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value.go
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/*
* Copyright 2017 Dgraph Labs, Inc. and Contributors
*
* 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 badger
import (
"bufio"
"bytes"
"encoding/binary"
"fmt"
"hash/crc32"
"io"
"io/ioutil"
"math"
"math/rand"
"os"
"sort"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/dgraph-io/badger/options"
"github.com/dgraph-io/badger/y"
"github.com/pkg/errors"
"golang.org/x/net/trace"
)
// Values have their first byte being byteData or byteDelete. This helps us distinguish between
// a key that has never been seen and a key that has been explicitly deleted.
const (
bitDelete byte = 1 << 0 // Set if the key has been deleted.
bitValuePointer byte = 1 << 1 // Set if the value is NOT stored directly next to key.
bitDiscardEarlierVersions byte = 1 << 2 // Set if earlier versions can be discarded.
// The MSB 2 bits are for transactions.
bitTxn byte = 1 << 6 // Set if the entry is part of a txn.
bitFinTxn byte = 1 << 7 // Set if the entry is to indicate end of txn in value log.
mi int64 = 1 << 20
)
type logFile struct {
path string
// This is a lock on the log file. It guards the fd’s value, the file’s
// existence and the file’s memory map.
//
// Use shared ownership when reading/writing the file or memory map, use
// exclusive ownership to open/close the descriptor, unmap or remove the file.
lock sync.RWMutex
fd *os.File
fid uint32
fmap []byte
size uint32
loadingMode options.FileLoadingMode
}
// openReadOnly assumes that we have a write lock on logFile.
func (lf *logFile) openReadOnly() error {
var err error
lf.fd, err = os.OpenFile(lf.path, os.O_RDONLY, 0666)
if err != nil {
return errors.Wrapf(err, "Unable to open %q as RDONLY.", lf.path)
}
fi, err := lf.fd.Stat()
if err != nil {
return errors.Wrapf(err, "Unable to check stat for %q", lf.path)
}
y.AssertTrue(fi.Size() <= math.MaxUint32)
lf.size = uint32(fi.Size())
if err = lf.mmap(fi.Size()); err != nil {
_ = lf.fd.Close()
return y.Wrapf(err, "Unable to map file")
}
return nil
}
func (lf *logFile) mmap(size int64) (err error) {
if lf.loadingMode != options.MemoryMap {
// Nothing to do
return nil
}
lf.fmap, err = y.Mmap(lf.fd, false, size)
if err == nil {
err = y.Madvise(lf.fmap, false) // Disable readahead
}
return err
}
func (lf *logFile) munmap() (err error) {
if lf.loadingMode != options.MemoryMap {
// Nothing to do
return nil
}
if err := y.Munmap(lf.fmap); err != nil {
return errors.Wrapf(err, "Unable to munmap value log: %q", lf.path)
}
return nil
}
// Acquire lock on mmap/file if you are calling this
func (lf *logFile) read(p valuePointer, s *y.Slice) (buf []byte, err error) {
var nbr int64
offset := p.Offset
if lf.loadingMode == options.FileIO {
buf = s.Resize(int(p.Len))
var n int
n, err = lf.fd.ReadAt(buf, int64(offset))
nbr = int64(n)
} else {
// Do not convert size to uint32, because the lf.fmap can be of size
// 4GB, which overflows the uint32 during conversion to make the size 0,
// causing the read to fail with ErrEOF. See issue #585.
size := int64(len(lf.fmap))
valsz := p.Len
if int64(offset) >= size || int64(offset+valsz) > size {
err = y.ErrEOF
} else {
buf = lf.fmap[offset : offset+valsz]
nbr = int64(valsz)
}
}
y.NumReads.Add(1)
y.NumBytesRead.Add(nbr)
return buf, err
}
func (lf *logFile) doneWriting(offset uint32) error {
// Sync before acquiring lock. (We call this from write() and thus know we have shared access
// to the fd.)
if err := lf.fd.Sync(); err != nil {
return errors.Wrapf(err, "Unable to sync value log: %q", lf.path)
}
// Close and reopen the file read-only. Acquire lock because fd will become invalid for a bit.
// Acquiring the lock is bad because, while we don't hold the lock for a long time, it forces
// one batch of readers wait for the preceding batch of readers to finish.
