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osscluster.go
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osscluster.go
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package redis
import (
"context"
"crypto/tls"
"fmt"
"math"
"net"
"net/url"
"runtime"
"sort"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/redis/go-redis/v9/internal"
"github.com/redis/go-redis/v9/internal/hashtag"
"github.com/redis/go-redis/v9/internal/pool"
"github.com/redis/go-redis/v9/internal/proto"
"github.com/redis/go-redis/v9/internal/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
// ClientName will execute the `CLIENT SETNAME ClientName` command for each conn.
ClientName 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
Protocol int
Username string
Password string
CredentialsProvider func() (username string, password string)
CredentialsProviderContext func(ctx context.Context) (username string, password string, err error)
MaxRetries int
MinRetryBackoff time.Duration
MaxRetryBackoff time.Duration
DialTimeout time.Duration
ReadTimeout time.Duration
WriteTimeout time.Duration
ContextTimeoutEnabled bool
PoolFIFO bool
PoolSize int // applies per cluster node and not for the whole cluster
PoolTimeout time.Duration
MinIdleConns int
MaxIdleConns int
MaxActiveConns int // applies per cluster node and not for the whole cluster
ConnMaxIdleTime time.Duration
ConnMaxLifetime time.Duration
TLSConfig *tls.Config
DisableIndentity bool // Disable set-lib on connect. Default is false.
IdentitySuffix string // Add suffix to client name. Default is empty.
}
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.ReadOnly = true
}
if opt.PoolSize == 0 {
opt.PoolSize = 5 * runtime.GOMAXPROCS(0)
}
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
}
}
// ParseClusterURL parses a URL into ClusterOptions that can be used to connect to Redis.
// The URL must be in the form:
//
// redis://<user>:<password>@<host>:<port>
// or
// rediss://<user>:<password>@<host>:<port>
//
// To add additional addresses, specify the query parameter, "addr" one or more times. e.g:
//
// redis://<user>:<password>@<host>:<port>?addr=<host2>:<port2>&addr=<host3>:<port3>
// or
// rediss://<user>:<password>@<host>:<port>?addr=<host2>:<port2>&addr=<host3>:<port3>
//
// Most Option fields can be set using query parameters, with the following restrictions:
// - field names are mapped using snake-case conversion: to set MaxRetries, use max_retries
// - only scalar type fields are supported (bool, int, time.Duration)
// - for time.Duration fields, values must be a valid input for time.ParseDuration();
// additionally a plain integer as value (i.e. without unit) is interpreted as seconds
// - to disable a duration field, use value less than or equal to 0; to use the default
// value, leave the value blank or remove the parameter
// - only the last value is interpreted if a parameter is given multiple times
// - fields "network", "addr", "username" and "password" can only be set using other
// URL attributes (scheme, host, userinfo, resp.), query parameters using these
// names will be treated as unknown parameters
// - unknown parameter names will result in an error
//
// Example:
//
// redis://user:password@localhost:6789?dial_timeout=3&read_timeout=6s&addr=localhost:6790&addr=localhost:6791
// is equivalent to:
// &ClusterOptions{
// Addr: ["localhost:6789", "localhost:6790", "localhost:6791"]
// DialTimeout: 3 * time.Second, // no time unit = seconds
// ReadTimeout: 6 * time.Second,
// }
func ParseClusterURL(redisURL string) (*ClusterOptions, error) {
o := &ClusterOptions{}
u, err := url.Parse(redisURL)
if err != nil {
return nil, err
}
// add base URL to the array of addresses
// more addresses may be added through the URL params
h, p := getHostPortWithDefaults(u)
o.Addrs = append(o.Addrs, net.JoinHostPort(h, p))
// setup username, password, and other configurations
o, err = setupClusterConn(u, h, o)
if err != nil {
return nil, err
}
return o, nil
}
// setupClusterConn gets the username and password from the URL and the query parameters.
func setupClusterConn(u *url.URL, host string, o *ClusterOptions) (*ClusterOptions, error) {
switch u.Scheme {
case "rediss":
o.TLSConfig = &tls.Config{ServerName: host}
fallthrough
case "redis":
o.Username, o.Password = getUserPassword(u)
default:
return nil, fmt.Errorf("redis: invalid URL scheme: %s", u.Scheme)
}
// retrieve the configuration from the query parameters
o, err := setupClusterQueryParams(u, o)
if err != nil {
return nil, err
}
return o, nil
}
// setupClusterQueryParams converts query parameters in u to option value in o.
