load(tmpHashKey)
serverNode := key.(string)
conn.key2NodeMap.Store(realHashKey, serverNode)
conn.key2NodeMap.Delete(tmpHashKey)
}
func (conn *Connection) UpdateAccessNodeMapByHashKey(key string) {
node, ok := conn.key2NodeMap.Load(key)
if ok {
conn.accessNodeMap.Store(node, time.Now())
_, ok := conn.node2ClientMap.Load(node)
if ok {
logger.GrpcLogger.With("conn", conn.name).Debugf("successfully update server node %s access time for hashKey %s", node, key)
} else {
logger.GrpcLogger.With("conn", conn.name).Warnf("successfully update server node %s access time for hashKey %s,"+
"but cannot found client conn in node2ClientMap", node, key)
}
} else {
logger.GrpcLogger.With("conn", conn.name).Errorf("update access node map failed, hash key (%s) not found in key2NodeMap", key)
}
}
func (conn *Connection) UpdateAccessNodeMapByServerNode(serverNode string) {
conn.accessNodeMap.Store(serverNode, time.Now())
}
func (conn *Connection) AddServerNodes(addrs []dfnet.NetAddr) error {
conn.rwMutex.Lock()
defer conn.rwMutex.Unlock()
for _, addr := range addrs {
serverNode := addr.GetEndpoint()
conn.hashRing = conn.hashRing.AddNode(serverNode)
logger.GrpcLogger.With("conn", conn.name).Debugf("success add %s to server node list", addr)
}
return nil
}
// findCandidateClientConn find candidate node client conn other than exclusiveNodes
func (conn *Connection) findCandidateClientConn(key string, exclusiveNodes sets.String) (*candidateClient, error) {
if node, ok := conn.key2NodeMap.Load(key); ok {
candidateNode := node.(string)
if !exclusiveNodes.Has(candidateNode) {
if client, ok := conn.node2ClientMap.Load(node); ok {
return &candidateClient{
node: candidateNode,
Ref: client,
}, nil
}
}
}
ringNodes, ok := conn.hashRing.GetNodes(key, conn.hashRing.Size())
if !ok {
logger.GrpcLogger.Warnf("cannot obtain expected %d server nodes", conn.hashRing.Size())
}
if len(ringNodes) == 0 {
return nil, dferrors.ErrNoCandidateNode
}
candidateNodes := make([]string, 0)
for _, ringNode := range ringNodes {
if !exclusiveNodes.Has(ringNode) {
candidateNodes = append(candidateNodes, ringNode)
}
}
logger.GrpcLogger.With("conn", conn.name).Infof("candidate result for hash key %s: all server node list: %v, exclusiveNodes node list: %v, "+
"candidate node list: %v",
key, ringNodes, exclusiveNodes.List(), candidateNodes)
for _, candidateNode := range candidateNodes {
// Check whether there is a corresponding mapping client in the node2ClientMap
// TODO 下面部分可以直接调用loadOrCreate方法,但是日志没有这么调用打印全
if client, ok := conn.node2ClientMap.Load(candidateNode); ok {
logger.GrpcLogger.With("conn", conn.name).Debugf("hit cache candidateNode %s for hash key %s", candidateNode, key)
return &candidateClient{
node: candidateNode,
Ref: client,
}, nil
}
logger.GrpcLogger.With("conn", conn.name).Debugf("attempt to connect candidateNode %s for hash key %s", candidateNode, key)
clientConn, err := conn.createClient(candidateNode, append(defaultClientOpts, conn.dialOpts...)...)
if err == nil {
logger.GrpcLogger.With("conn", conn.name).Infof("success connect to candidateNode %s for hash key %s", candidateNode, key)
return &candidateClient{
node: candidateNode,
Ref: clientConn,
}, nil
}
logger.GrpcLogger.With("conn", conn.name).Infof("failed to connect candidateNode %s for hash key %s: %v", candidateNode, key, err)
}
return nil, dferrors.ErrNoCandidateNode
}
type candidateClient struct {
node string
Ref interface{}
}
func (conn *Connection) createClient(target string, opts ...grpc.DialOption) (*grpc.ClientConn, error) {
ctx, cancel := context.WithTimeout(context.Background(), conn.dialTimeout)
defer cancel()
return grpc.DialContext(ctx, target, opts...)
}
// GetServerNode
func (conn *Connection) GetServerNode(hashKey string) (string, bool) {
conn.rwMutex.RLock()
defer conn.rwMutex.RUnlock()
node, ok := conn.key2NodeMap.Load(hashKey)
serverNode := node.(string)
if ok {
return serverNode, true
}
return "unknown", false
}
func (conn *Connection) GetClientConnByTarget(node string) (*grpc.ClientConn, error) {
logger.GrpcLogger.With("conn", conn.name).Debugf("start to get client conn by target %s", node)
conn.rwMutex.RLock()
defer conn.rwMutex.RUnlock()
clientConn, err := conn.loadOrCreateClientConnByNode(node)
if err != nil {
return nil, errors.Wrapf(err, "get client conn by conn %s", node)
}
logger.GrpcLogger.With("conn", conn.name).Debugf("successfully get %s client conn", node)
return clientConn, nil
}
func (conn *Connection) loadOrCreateClientConnByNode(node string) (clientConn *grpc.ClientConn, err error) {
defer func() {
if desc := recover(); desc != nil {
err = errors.Errorf("%v", desc)
}
}()
conn.accessNodeMap.Store(node, time.Now())
client, ok := conn.node2ClientMap.Load(node)
if ok {
logger.GrpcLogger.With("conn", conn.name).Debugf("hit cache clientConn associated with node %s", node)
return client.(*grpc.ClientConn), nil
}
logger.GrpcLogger.With("conn", conn.name).Debugf("failed to load clientConn associated with node %s, attempt to create it", node)
clientConn, err = conn.createClient(node, append(defaultClientOpts, conn.dialOpts...)...)