//
// If there's a benefit to reopening the file read-only, it might be on Windows. I don't know
// what the benefit is. Consider keeping the file read-write, or use fcntl to change
// permissions.
lf.lock.Lock()
defer lf.lock.Unlock()
if err := lf.munmap(); err != nil {
return err
}
// TODO: Confirm if we need to run a file sync after truncation.
// Truncation must run after unmapping, otherwise Windows would crap itself.
if err := lf.fd.Truncate(int64(offset)); err != nil {
return errors.Wrapf(err, "Unable to truncate file: %q", lf.path)
}
if err := lf.fd.Close(); err != nil {
return errors.Wrapf(err, "Unable to close value log: %q", lf.path)
}
return lf.openReadOnly()
}
// You must hold lf.lock to sync()
func (lf *logFile) sync() error {
return lf.fd.Sync()
}
var errStop = errors.New("Stop iteration")
var errTruncate = errors.New("Do truncate")
type logEntry func(e Entry, vp valuePointer) error
type safeRead struct {
k []byte
v []byte
recordOffset uint32
}
func (r *safeRead) Entry(reader *bufio.Reader) (*Entry, error) {
var hbuf [headerBufSize]byte
var err error
hash := crc32.New(y.CastagnoliCrcTable)
tee := io.TeeReader(reader, hash)
if _, err = io.ReadFull(tee, hbuf[:]); err != nil {
return nil, err
}
var h header
h.Decode(hbuf[:])
if h.klen > uint32(1<<16) { // Key length must be below uint16.
return nil, errTruncate
}
kl := int(h.klen)
if cap(r.k) < kl {
r.k = make([]byte, 2*kl)
}
vl := int(h.vlen)
if cap(r.v) < vl {
r.v = make([]byte, 2*vl)
}
e := &Entry{}
e.offset = r.recordOffset
e.Key = r.k[:kl]
e.Value = r.v[:vl]
if _, err = io.ReadFull(tee, e.Key); err != nil {
if err == io.EOF {
err = errTruncate
}
return nil, err
}
if _, err = io.ReadFull(tee, e.Value); err != nil {
if err == io.EOF {
err = errTruncate
}
return nil, err
}
var crcBuf [4]byte
if _, err = io.ReadFull(reader, crcBuf[:]); err != nil {
if err == io.EOF {
err = errTruncate
}
return nil, err
}
crc := binary.BigEndian.Uint32(crcBuf[:])
if crc != hash.Sum32() {
return nil, errTruncate
}
e.meta = h.meta
e.UserMeta = h.userMeta
e.ExpiresAt = h.expiresAt
return e, nil
}
// iterate iterates over log file. It doesn't not allocate new memory for every kv pair.
// Therefore, the kv pair is only valid for the duration of fn call.
func (vlog *valueLog) iterate(lf *logFile, offset uint32, fn logEntry) (uint32, error) {
fi, err := lf.fd.Stat()
if err != nil {
return 0, err
}
if int64(offset) == fi.Size() {
// We're at the end of the file already. No need to do anything.
return offset, nil
}
if vlog.opt.ReadOnly {
// We're not at the end of the file. We'd need to replay the entries, or
// possibly truncate the file.
return 0, ErrReplayNeeded
}
// We're not at the end of the file. Let's Seek to the offset and start reading.
if _, err := lf.fd.Seek(int64(offset), io.SeekStart); err != nil {
return 0, errFile(err, lf.path, "Unable to seek")
}
reader := bufio.NewReader(lf.fd)
read := &safeRead{
k: make([]byte, 10),
v: make([]byte, 10),
recordOffset: offset,
}
var lastCommit uint64
var validEndOffset uint32
for {
e, err := read.Entry(reader)
if err == io.EOF {
break
} else if err == io.ErrUnexpectedEOF || err == errTruncate {
break
} else if err != nil {
return 0, err
} else if e == nil {
continue
}
var vp valuePointer
vp.Len = uint32(headerBufSize + len(e.Key) + len(e.Value) + crc32.Size)
read.recordOffset += vp.Len
vp.Offset = e.offset
vp.Fid = lf.fid
if e.meta&bitTxn > 0 {
txnTs := y.ParseTs(e.Key)
if lastCommit == 0 {
lastCommit = txnTs
}
if lastCommit != txnTs {
break
}
} else if e.meta&bitFinTxn > 0 {
txnTs, err := strconv.ParseUint(string(e.Value), 10, 64)
if err != nil || lastCommit != txnTs {
break
}
// Got the end of txn. Now we can store them.
lastCommit = 0
validEndOffset = read.recordOffset
} else {
if lastCommit != 0 {
// This is most likely an entry which was moved as part of GC.