func setupClusterQueryParams(u *url.URL, o *ClusterOptions) (*ClusterOptions, error) {
q := queryOptions{q: u.Query()}
o.Protocol = q.int("protocol")
o.ClientName = q.string("client_name")
o.MaxRedirects = q.int("max_redirects")
o.ReadOnly = q.bool("read_only")
o.RouteByLatency = q.bool("route_by_latency")
o.RouteRandomly = q.bool("route_randomly")
o.MaxRetries = q.int("max_retries")
o.MinRetryBackoff = q.duration("min_retry_backoff")
o.MaxRetryBackoff = q.duration("max_retry_backoff")
o.DialTimeout = q.duration("dial_timeout")
o.ReadTimeout = q.duration("read_timeout")
o.WriteTimeout = q.duration("write_timeout")
o.PoolFIFO = q.bool("pool_fifo")
o.PoolSize = q.int("pool_size")
o.MinIdleConns = q.int("min_idle_conns")
o.MaxIdleConns = q.int("max_idle_conns")
o.MaxActiveConns = q.int("max_active_conns")
o.PoolTimeout = q.duration("pool_timeout")
o.ConnMaxLifetime = q.duration("conn_max_lifetime")
o.ConnMaxIdleTime = q.duration("conn_max_idle_time")
if q.err != nil {
return nil, q.err
}
// addr can be specified as many times as needed
addrs := q.strings("addr")
for _, addr := range addrs {
h, p, err := net.SplitHostPort(addr)
if err != nil || h == "" || p == "" {
return nil, fmt.Errorf("redis: unable to parse addr param: %s", addr)
}
o.Addrs = append(o.Addrs, net.JoinHostPort(h, p))
}
// any parameters left?
if r := q.remaining(); len(r) > 0 {
return nil, fmt.Errorf("redis: unexpected option: %s", strings.Join(r, ", "))
}
return o, nil
}
func (opt *ClusterOptions) clientOptions() *Options {
return &Options{
ClientName: opt.ClientName,
Dialer: opt.Dialer,
OnConnect: opt.OnConnect,
Protocol: opt.Protocol,
Username: opt.Username,
Password: opt.Password,
CredentialsProvider: opt.CredentialsProvider,
CredentialsProviderContext: opt.CredentialsProviderContext,
MaxRetries: opt.MaxRetries,
MinRetryBackoff: opt.MinRetryBackoff,
MaxRetryBackoff: opt.MaxRetryBackoff,
DialTimeout: opt.DialTimeout,
ReadTimeout: opt.ReadTimeout,
WriteTimeout: opt.WriteTimeout,
ContextTimeoutEnabled: opt.ContextTimeoutEnabled,
PoolFIFO: opt.PoolFIFO,
PoolSize: opt.PoolSize,
PoolTimeout: opt.PoolTimeout,
MinIdleConns: opt.MinIdleConns,
MaxIdleConns: opt.MaxIdleConns,
MaxActiveConns: opt.MaxActiveConns,
ConnMaxIdleTime: opt.ConnMaxIdleTime,
ConnMaxLifetime: opt.ConnMaxLifetime,
DisableIndentity: opt.DisableIndentity,
IdentitySuffix: opt.IdentitySuffix,
TLSConfig: opt.TLSConfig,
// If ClusterSlots is populated, then we probably have an artificial
// cluster whose nodes are not in clustering mode (otherwise there isn't
// much use for ClusterSlots config). This means we cannot execute the
// READONLY command against that node -- setting readOnly to false in such
// situations in the options below will prevent that from happening.
readOnly: opt.ReadOnly && opt.ClusterSlots == nil,
}
}
//------------------------------------------------------------------------------
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()
}
const maximumNodeLatency = 1 * time.Minute
func (n *clusterNode) updateLatency() {
const numProbe = 10
var dur uint64
successes := 0
for i := 0; i < numProbe; i++ {
time.Sleep(time.Duration(10+rand.Intn(10)) * time.Millisecond)
start := time.Now()
err := n.Client.Ping(context.TODO()).Err()
if err == nil {
dur += uint64(time.Since(start) / time.Microsecond)
successes++
}
}
var latency float64
if successes == 0 {
// If none of the pings worked, set latency to some arbitrarily high value so this node gets
// least priority.
