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diskqueue.go
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diskqueue.go
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package main
import (
"bufio"
"bytes"
"encoding/binary"
"errors"
"fmt"
"io"
"log"
"os"
"path"
"sync"
"sync/atomic"
"time"
)
// DiskQueue implements the BackendQueue interface
// providing a filesystem backed FIFO queue
type DiskQueue struct {
// 64bit atomic vars need to be first for proper alignment on 32bit platforms
// run-time state (also persisted to disk)
readPos int64
writePos int64
readFileNum int64
writeFileNum int64
depth int64
sync.RWMutex
// instantiation time metadata
name string
dataPath string
maxBytesPerFile int64 // currently this cannot change once created
syncEvery int64 // number of writes per fsync
syncTimeout time.Duration // duration of time per fsync
exitFlag int32
needSync bool
// keeps track of the position where we have read
// (but not yet sent over readChan)
nextReadPos int64
nextReadFileNum int64
readFile *os.File
writeFile *os.File
reader *bufio.Reader
writeBuf bytes.Buffer
// exposed via ReadChan()
readChan chan []byte
// internal channels
writeChan chan []byte
writeResponseChan chan error
emptyChan chan int
emptyResponseChan chan error
exitChan chan int
exitSyncChan chan int
}
// NewDiskQueue instantiates a new instance of DiskQueue, retrieving metadata
// from the filesystem and starting the read ahead goroutine
func NewDiskQueue(name string, dataPath string, maxBytesPerFile int64, syncEvery int64, syncTimeout time.Duration) BackendQueue {
d := DiskQueue{
name: name,
dataPath: dataPath,
maxBytesPerFile: maxBytesPerFile,
readChan: make(chan []byte),
writeChan: make(chan []byte),
writeResponseChan: make(chan error),
emptyChan: make(chan int),
emptyResponseChan: make(chan error),
exitChan: make(chan int),
exitSyncChan: make(chan int),
syncEvery: syncEvery,
syncTimeout: syncTimeout,
}
// no need to lock here, nothing else could possibly be touching this instance
err := d.retrieveMetaData()
if err != nil && !os.IsNotExist(err) {
log.Printf("ERROR: diskqueue(%s) failed to retrieveMetaData - %s", d.name, err.Error())
}
go d.ioLoop()
return &d
}
// Depth returns the depth of the queue
func (d *DiskQueue) Depth() int64 {
return atomic.LoadInt64(&d.depth)
}
// ReadChan returns the []byte channel for reading data
func (d *DiskQueue) ReadChan() chan []byte {
return d.readChan
}
// Put writes a []byte to the queue
func (d *DiskQueue) Put(data []byte) error {
d.RLock()
defer d.RUnlock()
if d.exitFlag == 1 {
return errors.New("exiting")
}
d.writeChan <- data
return <-d.writeResponseChan
}
// Close cleans up the queue and persists metadata
func (d *DiskQueue) Close() error {
err := d.exit(false)
if err != nil {
return err
}
return d.sync()
}
func (d *DiskQueue) Delete() error {
return d.exit(true)
}
func (d *DiskQueue) exit(deleted bool) error {
d.Lock()
defer d.Unlock()
d.exitFlag = 1
if deleted {
log.Printf("DISKQUEUE(%s): deleting", d.name)
} else {
log.Printf("DISKQUEUE(%s): closing", d.name)
}
close(d.exitChan)
// ensure that ioLoop has exited
<-d.exitSyncChan
if d.readFile != nil {
d.readFile.Close()
d.readFile = nil
}
if d.writeFile != nil {
d.writeFile.Close()
d.writeFile = nil
}
return nil
}
// Empty destructively clears out any pending data in the queue
// by fast forwarding read positions and removing intermediate files
func (d *DiskQueue) Empty() error {
d.RLock()
defer d.RUnlock()
if d.exitFlag == 1 {
return errors.New("exiting")
}
log.Printf("DISKQUEUE(%s): emptying", d.name)
d.emptyChan <- 1
return <-d.emptyResponseChan
}
func (d *DiskQueue) deleteAllFiles() error {
err := d.skipToNextRWFile()
innerErr := os.Remove(d.metaDataFileName())
if innerErr != nil && !os.IsNotExist(innerErr) {
log.Printf("ERROR: diskqueue(%s) failed to remove metadata file - %s", d.name, innerErr.Error())
return innerErr
}
return err
}
func (d *DiskQueue) skipToNextRWFile() error {
var err error
if d.readFile != nil {
d.readFile.Close()
d.readFile = nil
}
if d.writeFile != nil {
d.writeFile.Close()
d.writeFile = nil
}
for i := d.readFileNum; i <= d.writeFileNum; i++ {
fn := d.fileName(i)
innerErr := os.Remove(fn)
if innerErr != nil && !os.IsNotExist(innerErr) {
log.Printf("ERROR: diskqueue(%s) failed to remove data file - %s", d.name, innerErr.Error())