// We shouldn't get this entry in the middle of a transaction.
break
}
validEndOffset = read.recordOffset
}
if err := fn(*e, vp); err != nil {
if err == errStop {
break
}
return 0, errFile(err, lf.path, "Iteration function")
}
}
return validEndOffset, nil
}
func (vlog *valueLog) rewrite(f *logFile, tr trace.Trace) error {
maxFid := atomic.LoadUint32(&vlog.maxFid)
y.AssertTruef(uint32(f.fid) < maxFid, "fid to move: %d. Current max fid: %d", f.fid, maxFid)
tr.LazyPrintf("Rewriting fid: %d", f.fid)
wb := make([]*Entry, 0, 1000)
var size int64
y.AssertTrue(vlog.db != nil)
var count, moved int
fe := func(e Entry) error {
count++
if count%100000 == 0 {
tr.LazyPrintf("Processing entry %d", count)
}
vs, err := vlog.db.get(e.Key)
if err != nil {
return err
}
if discardEntry(e, vs) {
return nil
}
// Value is still present in value log.
if len(vs.Value) == 0 {
return errors.Errorf("Empty value: %+v", vs)
}
var vp valuePointer
vp.Decode(vs.Value)
if vp.Fid > f.fid {
return nil
}
if vp.Offset > e.offset {
return nil
}
if vp.Fid == f.fid && vp.Offset == e.offset {
moved++
// This new entry only contains the key, and a pointer to the value.
ne := new(Entry)
ne.meta = 0 // Remove all bits. Different keyspace doesn't need these bits.
ne.UserMeta = e.UserMeta
// Create a new key in a separate keyspace, prefixed by moveKey. We are not
// allowed to rewrite an older version of key in the LSM tree, because then this older
// version would be at the top of the LSM tree. To work correctly, reads expect the
// latest versions to be at the top, and the older versions at the bottom.
if bytes.HasPrefix(e.Key, badgerMove) {
ne.Key = append([]byte{}, e.Key...)
} else {
ne.Key = append([]byte{}, badgerMove...)
ne.Key = append(ne.Key, e.Key...)
}
ne.Value = append([]byte{}, e.Value...)
wb = append(wb, ne)
size += int64(e.estimateSize(vlog.opt.ValueThreshold))
if size >= 64*mi {
tr.LazyPrintf("request has %d entries, size %d", len(wb), size)
if err := vlog.db.batchSet(wb); err != nil {
return err
}
size = 0
wb = wb[:0]
}
} else {
Warningf("This entry should have been caught. %+v\n", e)
}
return nil
}
_, err := vlog.iterate(f, 0, func(e Entry, vp valuePointer) error {
return fe(e)
})
if err != nil {
return err
}
tr.LazyPrintf("request has %d entries, size %d", len(wb), size)
batchSize := 1024
var loops int
for i := 0; i < len(wb); {
loops++
if batchSize == 0 {
Warningf("We shouldn't reach batch size of zero.")
return ErrNoRewrite
}
end := i + batchSize
if end > len(wb) {
end = len(wb)
}
if err := vlog.db.batchSet(wb[i:end]); err != nil {
if err == ErrTxnTooBig {
// Decrease the batch size to half.
batchSize = batchSize / 2
tr.LazyPrintf("Dropped batch size to %d", batchSize)
continue
}
return err
}
i += batchSize
}
tr.LazyPrintf("Processed %d entries in %d loops", len(wb), loops)
tr.LazyPrintf("Total entries: %d. Moved: %d", count, moved)
tr.LazyPrintf("Removing fid: %d", f.fid)
var deleteFileNow bool
// Entries written to LSM. Remove the older file now.