latency = float64((maximumNodeLatency) / time.Microsecond)
} else {
latency = float64(dur) / float64(successes)
}
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
onNewNode []func(rdb *Client)
_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) OnNewNode(fn func(rdb *Client)) {
c.mu.Lock()
c.onNewNode = append(c.onNewNode, fn)
c.mu.Unlock()
}
func (c *clusterNodes) Addrs() ([]string, error) {
var addrs []string
c.mu.RLock()
closed := c.closed //nolint:ifshort
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) GetOrCreate(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)
for _, fn := range c.onNewNode {
fn(node.Client)
}
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.GetOrCreate(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.GetOrCreate(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 allNodesFailing = true
var (
closestNonFailingNode *clusterNode
closestNode *clusterNode
minLatency time.Duration
)
// setting the max possible duration as zerovalue for minlatency
minLatency = time.Duration(math.MaxInt64)
for _, n := range nodes {
if closestNode == nil || n.Latency() < minLatency {
closestNode = n
minLatency = n.Latency()
if !n.Failing() {
closestNonFailingNode = n
allNodesFailing = false
}
}
}
// pick the healthly node with the lowest latency
if !allNodesFailing && closestNonFailingNode != nil {
return closestNonFailingNode, nil
}
// if all nodes are failing, we will pick the temporarily failing node with lowest latency
if minLatency < maximumNodeLatency && closestNode != nil {
internal.Logger.Printf(context.TODO(), "redis: all nodes are marked as failed, picking the temporarily failing node with lowest latency")
return closestNode, nil
}
// If all nodes are having the maximum latency(all pings are failing) - return a random node across the cluster
internal.Logger.Printf(context.TODO(), "redis: pings to all nodes are failing, picking a random node across the cluster")
return c.nodes.Random()
}
func (c *clusterState) slotRandomNode(slot int) (*clusterNode, error) {
nodes := c.slotNodes(slot)
if len(nodes) == 0 {
return c.nodes.Random()
}
if len(nodes) == 1 {
return nodes[0], nil
}
randomNodes := rand.Perm(len(nodes))
for _, idx := range randomNodes {
if node := nodes[idx]; !node.Failing() {
return node, nil
}
}
return nodes[randomNodes[0]], 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() {
if !atomic.CompareAndSwapUint32(&c.reloading, 0, 1) {
return
}
go func() {
defer atomic.StoreUint32(&c.reloading, 0)
_, err := c.Reload(context.Background())
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 {
return c.Reload(ctx)
}
state := v.(*clusterState)
if time.Since(state.createdAt) > 10*time.Second {
c.LazyReload()
}
return state, nil
}
func (c *clusterStateHolder) ReloadOrGet(ctx context.Context) (*clusterState, error) {
state, err := c.Reload(ctx)
if err == nil {
return state, nil
}
return c.Get(ctx)
}
//------------------------------------------------------------------------------
// 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 {
opt *ClusterOptions
nodes *clusterNodes
state *clusterStateHolder
cmdsInfoCache *cmdsInfoCache
cmdable
hooksMixin
}
// NewClusterClient returns a Redis Cluster client as described in
// http://redis.io/topics/cluster-spec.
func NewClusterClient(opt *ClusterOptions) *ClusterClient {
opt.init()
c := &ClusterClient{
opt: opt,
nodes: newClusterNodes(opt),
}
c.state = newClusterStateHolder(c.loadState)
c.cmdsInfoCache = newCmdsInfoCache(c.cmdsInfo)
c.cmdable = c.Process
c.initHooks(hooks{
dial: nil,
process: c.process,
pipeline: c.processPipeline,
txPipeline: c.processTxPipeline,
})
return c
}
// 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()
}
// 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 create 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 {
err := c.processHook(ctx, cmd)
cmd.SetErr(err)
return err
}
func (c *ClusterClient) process(ctx context.Context, cmd Cmder) error {
slot := c.cmdSlot(ctx, cmd)
var node *clusterNode
var moved bool
var ask bool
var lastErr error
for attempt := 0; attempt <= c.opt.MaxRedirects; attempt++ {
// MOVED and ASK responses are not transient errors that require retry delay; they
// should be attempted immediately.
if attempt > 0 && !moved && !ask {
if err := internal.Sleep(ctx, c.retryBackoff(attempt)); err != nil {
return err
}
}
if node == nil {
var err error
node, err = c.cmdNode(ctx, cmd.Name(), slot)
if err != nil {
return err
}
}
if ask {
ask = false
pipe := node.Client.Pipeline()
_ = pipe.Process(ctx, NewCmd(ctx, "asking"))
_ = pipe.Process(ctx, cmd)
_, lastErr = pipe.Exec(ctx)
} 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()
}
node = nil
continue
}
// If slave is loading - pick another node.
if c.opt.ReadOnly && isLoadingError(lastErr) {
node.MarkAsFailing()
node = nil
continue
}
var addr string
moved, ask, addr = isMovedError(lastErr)
if moved || ask {
c.state.LazyReload()
var err error
node, err = c.nodes.GetOrCreate(addr)
if err != nil {
return err
}