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channel.go
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channel.go
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package main
import (
"bytes"
"container/heap"
"errors"
"github.com/bitly/go-nsq"
"github.com/bitly/nsq/util"
"github.com/bitly/nsq/util/pqueue"
"log"
"math"
"strings"
"sync"
"sync/atomic"
"time"
)
// the amount of time a worker will wait when idle
const defaultWorkerWait = 100 * time.Millisecond
type Consumer interface {
UnPause()
Pause()
Close() error
TimedOutMessage()
Stats() ClientStats
Empty()
}
// Channel represents the concrete type for a NSQ channel (and also
// implements the Queue interface)
//
// There can be multiple channels per topic, each with there own unique set
// of subscribers (clients).
//
// Channels maintain all client and message metadata, orchestrating in-flight
// messages, timeouts, requeueing, etc.
type Channel struct {
// 64bit atomic vars need to be first for proper alignment on 32bit platforms
requeueCount uint64
messageCount uint64
timeoutCount uint64
sync.RWMutex
topicName string
name string
context *Context
backend BackendQueue
incomingMsgChan chan *nsq.Message
memoryMsgChan chan *nsq.Message
clientMsgChan chan *nsq.Message
exitChan chan int
waitGroup util.WaitGroupWrapper
exitFlag int32
// state tracking
clients map[int64]Consumer
paused int32
ephemeralChannel bool
deleteCallback func(*Channel)
deleter sync.Once
// Stats tracking
e2eProcessingLatencyStream *util.Quantile
// TODO: these can be DRYd up
deferredMessages map[nsq.MessageID]*pqueue.Item
deferredPQ pqueue.PriorityQueue
deferredMutex sync.Mutex
inFlightMessages map[nsq.MessageID]*pqueue.Item
inFlightPQ pqueue.PriorityQueue
inFlightMutex sync.Mutex
// stat counters
bufferedCount int32
}
type inFlightMessage struct {
msg *nsq.Message
clientID int64
ts time.Time
}
// NewChannel creates a new instance of the Channel type and returns a pointer
func NewChannel(topicName string, channelName string, context *Context,
deleteCallback func(*Channel)) *Channel {
c := &Channel{
topicName: topicName,
name: channelName,
incomingMsgChan: make(chan *nsq.Message, 1),
memoryMsgChan: make(chan *nsq.Message, context.nsqd.options.memQueueSize),
clientMsgChan: make(chan *nsq.Message),
exitChan: make(chan int),
clients: make(map[int64]Consumer),
deleteCallback: deleteCallback,
context: context,
}
if len(context.nsqd.options.e2eProcessingLatencyPercentiles) > 0 {
c.e2eProcessingLatencyStream = util.NewQuantile(
context.nsqd.options.e2eProcessingLatencyWindowTime,
context.nsqd.options.e2eProcessingLatencyPercentiles,
)
}
c.initPQ()
if strings.HasSuffix(channelName, "#ephemeral") {
c.ephemeralChannel = true
c.backend = NewDummyBackendQueue()
} else {
// backend names, for uniqueness, automatically include the topic... <topic>:<channel>
backendName := topicName + ":" + channelName
c.backend = NewDiskQueue(backendName,
context.nsqd.options.dataPath,
context.nsqd.options.maxBytesPerFile,
context.nsqd.options.syncEvery,
context.nsqd.options.syncTimeout)
}
go c.messagePump()
c.waitGroup.Wrap(func() { c.router() })
c.waitGroup.Wrap(func() { c.deferredWorker() })
c.waitGroup.Wrap(func() { c.inFlightWorker() })
go c.context.nsqd.Notify(c)
return c
}
func (c *Channel) initPQ() {
pqSize := int(math.Max(1, float64(c.context.nsqd.options.memQueueSize)/10))
c.inFlightMessages = make(map[nsq.MessageID]*pqueue.Item)
c.deferredMessages = make(map[nsq.MessageID]*pqueue.Item)
c.inFlightMutex.Lock()
c.inFlightPQ = pqueue.New(pqSize)
c.inFlightMutex.Unlock()
c.deferredMutex.Lock()
c.deferredPQ = pqueue.New(pqSize)
c.deferredMutex.Unlock()
}
// Exiting returns a boolean indicating if this channel is closed/exiting
func (c *Channel) Exiting() bool {
return atomic.LoadInt32(&c.exitFlag) == 1
}
// Delete empties the channel and closes
func (c *Channel) Delete() error {
return c.exit(true)
}
// Close cleanly closes the Channel
func (c *Channel) Close() error {
return c.exit(false)