err = innerErr
}
}
d.writeFileNum++
d.writePos = 0
d.readFileNum = d.writeFileNum
d.readPos = 0
d.nextReadFileNum = d.writeFileNum
d.nextReadPos = 0
atomic.StoreInt64(&d.depth, 0)
return err
}
// readOne performs a low level filesystem read for a single []byte
// while advancing read positions and rolling files, if necessary
func (d *DiskQueue) readOne() ([]byte, error) {
var err error
var msgSize int32
if d.readFile == nil {
curFileName := d.fileName(d.readFileNum)
d.readFile, err = os.OpenFile(curFileName, os.O_RDONLY, 0600)
if err != nil {
return nil, err
}
log.Printf("DISKQUEUE(%s): readOne() opened %s", d.name, curFileName)
if d.readPos > 0 {
_, err = d.readFile.Seek(d.readPos, 0)
if err != nil {
d.readFile.Close()
d.readFile = nil
return nil, err
}
}
d.reader = bufio.NewReader(d.readFile)
}
err = binary.Read(d.reader, binary.BigEndian, &msgSize)
if err != nil {
d.readFile.Close()
d.readFile = nil
return nil, err
}
readBuf := make([]byte, msgSize)
_, err = io.ReadFull(d.reader, readBuf)
if err != nil {
d.readFile.Close()
d.readFile = nil
return nil, err
}
totalBytes := int64(4 + msgSize)
// we only advance next* because we have not yet sent this to consumers
// (where readFileNum, readPos will actually be advanced)
d.nextReadPos = d.readPos + totalBytes
d.nextReadFileNum = d.readFileNum
// TODO: each data file should embed the maxBytesPerFile
// as the first 8 bytes (at creation time) ensuring that
// the value can change without affecting runtime
if d.nextReadPos > d.maxBytesPerFile {
if d.readFile != nil {
d.readFile.Close()
d.readFile = nil
}
d.nextReadFileNum++
d.nextReadPos = 0
}
return readBuf, nil
}
// writeOne performs a low level filesystem write for a single []byte
// while advancing write positions and rolling files, if necessary
func (d *DiskQueue) writeOne(data []byte) error {
var err error
if d.writeFile == nil {
curFileName := d.fileName(d.writeFileNum)
d.writeFile, err = os.OpenFile(curFileName, os.O_RDWR|os.O_CREATE, 0600)
if err != nil {
return err
}
log.Printf("DISKQUEUE(%s): writeOne() opened %s", d.name, curFileName)
if d.writePos > 0 {
_, err = d.writeFile.Seek(d.writePos, 0)
if err != nil {
d.writeFile.Close()
d.writeFile = nil
return err
}
}
}
dataLen := len(data)
d.writeBuf.Reset()
err = binary.Write(&d.writeBuf, binary.BigEndian, int32(dataLen))
if err != nil {
return err
}
_, err = d.writeBuf.Write(data)
if err != nil {
return err
}
// only write to the file once
_, err = d.writeFile.Write(d.writeBuf.Bytes())
if err != nil {
d.writeFile.Close()
d.writeFile = nil
return err
}
totalBytes := int64(4 + dataLen)
d.writePos += totalBytes
atomic.AddInt64(&d.depth, 1)
if d.writePos > d.maxBytesPerFile {
d.writeFileNum++
d.writePos = 0
// sync every time we start writing to a new file
err = d.sync()
if err != nil {
log.Printf("ERROR: diskqueue(%s) failed to sync - %s", d.name, err.Error())
}
if d.writeFile != nil {
d.writeFile.Close()
d.writeFile = nil
}
}
return err
}
// sync fsyncs the current writeFile and persists metadata
func (d *DiskQueue) sync() error {
if d.writeFile != nil {
err := d.writeFile.Sync()
if err != nil {
d.writeFile.Close()
d.writeFile = nil
return err
}
}
err := d.persistMetaData()
if err != nil {
return err
}
d.needSync = false
return nil
}
// retrieveMetaData initializes state from the filesystem
func (d *DiskQueue) retrieveMetaData() error {
var f *os.File
var err error
fileName := d.metaDataFileName()
f, err = os.OpenFile(fileName, os.O_RDONLY, 0600)
if err != nil {
return err
}
defer f.Close()
var depth int64
_, err = fmt.Fscanf(f, "%d\n%d,%d\n%d,%d\n",
&depth,
&d.readFileNum, &d.readPos,
&d.writeFileNum, &d.writePos)
if err != nil {
return err
}
atomic.StoreInt64(&d.depth, depth)
d.nextReadFileNum = d.readFileNum
d.nextReadPos = d.readPos
return nil
}
// persistMetaData atomically writes state to the filesystem
func (d *DiskQueue) persistMetaData() error {
var f *os.File
var err error
fileName := d.metaDataFileName()
tmpFileName := fileName + ".tmp"
// write to tmp file
f, err = os.OpenFile(tmpFileName, os.O_RDWR|os.O_CREATE, 0600)
if err != nil {
return err
}
_, err = fmt.Fprintf(f, "%d\n%d,%d\n%d,%d\n",
atomic.LoadInt64(&d.depth),
d.readFileNum, d.readPos,
d.writeFileNum, d.writePos)
if err != nil {
f.Close()
return err
}
f.Sync()
f.Close()
// atomically rename
return os.Rename(tmpFileName, fileName)
