/usr/share/gocode/src/github.com/influxdata/influxdb/tsdb/engine/tsm1/wal.go is in golang-github-influxdb-influxdb-dev 1.0.2+dfsg1-1.
This file is owned by root:root, with mode 0o644.
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import (
"encoding/binary"
"errors"
"fmt"
"io"
"io/ioutil"
"log"
"math"
"os"
"path/filepath"
"sort"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/golang/snappy"
"github.com/influxdata/influxdb/models"
"github.com/influxdata/influxdb/pkg/limiter"
)
const (
// DefaultSegmentSize of 10MB is the size at which segment files will be rolled over
DefaultSegmentSize = 10 * 1024 * 1024
// FileExtension is the file extension we expect for wal segments
WALFileExtension = "wal"
WALFilePrefix = "_"
defaultBufLen = 1024 << 10 // 1MB (sized for batches of 5000 points)
// walEncodeBufSize is the size of the wal entry encoding buffer
walEncodeBufSize = 4 * 1024 * 1024
float64EntryType = 1
integerEntryType = 2
booleanEntryType = 3
stringEntryType = 4
)
// SegmentInfo represents metadata about a segment.
type SegmentInfo struct {
name string
id int
}
// WalEntryType is a byte written to a wal segment file that indicates what the following compressed block contains
type WalEntryType byte
const (
WriteWALEntryType WalEntryType = 0x01
DeleteWALEntryType WalEntryType = 0x02
DeleteRangeWALEntryType WalEntryType = 0x03
)
var (
ErrWALClosed = fmt.Errorf("WAL closed")
ErrWALCorrupt = fmt.Errorf("corrupted WAL entry")
)
// Statistics gathered by the WAL.
const (
statWALOldBytes = "oldSegmentsDiskBytes"
statWALCurrentBytes = "currentSegmentDiskBytes"
statWriteOk = "writeOk"
statWriteErr = "writeErr"
defaultWaitingWALWrites = 10
)
type WAL struct {
mu sync.RWMutex
lastWriteTime time.Time
path string
// write variables
currentSegmentID int
currentSegmentWriter *WALSegmentWriter
// cache and flush variables
closing chan struct{}
// WALOutput is the writer used by the logger.
logger *log.Logger // Logger to be used for important messages
traceLogger *log.Logger // Logger to be used when trace-logging is on.
logOutput io.Writer // Writer to be logger and traceLogger if active.
traceLogging bool
// SegmentSize is the file size at which a segment file will be rotated
SegmentSize int
// statistics for the WAL
stats *WALStatistics
limiter limiter.Fixed
}
func NewWAL(path string) *WAL {
return &WAL{
path: path,
// these options should be overriden by any options in the config
SegmentSize: DefaultSegmentSize,
closing: make(chan struct{}),
stats: &WALStatistics{},
limiter: limiter.NewFixed(defaultWaitingWALWrites),
logger: log.New(os.Stderr, "[tsm1wal] ", log.LstdFlags),
traceLogger: log.New(ioutil.Discard, "[tsm1wal] ", log.LstdFlags),
logOutput: os.Stderr,
}
}
// enableTraceLogging must be called before the WAL is opened.
func (l *WAL) enableTraceLogging(enabled bool) {
l.traceLogging = enabled
if enabled {
l.traceLogger.SetOutput(l.logOutput)
}
}
// SetLogOutput sets the location that logs are written to. It is safe for
// concurrent use.
func (l *WAL) SetLogOutput(w io.Writer) {
l.logger.SetOutput(w)
// Set the trace logger's output only if trace logging is enabled.
if l.traceLogging {
l.traceLogger.SetOutput(w)
}
l.mu.Lock()
l.logOutput = w
l.mu.Unlock()
}
// WALStatistics maintains statistics about the WAL.
type WALStatistics struct {
OldBytes int64
CurrentBytes int64
WriteOK int64
WriteErr int64
}
// Statistics returns statistics for periodic monitoring.
func (l *WAL) Statistics(tags map[string]string) []models.Statistic {
return []models.Statistic{{
Name: "tsm1_wal",
Tags: tags,
Values: map[string]interface{}{
statWALOldBytes: atomic.LoadInt64(&l.stats.OldBytes),
statWALCurrentBytes: atomic.LoadInt64(&l.stats.CurrentBytes),
statWriteOk: atomic.LoadInt64(&l.stats.WriteOK),
statWriteErr: atomic.LoadInt64(&l.stats.WriteErr),
},
}}
}
// Path returns the path the log was initialized with.