}
func (c *Channel) exit(deleted bool) error {
if !atomic.CompareAndSwapInt32(&c.exitFlag, 0, 1) {
return errors.New("exiting")
}
if deleted {
log.Printf("CHANNEL(%s): deleting", c.name)
// since we are explicitly deleting a channel (not just at system exit time)
// de-register this from the lookupd
go c.context.nsqd.Notify(c)
} else {
log.Printf("CHANNEL(%s): closing", c.name)
}
// this forceably closes client connections
for _, client := range c.clients {
client.Close()
}
close(c.exitChan)
// handle race condition w/ things writing into incomingMsgChan
c.Lock()
close(c.incomingMsgChan)
c.Unlock()
// synchronize the close of router() and pqWorkers (2)
c.waitGroup.Wait()
if deleted {
// empty the queue (deletes the backend files, too)
c.Empty()
return c.backend.Delete()
}
// write anything leftover to disk
c.flush()
return c.backend.Close()
}
func (c *Channel) Empty() error {
c.Lock()
defer c.Unlock()
c.initPQ()
for _, client := range c.clients {
client.Empty()
}
clientMsgChan := c.clientMsgChan
for {
select {
case _, ok := <-clientMsgChan:
if !ok {
// c.clientMsgChan may be closed while in this loop
// so just remove it from the select so we can make progress
clientMsgChan = nil
}
case <-c.memoryMsgChan:
default:
goto finish
}
}
finish:
return c.backend.Empty()
}
// flush persists all the messages in internal memory buffers to the backend
// it does not drain inflight/deferred because it is only called in Close()
func (c *Channel) flush() error {
var msgBuf bytes.Buffer
// messagePump is responsible for closing the channel it writes to
// this will read until its closed (exited)
for msg := range c.clientMsgChan {
log.Printf("CHANNEL(%s): recovered buffered message from clientMsgChan", c.name)
WriteMessageToBackend(&msgBuf, msg, c.backend)
}
if len(c.memoryMsgChan) > 0 || len(c.inFlightMessages) > 0 || len(c.deferredMessages) > 0 {
log.Printf("CHANNEL(%s): flushing %d memory %d in-flight %d deferred messages to backend",
c.name, len(c.memoryMsgChan), len(c.inFlightMessages), len(c.deferredMessages))
}
for {
select {
case msg := <-c.memoryMsgChan:
err := WriteMessageToBackend(&msgBuf, msg, c.backend)
if err != nil {
log.Printf("ERROR: failed to write message to backend - %s", err.Error())
}
default:
goto finish
}
}
finish:
for _, item := range c.inFlightMessages {
msg := item.Value.(*inFlightMessage).msg
err := WriteMessageToBackend(&msgBuf, msg, c.backend)
if err != nil {
log.Printf("ERROR: failed to write message to backend - %s", err.Error())
}
}
for _, item := range c.deferredMessages {
msg := item.Value.(*nsq.Message)
err := WriteMessageToBackend(&msgBuf, msg, c.backend)
if err != nil {
log.Printf("ERROR: failed to write message to backend - %s", err.Error())
}
}
return nil
}
func (c *Channel) Depth() int64 {
return int64(len(c.memoryMsgChan)) + c.backend.Depth() + int64(atomic.LoadInt32(&c.bufferedCount))
}
func (c *Channel) Pause() error {
atomic.StoreInt32(&c.paused, 1)
c.RLock()
for _, client := range c.clients {
client.Pause()
}
c.RUnlock()
c.context.nsqd.Lock()
defer c.context.nsqd.Unlock()
// pro-actively persist metadata so in case of process failure
// nsqd won't suddenly unpause a channel
return c.context.nsqd.PersistMetadata()
}
func (c *Channel) UnPause() error {
atomic.StoreInt32(&c.paused, 0)
c.RLock()
for _, client := range c.clients {
client.UnPause()
}
c.RUnlock()
c.context.nsqd.Lock()
defer c.context.nsqd.Unlock()
// pro-actively persist metadata so in case of process failure
// nsqd won't suddenly pause a channel
return c.context.nsqd.PersistMetadata()
}
func (c *Channel) IsPaused() bool {
return atomic.LoadInt32(&c.paused) == 1
}
// PutMessage writes to the appropriate incoming message channel
// (which will be routed asynchronously)
func (c *Channel) PutMessage(msg *nsq.Message) error {
c.RLock()
defer c.RUnlock()
if atomic.LoadInt32(&c.exitFlag) == 1 {
return errors.New("exiting")
}
c.incomingMsgChan <- msg
atomic.AddUint64(&c.messageCount, 1)
return nil
}