}
func (d *DiskQueue) metaDataFileName() string {
return fmt.Sprintf(path.Join(d.dataPath, "%s.diskqueue.meta.dat"), d.name)
}
func (d *DiskQueue) fileName(fileNum int64) string {
return fmt.Sprintf(path.Join(d.dataPath, "%s.diskqueue.%06d.dat"), d.name, fileNum)
}
func (d *DiskQueue) checkTailCorruption(depth int64) {
if d.readFileNum < d.writeFileNum || d.readPos < d.writePos {
return
}
// we've reached the end of the diskqueue
// if depth isn't 0 something went wrong
if depth != 0 {
if depth < 0 {
log.Printf("ERROR: diskqueue(%s) negative depth at tail (%d), metadata corruption, resetting 0...", d.name, depth)
} else if depth > 0 {
log.Printf("ERROR: diskqueue(%s) positive depth at tail (%d), data loss, resetting 0...", d.name, depth)
}
// force set depth 0
atomic.StoreInt64(&d.depth, 0)
d.needSync = true
}
if d.readFileNum != d.writeFileNum || d.readPos != d.writePos {
if d.readFileNum > d.writeFileNum {
log.Printf("ERROR: diskqueue(%s) readFileNum > writeFileNum (%d > %d), corruption, skipping to next writeFileNum and resetting 0...", d.name, d.readFileNum, d.writeFileNum)
}
if d.readPos > d.writePos {
log.Printf("ERROR: diskqueue(%s) readPos > writePos (%d > %d), corruption, skipping to next writeFileNum and resetting 0...", d.name, d.readPos, d.writePos)
}
d.skipToNextRWFile()
d.needSync = true
}
}
func (d *DiskQueue) moveForward() {
oldReadFileNum := d.readFileNum
d.readFileNum = d.nextReadFileNum
d.readPos = d.nextReadPos
depth := atomic.AddInt64(&d.depth, -1)
// see if we need to clean up the old file
if oldReadFileNum != d.nextReadFileNum {
// sync every time we start reading from a new file
d.needSync = true
fn := d.fileName(oldReadFileNum)
err := os.Remove(fn)
if err != nil {
log.Printf("ERROR: failed to Remove(%s) - %s", fn, err.Error())
}
}
d.checkTailCorruption(depth)
}
func (d *DiskQueue) handleReadError() {
// jump to the next read file and rename the current (bad) file
if d.readFileNum == d.writeFileNum {
// if you can't properly read from the current write file it's safe to
// assume that something is fucked and we should skip the current file too
if d.writeFile != nil {
d.writeFile.Close()
d.writeFile = nil
}
d.writeFileNum++
d.writePos = 0
}
badFn := d.fileName(d.readFileNum)
badRenameFn := badFn + ".bad"
log.Printf("NOTICE: diskqueue(%s) jump to next file and saving bad file as %s", d.name, badRenameFn)
err := os.Rename(badFn, badRenameFn)
if err != nil {
log.Printf("ERROR: diskqueue(%s) failed to rename bad diskqueue file %s to %s", d.name, badFn, badRenameFn)
}
d.readFileNum++
d.readPos = 0
d.nextReadFileNum = d.readFileNum
d.nextReadPos = 0
// significant state change, schedule a sync on the next iteration
d.needSync = true
}
// ioLoop provides the backend for exposing a go channel (via ReadChan())
// in support of multiple concurrent queue consumers
//
// it works by looping and branching based on whether or not the queue has data
// to read and blocking until data is either read or written over the appropriate
// go channels
//
// conveniently this also means that we're asynchronously reading from the filesystem
func (d *DiskQueue) ioLoop() {
var dataRead []byte
var err error
var count int64
var r chan []byte
syncTicker := time.NewTicker(d.syncTimeout)
for {
count++
// dont sync all the time :)
if count == d.syncEvery {
count = 0
d.needSync = true
}
if d.needSync {
err = d.sync()
if err != nil {
log.Printf("ERROR: diskqueue(%s) failed to sync - %s", d.name, err.Error())
}
}
if (d.readFileNum < d.writeFileNum) || (d.readPos < d.writePos) {
if d.nextReadPos == d.readPos {
dataRead, err = d.readOne()
if err != nil {
log.Printf("ERROR: reading from diskqueue(%s) at %d of %s - %s",
d.name, d.readPos, d.fileName(d.readFileNum), err.Error())
d.handleReadError()
continue
}
}
r = d.readChan
} else {
r = nil
}
select {
// the Go channel spec dictates that nil channel operations (read or write)
// in a select are skipped, we set r to d.readChan only when there is data to read
case r <- dataRead:
d.moveForward()
case <-d.emptyChan:
d.emptyResponseChan <- d.deleteAllFiles()
case dataWrite := <-d.writeChan:
d.writeResponseChan <- d.writeOne(dataWrite)
case <-syncTicker.C:
d.needSync = true
case <-d.exitChan:
goto exit
}
}
exit:
log.Printf("DISKQUEUE(%s): closing ... ioLoop", d.name)
syncTicker.Stop()
d.exitSyncChan <- 1
}