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cluster.go
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cluster.go
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package redis
import (
"context"
"crypto/tls"
"fmt"
"math"
"net"
"runtime"
"sort"
"sync"
"sync/atomic"
"time"
"github.com/go-redis/redis/v8/internal"
"github.com/go-redis/redis/v8/internal/hashtag"
"github.com/go-redis/redis/v8/internal/pool"
"github.com/go-redis/redis/v8/internal/proto"
"golang.org/x/exp/rand"
)
var errClusterNoNodes = fmt.Errorf("redis: cluster has no nodes")
// ClusterOptions are used to configure a cluster client and should be
// passed to NewClusterClient.
type ClusterOptions struct {
// A seed list of host:port addresses of cluster nodes.
Addrs []string
// NewClient creates a cluster node client with provided name and options.
NewClient func(opt *Options) *Client
// The maximum number of retries before giving up. Command is retried
// on network errors and MOVED/ASK redirects.
// Default is 3 retries.
MaxRedirects int
// Enables read-only commands on slave nodes.
ReadOnly bool
// Allows routing read-only commands to the closest master or slave node.
// It automatically enables ReadOnly.
RouteByLatency bool
// Allows routing read-only commands to the random master or slave node.
// It automatically enables ReadOnly.
RouteRandomly bool
// Optional function that returns cluster slots information.
// It is useful to manually create cluster of standalone Redis servers
// and load-balance read/write operations between master and slaves.
// It can use service like ZooKeeper to maintain configuration information
// and Cluster.ReloadState to manually trigger state reloading.
ClusterSlots func(context.Context) ([]ClusterSlot, error)
// Following options are copied from Options struct.
Dialer func(ctx context.Context, network, addr string) (net.Conn, error)
OnConnect func(ctx context.Context, cn *Conn) error
Username string
Password string
MaxRetries int
MinRetryBackoff time.Duration
MaxRetryBackoff time.Duration
DialTimeout time.Duration
ReadTimeout time.Duration
WriteTimeout time.Duration
// PoolSize applies per cluster node and not for the whole cluster.
PoolSize int
MinIdleConns int
MaxConnAge time.Duration
PoolTimeout time.Duration
IdleTimeout time.Duration
IdleCheckFrequency time.Duration
TLSConfig *tls.Config
}
func (opt *ClusterOptions) init() {
if opt.MaxRedirects == -1 {
opt.MaxRedirects = 0
} else if opt.MaxRedirects == 0 {
opt.MaxRedirects = 3
}
if (opt.RouteByLatency || opt.RouteRandomly) && opt.ClusterSlots == nil {
opt.ReadOnly = true
}
if opt.PoolSize == 0 {
opt.PoolSize = 5 * runtime.NumCPU()
}
switch opt.ReadTimeout {
case -1:
opt.ReadTimeout = 0
case 0:
opt.ReadTimeout = 3 * time.Second
}
switch opt.WriteTimeout {
case -1:
opt.WriteTimeout = 0
case 0:
opt.WriteTimeout = opt.ReadTimeout
}
if opt.MaxRetries == 0 {
opt.MaxRetries = -1
}
switch opt.MinRetryBackoff {
case -1:
opt.MinRetryBackoff = 0
case 0:
opt.MinRetryBackoff = 8 * time.Millisecond
}
switch opt.MaxRetryBackoff {
case -1:
opt.MaxRetryBackoff = 0
case 0:
opt.MaxRetryBackoff = 512 * time.Millisecond
}
if opt.NewClient == nil {
opt.NewClient = NewClient
}
}
func (opt *ClusterOptions) clientOptions() *Options {
const disableIdleCheck = -1
return &Options{
Dialer: opt.Dialer,
OnConnect: opt.OnConnect,
Username: opt.Username,