{
vlog.filesLock.Lock()
// Just a sanity-check.
if _, ok := vlog.filesMap[f.fid]; !ok {
vlog.filesLock.Unlock()
return errors.Errorf("Unable to find fid: %d", f.fid)
}
if vlog.numActiveIterators == 0 {
delete(vlog.filesMap, f.fid)
deleteFileNow = true
} else {
vlog.filesToBeDeleted = append(vlog.filesToBeDeleted, f.fid)
}
vlog.filesLock.Unlock()
}
if deleteFileNow {
vlog.deleteLogFile(f)
}
return nil
}
func (vlog *valueLog) deleteMoveKeysFor(fid uint32, tr trace.Trace) error {
db := vlog.db
var result []*Entry
var count, pointers uint64
tr.LazyPrintf("Iterating over move keys to find invalids for fid: %d", fid)
err := db.View(func(txn *Txn) error {
opt := DefaultIteratorOptions
opt.internalAccess = true
opt.PrefetchValues = false
itr := txn.NewIterator(opt)
defer itr.Close()
for itr.Seek(badgerMove); itr.ValidForPrefix(badgerMove); itr.Next() {
count++
item := itr.Item()
if item.meta&bitValuePointer == 0 {
continue
}
pointers++
var vp valuePointer
vp.Decode(item.vptr)
if vp.Fid == fid {
e := &Entry{Key: y.KeyWithTs(item.Key(), item.Version()), meta: bitDelete}
result = append(result, e)
}
}
return nil
})
if err != nil {
tr.LazyPrintf("Got error while iterating move keys: %v", err)
tr.SetError()
return err
}
tr.LazyPrintf("Num total move keys: %d. Num pointers: %d", count, pointers)
tr.LazyPrintf("Number of invalid move keys found: %d", len(result))
batchSize := 10240
for i := 0; i < len(result); {
end := i + batchSize
if end > len(result) {
end = len(result)
}
if err := db.batchSet(result[i:end]); err != nil {
if err == ErrTxnTooBig {
batchSize /= 2
tr.LazyPrintf("Dropped batch size to %d", batchSize)
continue
}
tr.LazyPrintf("Error while doing batchSet: %v", err)
tr.SetError()
return err
}
i += batchSize
}
tr.LazyPrintf("Move keys deletion done.")
return nil
}
func (vlog *valueLog) incrIteratorCount() {
atomic.AddInt32(&vlog.numActiveIterators, 1)
}
func (vlog *valueLog) decrIteratorCount() error {
num := atomic.AddInt32(&vlog.numActiveIterators, -1)
if num != 0 {
return nil
}
vlog.filesLock.Lock()
lfs := make([]*logFile, 0, len(vlog.filesToBeDeleted))
for _, id := range vlog.filesToBeDeleted {
lfs = append(lfs, vlog.filesMap[id])
delete(vlog.filesMap, id)
}
vlog.filesToBeDeleted = nil
vlog.filesLock.Unlock()
for _, lf := range lfs {
if err := vlog.deleteLogFile(lf); err != nil {
return err
}
}
return nil
}
func (vlog *valueLog) deleteLogFile(lf *logFile) error {
path := vlog.fpath(lf.fid)
if err := lf.munmap(); err != nil {
_ = lf.fd.Close()
return err
}
if err := lf.fd.Close(); err != nil {
return err
}
return os.Remove(path)
}
// lfDiscardStats keeps track of the amount of data that could be discarded for
// a given logfile.
type lfDiscardStats struct {
sync.Mutex
m map[uint32]int64
}
type valueLog struct {
buf bytes.Buffer
dirPath string
elog trace.EventLog
// guards our view of which files exist, which to be deleted, how many active iterators
filesLock sync.RWMutex
filesMap map[uint32]*logFile
filesToBeDeleted []uint32
// A refcount of iterators -- when this hits zero, we can delete the filesToBeDeleted.
numActiveIterators int32
db *DB
maxFid uint32 // accessed via atomics.
writableLogOffset uint32 // read by read, written by write. Must access via atomics.
numEntriesWritten uint32
opt Options
garbageCh chan struct{}
lfDiscardStats *lfDiscardStats
}
func vlogFilePath(dirPath string, fid uint32) string {
return fmt.Sprintf("%s%s%06d.vlog", dirPath, string(os.PathSeparator), fid)
}
func (vlog *valueLog) fpath(fid uint32) string {
return vlogFilePath(vlog.dirPath, fid)
}
func (vlog *valueLog) populateFilesMap() error {
vlog.filesMap = make(map[uint32]*logFile)
files, err := ioutil.ReadDir(vlog.dirPath)
if err != nil {
return errFile(err, vlog.dirPath, "Unable to open log dir.")