func (l *WAL) Path() string {
l.mu.RLock()
defer l.mu.RUnlock()
return l.path
}
// Open opens and initializes the Log. Will recover from previous unclosed shutdowns
func (l *WAL) Open() error {
l.mu.Lock()
defer l.mu.Unlock()
l.traceLogger.Printf("tsm1 WAL starting with %d segment size\n", l.SegmentSize)
l.traceLogger.Printf("tsm1 WAL writing to %s\n", l.path)
if err := os.MkdirAll(l.path, 0777); err != nil {
return err
}
segments, err := segmentFileNames(l.path)
if err != nil {
return err
}
if len(segments) > 0 {
lastSegment := segments[len(segments)-1]
id, err := idFromFileName(lastSegment)
if err != nil {
return err
}
l.currentSegmentID = id
stat, err := os.Stat(lastSegment)
if err != nil {
return err
}
if stat.Size() == 0 {
os.Remove(lastSegment)
segments = segments[:len(segments)-1]
}
if err := l.newSegmentFile(); err != nil {
return err
}
}
var totalOldDiskSize int64
for _, seg := range segments {
stat, err := os.Stat(seg)
if err != nil {
return err
}
totalOldDiskSize += stat.Size()
}
atomic.StoreInt64(&l.stats.OldBytes, totalOldDiskSize)
l.closing = make(chan struct{})
l.lastWriteTime = time.Now()
return nil
}
// WritePoints writes the given points to the WAL. Returns the WAL segment ID to
// which the points were written. If an error is returned the segment ID should
// be ignored.
func (l *WAL) WritePoints(values map[string][]Value) (int, error) {
entry := &WriteWALEntry{
Values: values,
}
id, err := l.writeToLog(entry)
if err != nil {
atomic.AddInt64(&l.stats.WriteErr, 1)
return -1, err
}
atomic.AddInt64(&l.stats.WriteOK, 1)
return id, nil
}
func (l *WAL) ClosedSegments() ([]string, error) {
l.mu.RLock()
defer l.mu.RUnlock()
// Not loading files from disk so nothing to do
if l.path == "" {
return nil, nil
}
var currentFile string
if l.currentSegmentWriter != nil {
currentFile = l.currentSegmentWriter.path()
}
files, err := segmentFileNames(l.path)
if err != nil {
return nil, err
}
var closedFiles []string
for _, fn := range files {
// Skip the current path
if fn == currentFile {
continue
}
closedFiles = append(closedFiles, fn)
}
return closedFiles, nil
}
func (l *WAL) Remove(files []string) error {
l.mu.Lock()
defer l.mu.Unlock()
for _, fn := range files {
l.traceLogger.Printf("Removing %s", fn)
os.RemoveAll(fn)
}
// Refresh the on-disk size stats
segments, err := segmentFileNames(l.path)
if err != nil {
return err
}
var totalOldDiskSize int64
for _, seg := range segments {
stat, err := os.Stat(seg)
if err != nil {
return err
}
totalOldDiskSize += stat.Size()
}
atomic.StoreInt64(&l.stats.OldBytes, totalOldDiskSize)
return nil
}
// LastWriteTime is the last time anything was written to the WAL
func (l *WAL) LastWriteTime() time.Time {
l.mu.RLock()
defer l.mu.RUnlock()
return l.lastWriteTime
}
func (l *WAL) writeToLog(entry WALEntry) (int, error) {
// limit how many concurrent encodings can be in flight. Since we can only
// write one at a time to disk, a slow disk can cause the allocations below
// to increase quickly. If we're backed up, wait until others have completed.
l.limiter.Take()
defer l.limiter.Release()
// encode and compress the entry while we're not locked
bytes := getBuf(walEncodeBufSize)
defer putBuf(bytes)
b, err := entry.Encode(bytes)
if err != nil {
return -1, err
}
encBuf := getBuf(snappy.MaxEncodedLen(len(b)))
defer putBuf(encBuf)
compressed := snappy.Encode(encBuf, b)
l.mu.Lock()
defer l.mu.Unlock()
// Make sure the log has not been closed
select {
case <-l.closing:
return -1, ErrWALClosed
default:
}
// roll the segment file if needed
if err := l.rollSegment(); err != nil {
return -1, fmt.Errorf("error rolling WAL segment: %v", err)
}
// write and sync
if err := l.currentSegmentWriter.Write(entry.Type(), compressed); err != nil {
return -1, fmt.Errorf("error writing WAL entry: %v", err)
}
// Update stats for current segment size
atomic.StoreInt64(&l.stats.CurrentBytes, int64(l.currentSegmentWriter.size))
l.lastWriteTime = time.Now()
return l.currentSegmentID, l.currentSegmentWriter.sync()
}
// rollSegment closes the current segment and opens a new one if the current segment is over
// the max segment size.