// TouchMessage resets the timeout for an in-flight message
func (c *Channel) TouchMessage(clientID int64, id nsq.MessageID) error {
item, err := c.popInFlightMessage(clientID, id)
if err != nil {
return err
}
c.removeFromInFlightPQ(item)
ifMsg := item.Value.(*inFlightMessage)
currentTimeout := time.Unix(0, item.Priority)
newTimeout := currentTimeout.Add(c.context.nsqd.options.msgTimeout)
if newTimeout.Add(c.context.nsqd.options.msgTimeout).Sub(ifMsg.ts) >= c.context.nsqd.options.maxMsgTimeout {
// we would have gone over, set to the max
newTimeout = ifMsg.ts.Add(c.context.nsqd.options.maxMsgTimeout)
}
item.Priority = newTimeout.UnixNano()
err = c.pushInFlightMessage(item)
if err != nil {
return err
}
c.addToInFlightPQ(item)
return nil
}
// FinishMessage successfully discards an in-flight message
func (c *Channel) FinishMessage(clientID int64, id nsq.MessageID) error {
item, err := c.popInFlightMessage(clientID, id)
if err != nil {
return err
}
c.removeFromInFlightPQ(item)
if c.e2eProcessingLatencyStream != nil {
c.e2eProcessingLatencyStream.Insert(item.Value.(*inFlightMessage).msg.Timestamp)
}
return nil
}
// RequeueMessage requeues a message based on `time.Duration`, ie:
//
// `timeoutMs` == 0 - requeue a message immediately
// `timeoutMs` > 0 - asynchronously wait for the specified timeout
// and requeue a message (aka "deferred requeue")
//
func (c *Channel) RequeueMessage(clientID int64, id nsq.MessageID, timeout time.Duration) error {
// remove from inflight first
item, err := c.popInFlightMessage(clientID, id)
if err != nil {
return err
}
c.removeFromInFlightPQ(item)
msg := item.Value.(*inFlightMessage).msg
if timeout == 0 {
return c.doRequeue(msg)
}
// deferred requeue
return c.StartDeferredTimeout(msg, timeout)
}
// AddClient adds a client to the Channel's client list
func (c *Channel) AddClient(clientID int64, client Consumer) {
c.Lock()
defer c.Unlock()
_, ok := c.clients[clientID]
if ok {
return
}
c.clients[clientID] = client
}
// RemoveClient removes a client from the Channel's client list
func (c *Channel) RemoveClient(clientID int64) {
c.Lock()
defer c.Unlock()
_, ok := c.clients[clientID]
if !ok {
return
}
delete(c.clients, clientID)
if len(c.clients) == 0 && c.ephemeralChannel == true {
go c.deleter.Do(func() { c.deleteCallback(c) })
}
}
func (c *Channel) StartInFlightTimeout(msg *nsq.Message, clientID int64) error {
now := time.Now()
value := &inFlightMessage{msg, clientID, now}
absTs := now.Add(c.context.nsqd.options.msgTimeout).UnixNano()
item := &pqueue.Item{Value: value, Priority: absTs}
err := c.pushInFlightMessage(item)
if err != nil {
return err
}
c.addToInFlightPQ(item)
return nil
}
func (c *Channel) StartDeferredTimeout(msg *nsq.Message, timeout time.Duration) error {
absTs := time.Now().Add(timeout).UnixNano()
item := &pqueue.Item{Value: msg, Priority: absTs}
err := c.pushDeferredMessage(item)
if err != nil {
return err
}
c.addToDeferredPQ(item)
return nil
}
// doRequeue performs the low level operations to requeue a message
func (c *Channel) doRequeue(msg *nsq.Message) error {
c.RLock()
defer c.RUnlock()
if atomic.LoadInt32(&c.exitFlag) == 1 {
return errors.New("exiting")
}
c.incomingMsgChan <- msg
atomic.AddUint64(&c.requeueCount, 1)
return nil
}
// pushInFlightMessage atomically adds a message to the in-flight dictionary
func (c *Channel) pushInFlightMessage(item *pqueue.Item) error {
c.Lock()
defer c.Unlock()
id := item.Value.(*inFlightMessage).msg.Id
_, ok := c.inFlightMessages[id]
if ok {
return errors.New("ID already in flight")
}
c.inFlightMessages[id] = item
return nil
}
// popInFlightMessage atomically removes a message from the in-flight dictionary
func (c *Channel) popInFlightMessage(clientID int64, id nsq.MessageID) (*pqueue.Item, error) {
c.Lock()
defer c.Unlock()
item, ok := c.inFlightMessages[id]
if !ok {
return nil, errors.New("ID not in flight")
}
if item.Value.(*inFlightMessage).clientID != clientID {
return nil, errors.New("client does not own message")
}
