prometheus/util/treecache/treecache.go

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// Copyright 2016 The Prometheus 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 treecache
import (
"bytes"
"errors"
"fmt"
"strings"
"sync"
"time"
"github.com/go-kit/log"
"github.com/go-kit/log/level"
"github.com/go-zookeeper/zk"
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"github.com/prometheus/client_golang/prometheus"
)
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var (
failureCounter = prometheus.NewCounter(prometheus.CounterOpts{
Namespace: "prometheus",
Subsystem: "treecache",
Name: "zookeeper_failures_total",
Help: "The total number of ZooKeeper failures.",
})
numWatchers = prometheus.NewGauge(prometheus.GaugeOpts{
Namespace: "prometheus",
Subsystem: "treecache",
Name: "watcher_goroutines",
Help: "The current number of watcher goroutines.",
})
)
func init() {
prometheus.MustRegister(failureCounter)
prometheus.MustRegister(numWatchers)
}
// ZookeeperLogger wraps a log.Logger into a zk.Logger.
type ZookeeperLogger struct {
logger log.Logger
}
// NewZookeeperLogger is a constructor for ZookeeperLogger.
func NewZookeeperLogger(logger log.Logger) ZookeeperLogger {
return ZookeeperLogger{logger: logger}
}
// Printf implements zk.Logger.
func (zl ZookeeperLogger) Printf(s string, i ...interface{}) {
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level.Info(zl.logger).Log("msg", fmt.Sprintf(s, i...))
}
// A ZookeeperTreeCache keeps data from all children of a Zookeeper path
// locally cached and updated according to received events.
type ZookeeperTreeCache struct {
conn *zk.Conn
prefix string
events chan ZookeeperTreeCacheEvent
stop chan struct{}
wg *sync.WaitGroup
head *zookeeperTreeCacheNode
logger log.Logger
}
// A ZookeeperTreeCacheEvent models a Zookeeper event for a path.
type ZookeeperTreeCacheEvent struct {
Path string
Data *[]byte
}
type zookeeperTreeCacheNode struct {
data *[]byte
events chan zk.Event
done chan struct{}
stopped bool
children map[string]*zookeeperTreeCacheNode
}
// NewZookeeperTreeCache creates a new ZookeeperTreeCache for a given path.
func NewZookeeperTreeCache(conn *zk.Conn, path string, events chan ZookeeperTreeCacheEvent, logger log.Logger) *ZookeeperTreeCache {
tc := &ZookeeperTreeCache{
conn: conn,
prefix: path,
events: events,
stop: make(chan struct{}),
wg: &sync.WaitGroup{},
logger: logger,
}
tc.head = &zookeeperTreeCacheNode{
events: make(chan zk.Event),
children: map[string]*zookeeperTreeCacheNode{},
done: make(chan struct{}, 1),
stopped: true, // Set head's stop to be true so that recursiveDelete will not stop the head node.
}
tc.wg.Add(1)
go tc.loop(path)
return tc
}
// Stop stops the tree cache.
func (tc *ZookeeperTreeCache) Stop() {
tc.stop <- struct{}{}
go func() {
// Drain tc.head.events so that go routines can make progress and exit.
for range tc.head.events {
}
}()
go func() {
tc.wg.Wait()
// Close the tc.head.events after all members of the wait group have exited.
// This makes the go routine above exit.
close(tc.head.events)
close(tc.events)
}()
}
func (tc *ZookeeperTreeCache) loop(path string) {
defer tc.wg.Done()
failureMode := false
retryChan := make(chan struct{})
failure := func() {
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failureCounter.Inc()
failureMode = true
time.AfterFunc(time.Second*10, func() {
retryChan <- struct{}{}
})
}
err := tc.recursiveNodeUpdate(path, tc.head)
if err != nil {
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level.Error(tc.logger).Log("msg", "Error during initial read of Zookeeper", "err", err)
failure()
}
for {
select {
case ev := <-tc.head.events:
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level.Debug(tc.logger).Log("msg", "Received Zookeeper event", "event", ev)
if failureMode {
continue
}
if ev.Type == zk.EventNotWatching {
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level.Info(tc.logger).Log("msg", "Lost connection to Zookeeper.")