}
found := make(map[uint64]struct{})
for _, file := range files {
if !strings.HasSuffix(file.Name(), ".vlog") {
continue
}
fsz := len(file.Name())
fid, err := strconv.ParseUint(file.Name()[:fsz-5], 10, 32)
if err != nil {
return errFile(err, file.Name(), "Unable to parse log id.")
}
if _, ok := found[fid]; ok {
return errFile(err, file.Name(), "Duplicate file found. Please delete one.")
}
found[fid] = struct{}{}
lf := &logFile{
fid: uint32(fid),
path: vlog.fpath(uint32(fid)),
loadingMode: vlog.opt.ValueLogLoadingMode,
}
vlog.filesMap[uint32(fid)] = lf
if vlog.maxFid < uint32(fid) {
vlog.maxFid = uint32(fid)
}
}
return nil
}
func (vlog *valueLog) createVlogFile(fid uint32) (*logFile, error) {
path := vlog.fpath(fid)
lf := &logFile{
fid: fid,
path: path,
loadingMode: vlog.opt.ValueLogLoadingMode,
}
// writableLogOffset is only written by write func, by read by Read func.
// To avoid a race condition, all reads and updates to this variable must be
// done via atomics.
atomic.StoreUint32(&vlog.writableLogOffset, 0)
vlog.numEntriesWritten = 0
var err error
if lf.fd, err = y.CreateSyncedFile(path, vlog.opt.SyncWrites); err != nil {
return nil, errFile(err, lf.path, "Create value log file")
}
if err = syncDir(vlog.dirPath); err != nil {
return nil, errFile(err, vlog.dirPath, "Sync value log dir")
}
if err = lf.mmap(2 * vlog.opt.ValueLogFileSize); err != nil {
return nil, errFile(err, lf.path, "Mmap value log file")
}
vlog.filesLock.Lock()
vlog.filesMap[fid] = lf
vlog.filesLock.Unlock()
return lf, nil
}
func errFile(err error, path string, msg string) error {
return fmt.Errorf("%s. Path=%s. Error=%v", msg, path, err)
}
func (vlog *valueLog) replayLog(lf *logFile, offset uint32, replayFn logEntry) error {
// We should open the file in RW mode, so it can be truncated.
var err error
lf.fd, err = os.OpenFile(lf.path, os.O_RDWR, 0)
if err != nil {
return errFile(err, lf.path, "Open file in RW mode")
}
defer lf.fd.Close()
fi, err := lf.fd.Stat()
if err != nil {
return errFile(err, lf.path, "Unable to run file.Stat")
}
// Alright, let's iterate now.
endOffset, err := vlog.iterate(lf, offset, replayFn)
if err != nil {
return errFile(err, lf.path, "Unable to replay logfile")
}
if int64(endOffset) == fi.Size() {
return nil
}
// End offset is different from file size. So, we should truncate the file
// to that size.
y.AssertTrue(int64(endOffset) <= fi.Size())
if !vlog.opt.Truncate {
return ErrTruncateNeeded
}
if err := lf.fd.Truncate(int64(endOffset)); err != nil {
return errFile(err, lf.path, fmt.Sprintf(
"Truncation needed at offset %d. Can be done manually as well.", endOffset))
}
return nil
}
func (vlog *valueLog) open(db *DB, ptr valuePointer, replayFn logEntry) error {
opt := db.opt
vlog.opt = opt
vlog.dirPath = opt.ValueDir
vlog.db = db
vlog.elog = trace.NewEventLog("Badger", "Valuelog")
vlog.garbageCh = make(chan struct{}, 1) // Only allow one GC at a time.
vlog.lfDiscardStats = &lfDiscardStats{m: make(map[uint32]int64)}
if err := vlog.populateFilesMap(); err != nil {
return err
}
// If no files are found, then create a new file.