Password: opt.Password,
MaxRetries: opt.MaxRetries,
MinRetryBackoff: opt.MinRetryBackoff,
MaxRetryBackoff: opt.MaxRetryBackoff,
DialTimeout: opt.DialTimeout,
ReadTimeout: opt.ReadTimeout,
WriteTimeout: opt.WriteTimeout,
PoolSize: opt.PoolSize,
MinIdleConns: opt.MinIdleConns,
MaxConnAge: opt.MaxConnAge,
PoolTimeout: opt.PoolTimeout,
IdleTimeout: opt.IdleTimeout,
IdleCheckFrequency: disableIdleCheck,
readOnly: opt.ReadOnly,
TLSConfig: opt.TLSConfig,
}
}
//------------------------------------------------------------------------------
type clusterNode struct {
Client *Client
latency uint32 // atomic
generation uint32 // atomic
failing uint32 // atomic
}
func newClusterNode(clOpt *ClusterOptions, addr string) *clusterNode {
opt := clOpt.clientOptions()
opt.Addr = addr
node := clusterNode{
Client: clOpt.NewClient(opt),
}
node.latency = math.MaxUint32
if clOpt.RouteByLatency {
go node.updateLatency()
}
return &node
}
func (n *clusterNode) String() string {
return n.Client.String()
}
func (n *clusterNode) Close() error {
return n.Client.Close()
}
func (n *clusterNode) updateLatency() {
const numProbe = 10
var dur uint64
for i := 0; i < numProbe; i++ {
time.Sleep(time.Duration(10+rand.Intn(10)) * time.Millisecond)
start := time.Now()
n.Client.Ping(context.TODO())
dur += uint64(time.Since(start) / time.Microsecond)
}
latency := float64(dur) / float64(numProbe)
atomic.StoreUint32(&n.latency, uint32(latency+0.5))
}
func (n *clusterNode) Latency() time.Duration {
latency := atomic.LoadUint32(&n.latency)
return time.Duration(latency) * time.Microsecond
}
func (n *clusterNode) MarkAsFailing() {
atomic.StoreUint32(&n.failing, uint32(time.Now().Unix()))
}
func (n *clusterNode) Failing() bool {
const timeout = 15 // 15 seconds
failing := atomic.LoadUint32(&n.failing)
if failing == 0 {
return false
}
if time.Now().Unix()-int64(failing) < timeout {
return true
}
atomic.StoreUint32(&n.failing, 0)
return false
}
func (n *clusterNode) Generation() uint32 {
return atomic.LoadUint32(&n.generation)
}
func (n *clusterNode) SetGeneration(gen uint32) {
for {
v := atomic.LoadUint32(&n.generation)
if gen < v || atomic.CompareAndSwapUint32(&n.generation, v, gen) {
break
}
}
}
//------------------------------------------------------------------------------
type clusterNodes struct {
opt *ClusterOptions
mu sync.RWMutex
addrs []string
nodes map[string]*clusterNode
activeAddrs []string
closed bool
_generation uint32 // atomic
}
func newClusterNodes(opt *ClusterOptions) *clusterNodes {
return &clusterNodes{
opt: opt,
addrs: opt.Addrs,
nodes: make(map[string]*clusterNode),
}
}
func (c *clusterNodes) Close() error {
c.mu.Lock()
defer c.mu.Unlock()
if c.closed {
return nil
}
c.closed = true
var firstErr error
for _, node := range c.nodes {
if err := node.Client.Close(); err != nil && firstErr == nil {
firstErr = err
}
}
c.nodes = nil
c.activeAddrs = nil
return firstErr
}
func (c *clusterNodes) Addrs() ([]string, error) {
var addrs []string
c.mu.RLock()
closed := c.closed
if !closed {
if len(c.activeAddrs) > 0 {
addrs = c.activeAddrs
} else {
addrs = c.addrs
}
}
c.mu.RUnlock()
if closed {
return nil, pool.ErrClosed
}
if len(addrs) == 0 {
return nil, errClusterNoNodes
}
return addrs, nil
}
func (c *clusterNodes) NextGeneration() uint32 {
return atomic.AddUint32(&c._generation, 1)
}
// GC removes unused nodes.