failure()
} else {
path := strings.TrimPrefix(ev.Path, tc.prefix)
parts := strings.Split(path, "/")
node := tc.head
for _, part := range parts[1:] {
childNode := node.children[part]
if childNode == nil {
childNode = &zookeeperTreeCacheNode{
events: tc.head.events,
children: map[string]*zookeeperTreeCacheNode{},
done: make(chan struct{}, 1),
}
node.children[part] = childNode
}
node = childNode
}
err := tc.recursiveNodeUpdate(ev.Path, node)
if err != nil {
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level.Error(tc.logger).Log("msg", "Error during processing of Zookeeper event", "err", err)
failure()
} else if tc.head.data == nil {
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level.Error(tc.logger).Log("msg", "Error during processing of Zookeeper event", "err", "path no longer exists", "path", tc.prefix)
failure()
}
}
case <-retryChan:
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level.Info(tc.logger).Log("msg", "Attempting to resync state with Zookeeper")
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previousState := &zookeeperTreeCacheNode{
children: tc.head.children,
}
// Reset root child nodes before traversing the Zookeeper path.
tc.head.children = make(map[string]*zookeeperTreeCacheNode)
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if err := tc.recursiveNodeUpdate(tc.prefix, tc.head); err != nil {
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level.Error(tc.logger).Log("msg", "Error during Zookeeper resync", "err", err)
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// Revert to our previous state.
tc.head.children = previousState.children
failure()
} else {
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tc.resyncState(tc.prefix, tc.head, previousState)
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level.Info(tc.logger).Log("Zookeeper resync successful")
failureMode = false
}
case <-tc.stop:
// Stop head as well.
tc.head.done <- struct{}{}
tc.recursiveStop(tc.head)
return
}
}
}
func (tc *ZookeeperTreeCache) recursiveNodeUpdate(path string, node *zookeeperTreeCacheNode) error {
data, _, dataWatcher, err := tc.conn.GetW(path)
if errors.Is(err, zk.ErrNoNode) {
tc.recursiveDelete(path, node)
if node == tc.head {
return fmt.Errorf("path %s does not exist", path)
}
return nil
} else if err != nil {
return err
}
if node.data == nil || !bytes.Equal(*node.data, data) {
node.data = &data
tc.events <- ZookeeperTreeCacheEvent{Path: path, Data: node.data}
}
children, _, childWatcher, err := tc.conn.ChildrenW(path)
if errors.Is(err, zk.ErrNoNode) {
tc.recursiveDelete(path, node)
return nil
} else if err != nil {
return err
}
currentChildren := map[string]struct{}{}
for _, child := range children {
currentChildren[child] = struct{}{}
childNode := node.children[child]
// Does not already exists or we previous had a watch that
// triggered.
if childNode == nil || childNode.stopped {
node.children[child] = &zookeeperTreeCacheNode{
events: node.events,
children: map[string]*zookeeperTreeCacheNode{},
done: make(chan struct{}, 1),
}
err = tc.recursiveNodeUpdate(path+"/"+child, node.children[child])
if err != nil {
return err
}
}
}
// Remove nodes that no longer exist
for name, childNode := range node.children {
if _, ok := currentChildren[name]; !ok || node.data == nil {
tc.recursiveDelete(path+"/"+name, childNode)
delete(node.children, name)
}
}
tc.wg.Add(1)
go func() {
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numWatchers.Inc()
// Pass up zookeeper events, until the node is deleted.
select {
case event := <-dataWatcher:
node.events <- event
case event := <-childWatcher:
node.events <- event
case <-node.done:
}
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numWatchers.Dec()
tc.wg.Done()
}()
return nil
}
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func (tc *ZookeeperTreeCache) resyncState(path string, currentState, previousState *zookeeperTreeCacheNode) {
for child, previousNode := range previousState.children {
if currentNode, present := currentState.children[child]; present {
tc.resyncState(path+"/"+child, currentNode, previousNode)
} else {
tc.recursiveDelete(path+"/"+child, previousNode)
}
}
}
func (tc *ZookeeperTreeCache) recursiveDelete(path string, node *zookeeperTreeCacheNode) {
if !node.stopped {
node.done <- struct{}{}
node.stopped = true
}
if node.data != nil {
tc.events <- ZookeeperTreeCacheEvent{Path: path, Data: nil}
node.data = nil
}
for name, childNode := range node.children {
tc.recursiveDelete(path+"/"+name, childNode)
}
}
func (tc *ZookeeperTreeCache) recursiveStop(node *zookeeperTreeCacheNode) {
if !node.stopped {
node.done <- struct{}{}
node.stopped = true
}
for _, childNode := range node.children {
tc.recursiveStop(childNode)
}
}