if err == nil {
logger.GrpcLogger.With("conn", conn.name).Infof("success connect to node %s", node)
// bind
conn.node2ClientMap.Store(node, clientConn)
return clientConn, nil
}
return nil, errors.Wrapf(err, "cannot found clientConn associated with node %s and create client conn failed", node)
}
// GetClientConn get conn or bind hashKey to candidate node, don't do the migrate action
// stick whether hash key need already associated with specify node
func (conn *Connection) GetClientConn(hashKey string, stick bool) (clientConn *grpc.ClientConn, err error) {
logger.GrpcLogger.With("conn", conn.name).Debugf("start to get client conn hashKey %s, stick %t", hashKey, stick)
defer func() {
logger.GrpcLogger.With("conn", conn.name).Debugf("get client conn done, hashKey %s, stick %t end: %v", hashKey, stick, err)
}()
conn.rwMutex.RLock()
node, ok := conn.key2NodeMap.Load(hashKey)
if stick && !ok {
conn.rwMutex.RUnlock()
// if request is stateful, hash key must exist in key2NodeMap
return nil, fmt.Errorf("it is a stateful request, but cannot find hash key(%s) in key2NodeMap", hashKey)
}
if ok {
// if exist
serverNode := node.(string)
clientConn, err = conn.loadOrCreateClientConnByNode(serverNode)
conn.rwMutex.RUnlock()
if err != nil {
return nil, err
}
return clientConn, nil
}
logger.GrpcLogger.With("conn", conn.name).Infof("no server node associated with hash key %s was found, start find candidate server", hashKey)
conn.rwMutex.RUnlock()
// if absence
conn.rwMutex.Lock()
defer conn.rwMutex.Unlock()
client, err := conn.findCandidateClientConn(hashKey, sets.NewString())
if err != nil {
return nil, errors.Wrapf(err, "prob candidate client conn for hash key %s", hashKey)
}
conn.key2NodeMap.Store(hashKey, client.node)
conn.node2ClientMap.Store(client.node, client.Ref)
conn.accessNodeMap.Store(client.node, time.Now())
return client.Ref.(*grpc.ClientConn), nil
}
// TryMigrate migrate key to another hash node other than exclusiveNodes
// preNode node before the migration
func (conn *Connection) TryMigrate(key string, cause error, exclusiveNodes []string) (preNode string, err error) {
logger.GrpcLogger.With("conn", conn.name).Infof("start try migrate server node for key %s, cause err: %v", key, cause)
if status.Code(cause) == codes.DeadlineExceeded || status.Code(cause) == codes.Canceled {
logger.GrpcLogger.With("conn", conn.name).Infof("migrate server node for key %s failed, cause err: %v", key, cause)
return "", cause
}
// TODO recover findCandidateClientConn error
if e, ok := cause.(*dferrors.DfError); ok {
if e.Code != base.Code_ResourceLacked {
return "", cause
}
}
currentNode := ""
conn.rwMutex.RLock()
if node, ok := conn.key2NodeMap.Load(key); ok {
currentNode = node.(string)
preNode = currentNode
exclusiveNodes = append(exclusiveNodes, preNode)
}
conn.rwMutex.RUnlock()
conn.rwMutex.Lock()
defer conn.rwMutex.Unlock()
client, err := conn.findCandidateClientConn(key, sets.NewString(exclusiveNodes...))
if err != nil {
return "", errors.Wrapf(err, "find candidate client conn for hash key %s", key)
}
logger.GrpcLogger.With("conn", conn.name).Infof("successfully migrate hash key %s from server node %s to %s", key, currentNode, client.node)
conn.key2NodeMap.Store(key, client.node)
conn.node2ClientMap.Store(client.node, client.Ref)
conn.accessNodeMap.Store(client.node, time.Now())
return
}
func (conn *Connection) Close() error {
conn.rwMutex.Lock()
defer conn.rwMutex.Unlock()
for i := range conn.serverNodes {
serverNode := conn.serverNodes[i].GetEndpoint()
conn.hashRing.RemoveNode(serverNode)
value, ok := conn.node2ClientMap.Load(serverNode)
if ok {
clientCon := value.(*grpc.ClientConn)
err := clientCon.Close()
if err == nil {
conn.node2ClientMap.Delete(serverNode)
} else {
logger.GrpcLogger.With("conn", conn.name).Warnf("failed to close clientConn: %s: %v", serverNode, err)
}
}
// gc hash keys
conn.key2NodeMap.Range(func(key, value interface{}) bool {
if value == serverNode {
conn.key2NodeMap.Delete(key)
logger.GrpcLogger.With("conn", conn.name).Infof("success gc key: %s associated with server node %s", key, serverNode)
}
return true
})
conn.accessNodeMap.Delete(serverNode)
}
conn.cancelFun()
return nil
}
func (conn *Connection) UpdateState(addrs []dfnet.NetAddr) {
var addresses []string
for _, addr := range addrs {
addresses = append(addresses, addr.GetEndpoint())
}
conn.rwMutex.Lock()
defer conn.rwMutex.Unlock()
conn.serverNodes = addrs
conn.hashRing = hashring.New(addresses)
logger.GrpcLogger.Infof("update grpc client addresses %v", addresses)
}
func (conn *Connection) GetState() []dfnet.NetAddr {
return conn.serverNodes
}