func (c *clusterNodes) GC(generation uint32) {
//nolint:prealloc
var collected []*clusterNode
c.mu.Lock()
c.activeAddrs = c.activeAddrs[:0]
for addr, node := range c.nodes {
if node.Generation() >= generation {
c.activeAddrs = append(c.activeAddrs, addr)
if c.opt.RouteByLatency {
go node.updateLatency()
}
continue
}
delete(c.nodes, addr)
collected = append(collected, node)
}
c.mu.Unlock()
for _, node := range collected {
_ = node.Client.Close()
}
}
func (c *clusterNodes) Get(addr string) (*clusterNode, error) {
node, err := c.get(addr)
if err != nil {
return nil, err
}
if node != nil {
return node, nil
}
c.mu.Lock()
defer c.mu.Unlock()
if c.closed {
return nil, pool.ErrClosed
}
node, ok := c.nodes[addr]
if ok {
return node, nil
}
node = newClusterNode(c.opt, addr)
c.addrs = appendIfNotExists(c.addrs, addr)
c.nodes[addr] = node
return node, nil
}
func (c *clusterNodes) get(addr string) (*clusterNode, error) {
var node *clusterNode
var err error
c.mu.RLock()
if c.closed {
err = pool.ErrClosed
} else {
node = c.nodes[addr]
}
c.mu.RUnlock()
return node, err
}
func (c *clusterNodes) All() ([]*clusterNode, error) {
c.mu.RLock()
defer c.mu.RUnlock()
if c.closed {
return nil, pool.ErrClosed
}
cp := make([]*clusterNode, 0, len(c.nodes))
for _, node := range c.nodes {
cp = append(cp, node)
}
return cp, nil
}
func (c *clusterNodes) Random() (*clusterNode, error) {
addrs, err := c.Addrs()
if err != nil {
return nil, err
}
n := rand.Intn(len(addrs))
return c.Get(addrs[n])
}
//------------------------------------------------------------------------------
type clusterSlot struct {
start, end int
nodes []*clusterNode
}
type clusterSlotSlice []*clusterSlot
func (p clusterSlotSlice) Len() int {
return len(p)
}
func (p clusterSlotSlice) Less(i, j int) bool {
return p[i].start < p[j].start
}
func (p clusterSlotSlice) Swap(i, j int) {
p[i], p[j] = p[j], p[i]
}
type clusterState struct {
nodes *clusterNodes
Masters []*clusterNode
Slaves []*clusterNode
slots []*clusterSlot
generation uint32
createdAt time.Time
}
func newClusterState(
nodes *clusterNodes, slots []ClusterSlot, origin string,
) (*clusterState, error) {
c := clusterState{
nodes: nodes,
slots: make([]*clusterSlot, 0, len(slots)),
generation: nodes.NextGeneration(),
createdAt: time.Now(),
}
originHost, _, _ := net.SplitHostPort(origin)
isLoopbackOrigin := isLoopback(originHost)
for _, slot := range slots {
var nodes []*clusterNode
for i, slotNode := range slot.Nodes {
addr := slotNode.Addr
if !isLoopbackOrigin {
addr = replaceLoopbackHost(addr, originHost)
}
node, err := c.nodes.Get(addr)
if err != nil {
return nil, err
}
node.SetGeneration(c.generation)
nodes = append(nodes, node)
if i == 0 {
c.Masters = appendUniqueNode(c.Masters, node)
} else {
c.Slaves = appendUniqueNode(c.Slaves, node)
}
}
c.slots = append(c.slots, &clusterSlot{
start: slot.Start,
end: slot.End,
nodes: nodes,
})
}
sort.Sort(clusterSlotSlice(c.slots))
time.AfterFunc(time.Minute, func() {
nodes.GC(c.generation)
})
return &c, nil
}
func replaceLoopbackHost(nodeAddr, originHost string) string {
nodeHost, nodePort, err := net.SplitHostPort(nodeAddr)
if err != nil {
return nodeAddr
}
nodeIP := net.ParseIP(nodeHost)
if nodeIP == nil {
return nodeAddr
}
if !nodeIP.IsLoopback() {
return nodeAddr
}
// Use origin host which is not loopback and node port.