func (l *WAL) rollSegment() error {
if l.currentSegmentWriter == nil || l.currentSegmentWriter.size > DefaultSegmentSize {
if err := l.newSegmentFile(); err != nil {
// A drop database or RP call could trigger this error if writes were in-flight
// when the drop statement executes.
return fmt.Errorf("error opening new segment file for wal (2): %v", err)
}
return nil
}
return nil
}
// CloseSegment closes the current segment if it is non-empty and opens a new one.
func (l *WAL) CloseSegment() error {
l.mu.Lock()
defer l.mu.Unlock()
if l.currentSegmentWriter == nil || l.currentSegmentWriter.size > 0 {
if err := l.newSegmentFile(); err != nil {
// A drop database or RP call could trigger this error if writes were in-flight
// when the drop statement executes.
return fmt.Errorf("error opening new segment file for wal (1): %v", err)
}
return nil
}
return nil
}
// Delete deletes the given keys, returning the segment ID for the operation.
func (l *WAL) Delete(keys []string) (int, error) {
if len(keys) == 0 {
return 0, nil
}
entry := &DeleteWALEntry{
Keys: keys,
}
id, err := l.writeToLog(entry)
if err != nil {
return -1, err
}
return id, nil
}
// Delete deletes the given keys, returning the segment ID for the operation.
func (l *WAL) DeleteRange(keys []string, min, max int64) (int, error) {
if len(keys) == 0 {
return 0, nil
}
entry := &DeleteRangeWALEntry{
Keys: keys,
Min: min,
Max: max,
}
id, err := l.writeToLog(entry)
if err != nil {
return -1, err
}
return id, nil
}
// Close will finish any flush that is currently in process and close file handles
func (l *WAL) Close() error {
l.mu.Lock()
defer l.mu.Unlock()
l.traceLogger.Printf("Closing %s", l.path)
// Close, but don't set to nil so future goroutines can still be signaled
close(l.closing)
if l.currentSegmentWriter != nil {
l.currentSegmentWriter.close()
l.currentSegmentWriter = nil
}
return nil
}
// segmentFileNames will return all files that are WAL segment files in sorted order by ascending ID
func segmentFileNames(dir string) ([]string, error) {
names, err := filepath.Glob(filepath.Join(dir, fmt.Sprintf("%s*.%s", WALFilePrefix, WALFileExtension)))
if err != nil {
return nil, err
}
sort.Strings(names)
return names, nil
}
// newSegmentFile will close the current segment file and open a new one, updating bookkeeping info on the log
func (l *WAL) newSegmentFile() error {
l.currentSegmentID++
if l.currentSegmentWriter != nil {
if err := l.currentSegmentWriter.close(); err != nil {
return err
}
atomic.StoreInt64(&l.stats.OldBytes, int64(l.currentSegmentWriter.size))
}
fileName := filepath.Join(l.path, fmt.Sprintf("%s%05d.%s", WALFilePrefix, l.currentSegmentID, WALFileExtension))
fd, err := os.OpenFile(fileName, os.O_CREATE|os.O_RDWR, 0666)
if err != nil {
return err
}
l.currentSegmentWriter = NewWALSegmentWriter(fd)
// Reset the current segment size stat
atomic.StoreInt64(&l.stats.CurrentBytes, 0)
return nil
}
// WALEntry is record stored in each WAL segment. Each entry has a type
// and an opaque, type dependent byte slice data attribute.
type WALEntry interface {
Type() WalEntryType
Encode(dst []byte) ([]byte, error)
MarshalBinary() ([]byte, error)
UnmarshalBinary(b []byte) error
}
// WriteWALEntry represents a write of points.
type WriteWALEntry struct {
Values map[string][]Value
}
// Encode converts the WriteWALEntry into a byte stream using dst if it
// is large enough. If dst is too small, the slice will be grown to fit the
// encoded entry.
func (w *WriteWALEntry) Encode(dst []byte) ([]byte, error) {
// The entries values are encode as follows:
//
// For each key and slice of values, first a 1 byte type for the []Values
// slice is written. Following the type, the length and key bytes are written.