if len(vlog.filesMap) == 0 {
_, err := vlog.createVlogFile(0)
return err
}
fids := vlog.sortedFids()
for _, fid := range fids {
lf, ok := vlog.filesMap[fid]
y.AssertTrue(ok)
// This file is before the value head pointer. So, we don't need to
// replay it, and can just open it in readonly mode.
if fid < ptr.Fid {
if err := lf.openReadOnly(); err != nil {
return err
}
continue
}
var offset uint32
if fid == ptr.Fid {
offset = ptr.Offset + ptr.Len
}
Infof("Replaying file id: %d at offset: %d\n", fid, offset)
now := time.Now()
// Replay and possible truncation done. Now we can open the file as per
// user specified options.
if err := vlog.replayLog(lf, offset, replayFn); err != nil {
return err
}
Infof("Replay took: %s\n", time.Since(now))
if fid < vlog.maxFid {
if err := lf.openReadOnly(); err != nil {
return err
}
} else {
var flags uint32
switch {
case vlog.opt.ReadOnly:
// If we have read only, we don't need SyncWrites.
flags |= y.ReadOnly
case vlog.opt.SyncWrites:
flags |= y.Sync
}
var err error
if lf.fd, err = y.OpenExistingFile(vlog.fpath(fid), flags); err != nil {
return errFile(err, lf.path, "Open existing file")
}
}
}
// Seek to the end to start writing.
last, ok := vlog.filesMap[vlog.maxFid]
y.AssertTrue(ok)
lastOffset, err := last.fd.Seek(0, io.SeekEnd)
if err != nil {
return errFile(err, last.path, "file.Seek to end")
}
vlog.writableLogOffset = uint32(lastOffset)
// Map the file if needed. When we create a file, it is automatically mapped.
if err = last.mmap(2 * opt.ValueLogFileSize); err != nil {
return errFile(err, last.path, "Map log file")
}
return nil
}
func (vlog *valueLog) Close() error {
vlog.elog.Printf("Stopping garbage collection of values.")
defer vlog.elog.Finish()
var err error
for id, f := range vlog.filesMap {
f.lock.Lock() // We won’t release the lock.
if munmapErr := f.munmap(); munmapErr != nil && err == nil {
err = munmapErr
}
maxFid := atomic.LoadUint32(&vlog.maxFid)
if !vlog.opt.ReadOnly && id == maxFid {
// truncate writable log file to correct offset.
if truncErr := f.fd.Truncate(
int64(vlog.woffset())); truncErr != nil && err == nil {
err = truncErr
}
}
if closeErr := f.fd.Close(); closeErr != nil && err == nil {
err = closeErr
}
}
return err
}
// sortedFids returns the file id's not pending deletion, sorted. Assumes we have shared access to
// filesMap.
func (vlog *valueLog) sortedFids() []uint32 {
toBeDeleted := make(map[uint32]struct{})
for _, fid := range vlog.filesToBeDeleted {
toBeDeleted[fid] = struct{}{}
}
ret := make([]uint32, 0, len(vlog.filesMap))
for fid := range vlog.filesMap {
if _, ok := toBeDeleted[fid]; !ok {
ret = append(ret, fid)
}
}
sort.Slice(ret, func(i, j int) bool {
return ret[i] < ret[j]
})
return ret
}
type request struct {
// Input values
Entries []*Entry
// Output values and wait group stuff below
Ptrs []valuePointer
Wg sync.WaitGroup
Err error
}
func (req *request) Wait() error {
req.Wg.Wait()
req.Entries = nil
err := req.Err
requestPool.Put(req)
return err
}
// sync is thread-unsafe and should not be called concurrently with write.
func (vlog *valueLog) sync() error {
if vlog.opt.SyncWrites {
return nil
}
vlog.filesLock.RLock()
if len(vlog.filesMap) == 0 {
vlog.filesLock.RUnlock()
return nil
}
maxFid := atomic.LoadUint32(&vlog.maxFid)
curlf := vlog.filesMap[maxFid]
curlf.lock.RLock()
vlog.filesLock.RUnlock()
dirSyncCh := make(chan error)
go func() { dirSyncCh <- syncDir(vlog.opt.ValueDir) }()
err := curlf.sync()
curlf.lock.RUnlock()
dirSyncErr := <-dirSyncCh
if err != nil {
err = dirSyncErr
}
return err
}
func (vlog *valueLog) woffset() uint32 {
return atomic.LoadUint32(&vlog.writableLogOffset)
}
// write is thread-unsafe by design and should not be called concurrently.