return net.JoinHostPort(originHost, nodePort)
}
func isLoopback(host string) bool {
ip := net.ParseIP(host)
if ip == nil {
return true
}
return ip.IsLoopback()
}
func (c *clusterState) slotMasterNode(slot int) (*clusterNode, error) {
nodes := c.slotNodes(slot)
if len(nodes) > 0 {
return nodes[0], nil
}
return c.nodes.Random()
}
func (c *clusterState) slotSlaveNode(slot int) (*clusterNode, error) {
nodes := c.slotNodes(slot)
switch len(nodes) {
case 0:
return c.nodes.Random()
case 1:
return nodes[0], nil
case 2:
if slave := nodes[1]; !slave.Failing() {
return slave, nil
}
return nodes[0], nil
default:
var slave *clusterNode
for i := 0; i < 10; i++ {
n := rand.Intn(len(nodes)-1) + 1
slave = nodes[n]
if !slave.Failing() {
return slave, nil
}
}
// All slaves are loading - use master.
return nodes[0], nil
}
}
func (c *clusterState) slotClosestNode(slot int) (*clusterNode, error) {
nodes := c.slotNodes(slot)
if len(nodes) == 0 {
return c.nodes.Random()
}
var node *clusterNode
for _, n := range nodes {
if n.Failing() {
continue
}
if node == nil || n.Latency() < node.Latency() {
node = n
}
}
if node != nil {
return node, nil
}
// If all nodes are failing - return random node
return c.nodes.Random()
}
func (c *clusterState) slotRandomNode(slot int) (*clusterNode, error) {
nodes := c.slotNodes(slot)
if len(nodes) == 0 {
return c.nodes.Random()
}
n := rand.Intn(len(nodes))
return nodes[n], nil
}
func (c *clusterState) slotNodes(slot int) []*clusterNode {
i := sort.Search(len(c.slots), func(i int) bool {
return c.slots[i].end >= slot
})
if i >= len(c.slots) {
return nil
}
x := c.slots[i]
if slot >= x.start && slot <= x.end {
return x.nodes
}
return nil
}
//------------------------------------------------------------------------------
type clusterStateHolder struct {
load func(ctx context.Context) (*clusterState, error)
state atomic.Value
reloading uint32 // atomic
}
func newClusterStateHolder(fn func(ctx context.Context) (*clusterState, error)) *clusterStateHolder {
return &clusterStateHolder{
load: fn,
}
}
func (c *clusterStateHolder) Reload(ctx context.Context) (*clusterState, error) {
state, err := c.load(ctx)
if err != nil {
return nil, err
}
c.state.Store(state)
return state, nil
}
func (c *clusterStateHolder) LazyReload(ctx context.Context) {
if !atomic.CompareAndSwapUint32(&c.reloading, 0, 1) {
return
}
go func() {
defer atomic.StoreUint32(&c.reloading, 0)
_, err := c.Reload(ctx)
if err != nil {
return
}
time.Sleep(200 * time.Millisecond)
}()
}
func (c *clusterStateHolder) Get(ctx context.Context) (*clusterState, error) {
v := c.state.Load()
if v != nil {
state := v.(*clusterState)
if time.Since(state.createdAt) > 10*time.Second {
c.LazyReload(ctx)
}
return state, nil
}
return c.Reload(ctx)
}
func (c *clusterStateHolder) ReloadOrGet(ctx context.Context) (*clusterState, error) {
state, err := c.Reload(ctx)
if err == nil {
return state, nil
}
return c.Get(ctx)
}
//------------------------------------------------------------------------------
type clusterClient struct {
opt *ClusterOptions
nodes *clusterNodes
state *clusterStateHolder //nolint:structcheck
cmdsInfoCache *cmdsInfoCache //nolint:structcheck
}
// ClusterClient is a Redis Cluster client representing a pool of zero
// or more underlying connections. It's safe for concurrent use by
// multiple goroutines.