// Following the key, a 4 byte count followed by each value as a 8 byte time
// and N byte value. The value is dependent on the type being encoded. float64,
// int64, use 8 bytes, boolean uses 1 byte, and string is similar to the key encoding,
// except that string values have a 4-byte length, and keys only use 2 bytes.
//
// This structure is then repeated for each key an value slices.
//
// ┌────────────────────────────────────────────────────────────────────┐
// │ WriteWALEntry │
// ├──────┬─────────┬────────┬───────┬─────────┬─────────┬───┬──────┬───┤
// │ Type │ Key Len │ Key │ Count │ Time │ Value │...│ Type │...│
// │1 byte│ 2 bytes │ N bytes│4 bytes│ 8 bytes │ N bytes │ │1 byte│ │
// └──────┴─────────┴────────┴───────┴─────────┴─────────┴───┴──────┴───┘
encLen := 7 * len(w.Values) // Type (1), Key Length (2), and Count (4) for each key
// determine required length
for k, v := range w.Values {
encLen += len(k)
if len(v) == 0 {
return nil, errors.New("empty value slice in WAL entry")
}
encLen += 8 * len(v) // timestamps (8)
switch v[0].(type) {
case *FloatValue, *IntegerValue:
encLen += 8 * len(v)
case *BooleanValue:
encLen += 1 * len(v)
case *StringValue:
for _, vv := range v {
str, ok := vv.(*StringValue)
if !ok {
return nil, fmt.Errorf("non-string found in string value slice: %T", vv)
}
encLen += 4 + len(str.value)
}
default:
return nil, fmt.Errorf("unsupported value type: %T", v[0])
}
}
// allocate or re-slice to correct size
if len(dst) < encLen {
dst = make([]byte, encLen)
} else {
dst = dst[:encLen]
}
// Finally, encode the entry
var n int
var curType byte
for k, v := range w.Values {
switch v[0].(type) {
case *FloatValue:
curType = float64EntryType
case *IntegerValue:
curType = integerEntryType
case *BooleanValue:
curType = booleanEntryType
case *StringValue:
curType = stringEntryType
default:
return nil, fmt.Errorf("unsupported value type: %T", v[0])
}
dst[n] = curType
n++
binary.BigEndian.PutUint16(dst[n:n+2], uint16(len(k)))
n += 2
n += copy(dst[n:], k)
binary.BigEndian.PutUint32(dst[n:n+4], uint32(len(v)))
n += 4
for _, vv := range v {
binary.BigEndian.PutUint64(dst[n:n+8], uint64(vv.UnixNano()))
n += 8
switch vv := vv.(type) {
case *FloatValue:
if curType != float64EntryType {
return nil, fmt.Errorf("incorrect value found in %T slice: %T", v[0].Value(), vv)
}
binary.BigEndian.PutUint64(dst[n:n+8], math.Float64bits(vv.value))
n += 8
case *IntegerValue:
if curType != integerEntryType {
return nil, fmt.Errorf("incorrect value found in %T slice: %T", v[0].Value(), vv)
}
binary.BigEndian.PutUint64(dst[n:n+8], uint64(vv.value))
n += 8
case *BooleanValue:
if curType != booleanEntryType {
return nil, fmt.Errorf("incorrect value found in %T slice: %T", v[0].Value(), vv)
}
if vv.value {
dst[n] = 1
} else {
dst[n] = 0
}
n++
case *StringValue:
if curType != stringEntryType {
return nil, fmt.Errorf("incorrect value found in %T slice: %T", v[0].Value(), vv)
}
binary.BigEndian.PutUint32(dst[n:n+4], uint32(len(vv.value)))
n += 4
n += copy(dst[n:], vv.value)
default:
return nil, fmt.Errorf("unsupported value found in %T slice: %T", v[0].Value(), vv)
}
}
}
return dst[:n], nil
}
func (w *WriteWALEntry) MarshalBinary() ([]byte, error) {
// Temp buffer to write marshaled points into
b := make([]byte, defaultBufLen)
return w.Encode(b)
}
func (w *WriteWALEntry) UnmarshalBinary(b []byte) error {
var i int
for i < len(b) {
typ := b[i]
i++
if i+2 > len(b) {
return ErrWALCorrupt
}
length := int(binary.BigEndian.Uint16(b[i : i+2]))
i += 2
if i+length > len(b) {
return ErrWALCorrupt
}
k := string(b[i : i+length])
i += length
if i+4 > len(b) {
return ErrWALCorrupt
}
nvals := int(binary.BigEndian.Uint32(b[i : i+4]))
i += 4