func (vlog *valueLog) write(reqs []*request) error {
vlog.filesLock.RLock()
maxFid := atomic.LoadUint32(&vlog.maxFid)
curlf := vlog.filesMap[maxFid]
vlog.filesLock.RUnlock()
toDisk := func() error {
if vlog.buf.Len() == 0 {
return nil
}
vlog.elog.Printf("Flushing %d blocks of total size: %d", len(reqs), vlog.buf.Len())
n, err := curlf.fd.Write(vlog.buf.Bytes())
if err != nil {
return errors.Wrapf(err, "Unable to write to value log file: %q", curlf.path)
}
y.NumWrites.Add(1)
y.NumBytesWritten.Add(int64(n))
vlog.elog.Printf("Done")
atomic.AddUint32(&vlog.writableLogOffset, uint32(n))
vlog.buf.Reset()
if vlog.woffset() > uint32(vlog.opt.ValueLogFileSize) ||
vlog.numEntriesWritten > vlog.opt.ValueLogMaxEntries {
var err error
if err = curlf.doneWriting(vlog.writableLogOffset); err != nil {
return err
}
newid := atomic.AddUint32(&vlog.maxFid, 1)
y.AssertTruef(newid > 0, "newid has overflown uint32: %v", newid)
newlf, err := vlog.createVlogFile(newid)
if err != nil {
return err
}
curlf = newlf
}
return nil
}
for i := range reqs {
b := reqs[i]
b.Ptrs = b.Ptrs[:0]
for j := range b.Entries {
e := b.Entries[j]
var p valuePointer
p.Fid = curlf.fid
// Use the offset including buffer length so far.
p.Offset = vlog.woffset() + uint32(vlog.buf.Len())
plen, err := encodeEntry(e, &vlog.buf) // Now encode the entry into buffer.
if err != nil {
return err
}
p.Len = uint32(plen)
b.Ptrs = append(b.Ptrs, p)
}
vlog.numEntriesWritten += uint32(len(b.Entries))
// We write to disk here so that all entries that are part of the same transaction are
// written to the same vlog file.
writeNow :=
vlog.woffset()+uint32(vlog.buf.Len()) > uint32(vlog.opt.ValueLogFileSize) ||
vlog.numEntriesWritten > uint32(vlog.opt.ValueLogMaxEntries)
if writeNow {
if err := toDisk(); err != nil {
return err
}
}
}
return toDisk()
// Acquire mutex locks around this manipulation, so that the reads don't try to use
// an invalid file descriptor.
}
// Gets the logFile and acquires and RLock() for the mmap. You must call RUnlock on the file
// (if non-nil)
func (vlog *valueLog) getFileRLocked(fid uint32) (*logFile, error) {
vlog.filesLock.RLock()
defer vlog.filesLock.RUnlock()
ret, ok := vlog.filesMap[fid]
if !ok {
// log file has gone away, will need to retry the operation.
return nil, ErrRetry
}
ret.lock.RLock()
return ret, nil
}
// Read reads the value log at a given location.
// TODO: Make this read private.
func (vlog *valueLog) Read(vp valuePointer, s *y.Slice) ([]byte, func(), error) {
// Check for valid offset if we are reading to writable log.
maxFid := atomic.LoadUint32(&vlog.maxFid)
if vp.Fid == maxFid && vp.Offset >= vlog.woffset() {
return nil, nil, errors.Errorf(
"Invalid value pointer offset: %d greater than current offset: %d",
vp.Offset, vlog.woffset())
}
buf, cb, err := vlog.readValueBytes(vp, s)
if err != nil {
return nil, cb, err
}
var h header
h.Decode(buf)
n := uint32(headerBufSize) + h.klen
return buf[n : n+h.vlen], cb, nil
}
func (vlog *valueLog) readValueBytes(vp valuePointer, s *y.Slice) ([]byte, func(), error) {
lf, err := vlog.getFileRLocked(vp.Fid)
if err != nil {
return nil, nil, err
}
buf, err := lf.read(vp, s)
if vlog.opt.ValueLogLoadingMode == options.MemoryMap {
return buf, lf.lock.RUnlock, err