type ClusterClient struct {
*clusterClient
cmdable
hooks
ctx context.Context
}
// NewClusterClient returns a Redis Cluster client as described in
// http://redis.io/topics/cluster-spec.
func NewClusterClient(opt *ClusterOptions) *ClusterClient {
opt.init()
c := &ClusterClient{
clusterClient: &clusterClient{
opt: opt,
nodes: newClusterNodes(opt),
},
ctx: context.Background(),
}
c.state = newClusterStateHolder(c.loadState)
c.cmdsInfoCache = newCmdsInfoCache(c.cmdsInfo)
c.cmdable = c.Process
if opt.IdleCheckFrequency > 0 {
go c.reaper(opt.IdleCheckFrequency)
}
return c
}
func (c *ClusterClient) Context() context.Context {
return c.ctx
}
func (c *ClusterClient) WithContext(ctx context.Context) *ClusterClient {
if ctx == nil {
panic("nil context")
}
clone := *c
clone.cmdable = clone.Process
clone.hooks.lock()
clone.ctx = ctx
return &clone
}
// Options returns read-only Options that were used to create the client.
func (c *ClusterClient) Options() *ClusterOptions {
return c.opt
}
// ReloadState reloads cluster state. If available it calls ClusterSlots func
// to get cluster slots information.
func (c *ClusterClient) ReloadState(ctx context.Context) {
c.state.LazyReload(ctx)
}
// Close closes the cluster client, releasing any open resources.
//
// It is rare to Close a ClusterClient, as the ClusterClient is meant
// to be long-lived and shared between many goroutines.
func (c *ClusterClient) Close() error {
return c.nodes.Close()
}
// Do creates a Cmd from the args and processes the cmd.
func (c *ClusterClient) Do(ctx context.Context, args ...interface{}) *Cmd {
cmd := NewCmd(ctx, args...)
_ = c.Process(ctx, cmd)
return cmd
}
func (c *ClusterClient) Process(ctx context.Context, cmd Cmder) error {
return c.hooks.process(ctx, cmd, c.process)
}
func (c *ClusterClient) process(ctx context.Context, cmd Cmder) error {
cmdInfo := c.cmdInfo(cmd.Name())
slot := c.cmdSlot(cmd)
var node *clusterNode
var ask bool
var lastErr error
for attempt := 0; attempt <= c.opt.MaxRedirects; attempt++ {
if attempt > 0 {
if err := internal.Sleep(ctx, c.retryBackoff(attempt)); err != nil {
return err
}
}
if node == nil {
var err error
node, err = c.cmdNode(ctx, cmdInfo, slot)
if err != nil {
return err
}
}
if ask {
pipe := node.Client.Pipeline()
_ = pipe.Process(ctx, NewCmd(ctx, "asking"))
_ = pipe.Process(ctx, cmd)
_, lastErr = pipe.Exec(ctx)
_ = pipe.Close()
ask = false
} else {
lastErr = node.Client.Process(ctx, cmd)
}
// If there is no error - we are done.
if lastErr == nil {
return nil
}
if isReadOnly := isReadOnlyError(lastErr); isReadOnly || lastErr == pool.ErrClosed {
if isReadOnly {
c.state.LazyReload(ctx)
}
node = nil
continue
}
// If slave is loading - pick another node.
if c.opt.ReadOnly && isLoadingError(lastErr) {
node.MarkAsFailing()
node = nil
continue
}
var moved bool
var addr string
moved, ask, addr = isMovedError(lastErr)
if moved || ask {
var err error
node, err = c.nodes.Get(addr)
if err != nil {
return err
}
continue
}
if shouldRetry(lastErr, cmd.readTimeout() == nil) {
// First retry the same node.
if attempt == 0 {
continue
}
// Second try another node.
node.MarkAsFailing()
node = nil
continue
}
return lastErr
}
return lastErr
}
// ForEachMaster concurrently calls the fn on each master node in the cluster.