delete(c.inFlightMessages, id)
return item, nil
}
func (c *Channel) addToInFlightPQ(item *pqueue.Item) {
c.inFlightMutex.Lock()
defer c.inFlightMutex.Unlock()
heap.Push(&c.inFlightPQ, item)
}
func (c *Channel) removeFromInFlightPQ(item *pqueue.Item) {
c.inFlightMutex.Lock()
defer c.inFlightMutex.Unlock()
if item.Index == -1 {
// this item has already been Pop'd off the pqueue
return
}
heap.Remove(&c.inFlightPQ, item.Index)
}
func (c *Channel) pushDeferredMessage(item *pqueue.Item) error {
c.Lock()
defer c.Unlock()
// TODO: these map lookups are costly
id := item.Value.(*nsq.Message).Id
_, ok := c.deferredMessages[id]
if ok {
return errors.New("ID already deferred")
}
c.deferredMessages[id] = item
return nil
}
func (c *Channel) popDeferredMessage(id nsq.MessageID) (*pqueue.Item, error) {
c.Lock()
defer c.Unlock()
// TODO: these map lookups are costly
item, ok := c.deferredMessages[id]
if !ok {
return nil, errors.New("ID not deferred")
}
delete(c.deferredMessages, id)
return item, nil
}
func (c *Channel) addToDeferredPQ(item *pqueue.Item) {
c.deferredMutex.Lock()
defer c.deferredMutex.Unlock()
heap.Push(&c.deferredPQ, item)
}
// Router handles the muxing of incoming Channel messages, either writing
// to the in-memory channel or to the backend
func (c *Channel) router() {
var msgBuf bytes.Buffer
for msg := range c.incomingMsgChan {
select {
case c.memoryMsgChan <- msg:
default:
err := WriteMessageToBackend(&msgBuf, msg, c.backend)
if err != nil {
log.Printf("CHANNEL(%s) ERROR: failed to write message to backend - %s", c.name, err.Error())
// theres not really much we can do at this point, you're certainly
// going to lose messages...
}
}
}
log.Printf("CHANNEL(%s): closing ... router", c.name)
}
// messagePump reads messages from either memory or backend and writes
// to the client output go channel
//
// it is also performs in-flight accounting and initiates the auto-requeue
// goroutine
func (c *Channel) messagePump() {
var msg *nsq.Message
var buf []byte
var err error
for {
// do an extra check for closed exit before we select on all the memory/backend/exitChan
// this solves the case where we are closed and something else is draining clientMsgChan into
// backend. we don't want to reverse that
if atomic.LoadInt32(&c.exitFlag) == 1 {
goto exit
}
select {
case msg = <-c.memoryMsgChan:
case buf = <-c.backend.ReadChan():
msg, err = nsq.DecodeMessage(buf)
if err != nil {
log.Printf("ERROR: failed to decode message - %s", err.Error())
continue
}
case <-c.exitChan:
goto exit
}
msg.Attempts++
atomic.StoreInt32(&c.bufferedCount, 1)
c.clientMsgChan <- msg
atomic.StoreInt32(&c.bufferedCount, 0)
// the client will call back to mark as in-flight w/ it's info
}
exit:
log.Printf("CHANNEL(%s): closing ... messagePump", c.name)
close(c.clientMsgChan)
}
func (c *Channel) deferredWorker() {
c.pqWorker(&c.deferredPQ, &c.deferredMutex, func(item *pqueue.Item) {
msg := item.Value.(*nsq.Message)
_, err := c.popDeferredMessage(msg.Id)
if err != nil {
return
}
c.doRequeue(msg)
})
}
func (c *Channel) inFlightWorker() {
c.pqWorker(&c.inFlightPQ, &c.inFlightMutex, func(item *pqueue.Item) {
clientID := item.Value.(*inFlightMessage).clientID
msg := item.Value.(*inFlightMessage).msg
_, err := c.popInFlightMessage(clientID, msg.Id)
if err != nil {
return
}
atomic.AddUint64(&c.timeoutCount, 1)
client, ok := c.clients[clientID]
if ok {
client.TimedOutMessage()
}
c.doRequeue(msg)
})
}
// generic loop (executed in a goroutine) that periodically wakes up to walk
// the priority queue and call the callback
func (c *Channel) pqWorker(pq *pqueue.PriorityQueue, mutex *sync.Mutex, callback func(item *pqueue.Item)) {
ticker := time.NewTicker(defaultWorkerWait)
for {
select {
case <-ticker.C:
case <-c.exitChan:
goto exit
}
now := time.Now().UnixNano()
for {
mutex.Lock()
item, _ := pq.PeekAndShift(now)
mutex.Unlock()
if item == nil {
break
}
callback(item)
}
}
exit:
log.Printf("CHANNEL(%s): closing ... pqueue worker", c.name)
ticker.Stop()
}