values := make([]Value, nvals)
switch typ {
case float64EntryType:
for i := 0; i < nvals; i++ {
values[i] = &FloatValue{}
}
case integerEntryType:
for i := 0; i < nvals; i++ {
values[i] = &IntegerValue{}
}
case booleanEntryType:
for i := 0; i < nvals; i++ {
values[i] = &BooleanValue{}
}
case stringEntryType:
for i := 0; i < nvals; i++ {
values[i] = &StringValue{}
}
default:
return fmt.Errorf("unsupported value type: %#v", typ)
}
for j := 0; j < nvals; j++ {
if i+8 > len(b) {
return ErrWALCorrupt
}
un := int64(binary.BigEndian.Uint64(b[i : i+8]))
i += 8
switch typ {
case float64EntryType:
if i+8 > len(b) {
return ErrWALCorrupt
}
v := math.Float64frombits((binary.BigEndian.Uint64(b[i : i+8])))
i += 8
if fv, ok := values[j].(*FloatValue); ok {
fv.unixnano = un
fv.value = v
}
case integerEntryType:
if i+8 > len(b) {
return ErrWALCorrupt
}
v := int64(binary.BigEndian.Uint64(b[i : i+8]))
i += 8
if fv, ok := values[j].(*IntegerValue); ok {
fv.unixnano = un
fv.value = v
}
case booleanEntryType:
if i >= len(b) {
return ErrWALCorrupt
}
v := b[i]
i += 1
if fv, ok := values[j].(*BooleanValue); ok {
fv.unixnano = un
if v == 1 {
fv.value = true
} else {
fv.value = false
}
}
case stringEntryType:
if i+4 > len(b) {
return ErrWALCorrupt
}
length := int(binary.BigEndian.Uint32(b[i : i+4]))
if i+length > int(uint32(len(b))) {
return ErrWALCorrupt
}
i += 4
if i+length > len(b) {
return ErrWALCorrupt
}
v := string(b[i : i+length])
i += length
if fv, ok := values[j].(*StringValue); ok {
fv.unixnano = un
fv.value = v
}
default:
return fmt.Errorf("unsupported value type: %#v", typ)
}
}
w.Values[k] = values
}
return nil
}
func (w *WriteWALEntry) Type() WalEntryType {
return WriteWALEntryType
}
// DeleteWALEntry represents the deletion of multiple series.
type DeleteWALEntry struct {
Keys []string
}
func (w *DeleteWALEntry) MarshalBinary() ([]byte, error) {
b := make([]byte, defaultBufLen)
return w.Encode(b)
}
func (w *DeleteWALEntry) UnmarshalBinary(b []byte) error {
w.Keys = strings.Split(string(b), "\n")
return nil
}
func (w *DeleteWALEntry) Encode(dst []byte) ([]byte, error) {
var n int
for _, k := range w.Keys {
if len(dst[:n])+1+len(k) > len(dst) {
grow := make([]byte, len(dst)*2)
dst = append(dst, grow...)
}
n += copy(dst[n:], k)
n += copy(dst[n:], "\n")
}
// We return n-1 to strip off the last newline so that unmarshalling the value
// does not produce an empty string
return []byte(dst[:n-1]), nil
}
func (w *DeleteWALEntry) Type() WalEntryType {
return DeleteWALEntryType
}
// DeleteRangeWALEntry represents the deletion of multiple series.
type DeleteRangeWALEntry struct {
Keys []string
Min, Max int64
}
func (w *DeleteRangeWALEntry) MarshalBinary() ([]byte, error) {
b := make([]byte, defaultBufLen)
return w.Encode(b)
}
func (w *DeleteRangeWALEntry) UnmarshalBinary(b []byte) error {
if len(b) < 16 {
return ErrWALCorrupt
}
w.Min = int64(binary.BigEndian.Uint64(b[:8]))
w.Max = int64(binary.BigEndian.Uint64(b[8:16]))
i := 16
for i < len(b) {
if i+4 > len(b) {
return ErrWALCorrupt
}
sz := int(binary.BigEndian.Uint32(b[i : i+4]))
i += 4
if i+sz > len(b) {
return ErrWALCorrupt
}
w.Keys = append(w.Keys, string(b[i:i+sz]))
i += sz
}
return nil
}
func (w *DeleteRangeWALEntry) Encode(b []byte) ([]byte, error) {
sz := 16
for _, k := range w.Keys {
sz += len(k)
sz += 4
}
if len(b) < sz {
b = make([]byte, sz)
}
binary.BigEndian.PutUint64(b[:8], uint64(w.Min))
binary.BigEndian.PutUint64(b[8:16], uint64(w.Max))
i := 16
for _, k := range w.Keys {
binary.BigEndian.PutUint32(b[i:i+4], uint32(len(k)))
i += 4
i += copy(b[i:], k)
}
return b[:i], nil
}
func (w *DeleteRangeWALEntry) Type() WalEntryType {
return DeleteRangeWALEntryType
}
// WALSegmentWriter writes WAL segments.