// It returns the first error if any.
func (c *ClusterClient) ForEachMaster(
ctx context.Context,
fn func(ctx context.Context, client *Client) error,
) error {
state, err := c.state.ReloadOrGet(ctx)
if err != nil {
return err
}
var wg sync.WaitGroup
errCh := make(chan error, 1)
for _, master := range state.Masters {
wg.Add(1)
go func(node *clusterNode) {
defer wg.Done()
err := fn(ctx, node.Client)
if err != nil {
select {
case errCh <- err:
default:
}
}
}(master)
}
wg.Wait()
select {
case err := <-errCh:
return err
default:
return nil
}
}
// ForEachSlave concurrently calls the fn on each slave node in the cluster.
// It returns the first error if any.
func (c *ClusterClient) ForEachSlave(
ctx context.Context,
fn func(ctx context.Context, client *Client) error,
) error {
state, err := c.state.ReloadOrGet(ctx)
if err != nil {
return err
}
var wg sync.WaitGroup
errCh := make(chan error, 1)
for _, slave := range state.Slaves {
wg.Add(1)
go func(node *clusterNode) {
defer wg.Done()
err := fn(ctx, node.Client)
if err != nil {
select {
case errCh <- err:
default:
}
}
}(slave)
}
wg.Wait()
select {
case err := <-errCh:
return err
default:
return nil
}
}
// ForEachShard concurrently calls the fn on each known node in the cluster.
// It returns the first error if any.
func (c *ClusterClient) ForEachShard(
ctx context.Context,
fn func(ctx context.Context, client *Client) error,
) error {
state, err := c.state.ReloadOrGet(ctx)
if err != nil {
return err
}
var wg sync.WaitGroup
errCh := make(chan error, 1)
worker := func(node *clusterNode) {
defer wg.Done()
err := fn(ctx, node.Client)
if err != nil {
select {
case errCh <- err:
default:
}
}
}
for _, node := range state.Masters {
wg.Add(1)
go worker(node)
}
for _, node := range state.Slaves {
wg.Add(1)
go worker(node)
}
wg.Wait()
select {
case err := <-errCh:
return err
default:
return nil
}
}
// PoolStats returns accumulated connection pool stats.
func (c *ClusterClient) PoolStats() *PoolStats {
var acc PoolStats
state, _ := c.state.Get(context.TODO())
if state == nil {
return &acc
}
for _, node := range state.Masters {
s := node.Client.connPool.Stats()
acc.Hits += s.Hits
acc.Misses += s.Misses
acc.Timeouts += s.Timeouts
acc.TotalConns += s.TotalConns
acc.IdleConns += s.IdleConns
acc.StaleConns += s.StaleConns
}
for _, node := range state.Slaves {
s := node.Client.connPool.Stats()
acc.Hits += s.Hits
acc.Misses += s.Misses
acc.Timeouts += s.Timeouts
acc.TotalConns += s.TotalConns
acc.IdleConns += s.IdleConns
acc.StaleConns += s.StaleConns
}
return &acc
}
func (c *ClusterClient) loadState(ctx context.Context) (*clusterState, error) {
if c.opt.ClusterSlots != nil {
slots, err := c.opt.ClusterSlots(ctx)
if err != nil {
return nil, err
}
return newClusterState(c.nodes, slots, "")
}
addrs, err := c.nodes.Addrs()
if err != nil {
return nil, err
}