type WALSegmentWriter struct {
w io.WriteCloser
size int
}
func NewWALSegmentWriter(w io.WriteCloser) *WALSegmentWriter {
return &WALSegmentWriter{
w: w,
}
}
func (w *WALSegmentWriter) path() string {
if f, ok := w.w.(*os.File); ok {
return f.Name()
}
return ""
}
func (w *WALSegmentWriter) Write(entryType WalEntryType, compressed []byte) error {
var buf [5]byte
buf[0] = byte(entryType)
binary.BigEndian.PutUint32(buf[1:5], uint32(len(compressed)))
if _, err := w.w.Write(buf[:]); err != nil {
return err
}
if _, err := w.w.Write(compressed); err != nil {
return err
}
w.size += len(buf) + len(compressed)
return nil
}
// Sync flushes the file systems in-memory copy of recently written data to disk.
func (w *WALSegmentWriter) sync() error {
if f, ok := w.w.(*os.File); ok {
return f.Sync()
}
return nil
}
func (w *WALSegmentWriter) close() error {
return w.w.Close()
}
// WALSegmentReader reads WAL segments.
type WALSegmentReader struct {
r io.ReadCloser
entry WALEntry
n int64
err error
}
func NewWALSegmentReader(r io.ReadCloser) *WALSegmentReader {
return &WALSegmentReader{
r: r,
}
}
// Next indicates if there is a value to read
func (r *WALSegmentReader) Next() bool {
b := getBuf(defaultBufLen)
defer putBuf(b)
var nReadOK int
// read the type and the length of the entry
n, err := io.ReadFull(r.r, b[:5])
if err == io.EOF {
return false
}
if err != nil {
r.err = err
// We return true here because we want the client code to call read which
// will return the this error to be handled.
return true
}
nReadOK += n
entryType := b[0]
length := binary.BigEndian.Uint32(b[1:5])
// read the compressed block and decompress it
if int(length) > len(b) {
b = make([]byte, length)
}
n, err = io.ReadFull(r.r, b[:length])
if err != nil {
r.err = err
return true
}
nReadOK += n
decLen, err := snappy.DecodedLen(b[:length])
if err != nil {
r.err = err
return true
}
decBuf := getBuf(decLen)
defer putBuf(decBuf)
data, err := snappy.Decode(decBuf, b[:length])
if err != nil {
r.err = err
return true
}
// and marshal it and send it to the cache
switch WalEntryType(entryType) {
case WriteWALEntryType:
r.entry = &WriteWALEntry{
Values: map[string][]Value{},
}
case DeleteWALEntryType:
r.entry = &DeleteWALEntry{}
case DeleteRangeWALEntryType:
r.entry = &DeleteRangeWALEntry{}
default:
r.err = fmt.Errorf("unknown wal entry type: %v", entryType)
return true
}
r.err = r.entry.UnmarshalBinary(data)
if r.err == nil {
// Read and decode of this entry was successful.
r.n += int64(nReadOK)
}
return true
}
func (r *WALSegmentReader) Read() (WALEntry, error) {
if r.err != nil {
return nil, r.err
}
return r.entry, nil
}
// Count returns the total number of bytes read successfully from the segment, as
// of the last call to Read(). The segment is guaranteed to be valid up to and
// including this number of bytes.
func (r *WALSegmentReader) Count() int64 {
return r.n
}
func (r *WALSegmentReader) Error() error {
return r.err
}
func (r *WALSegmentReader) Close() error {
return r.r.Close()
}
// idFromFileName parses the segment file ID from its name
func idFromFileName(name string) (int, error) {
parts := strings.Split(filepath.Base(name), ".")
if len(parts) != 2 {
return 0, fmt.Errorf("file %s has wrong name format to have an id", name)
}
id, err := strconv.ParseUint(parts[0][1:], 10, 32)
return int(id), err
}
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