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494 lines
12 KiB
494 lines
12 KiB
package tsdb
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import (
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"encoding/binary"
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"fmt"
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"hash/crc32"
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"io"
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"sort"
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"strings"
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"github.com/bradfitz/slice"
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"github.com/fabxc/tsdb/chunks"
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"github.com/fabxc/tsdb/labels"
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"github.com/pkg/errors"
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)
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const (
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// MagicSeries 4 bytes at the head of series file.
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MagicSeries = 0x85BD40DD
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// MagicIndex 4 bytes at the head of an index file.
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MagicIndex = 0xBAAAD700
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)
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// SeriesWriter serializes a time block of chunked series data.
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type SeriesWriter interface {
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// WriteSeries writes the time series data chunks for a single series.
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// The reference is used to resolve the correct series in the written index.
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// It only has to be valid for the duration of the write.
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WriteSeries(ref uint32, l labels.Labels, chunks []ChunkMeta) error
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// Size returns the size of the data written so far.
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Size() int64
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// Close writes any required finalization and closes the resources
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// associated with the underlying writer.
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Close() error
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}
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// seriesWriter implements the SeriesWriter interface for the standard
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// serialization format.
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type seriesWriter struct {
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w io.Writer
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n int64
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c int
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index IndexWriter
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}
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func newSeriesWriter(w io.Writer, index IndexWriter) *seriesWriter {
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return &seriesWriter{
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w: w,
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n: 0,
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index: index,
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}
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}
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func (w *seriesWriter) write(wr io.Writer, b []byte) error {
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n, err := wr.Write(b)
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w.n += int64(n)
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return err
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}
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func (w *seriesWriter) writeMeta() error {
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b := [8]byte{}
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binary.BigEndian.PutUint32(b[:4], MagicSeries)
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b[4] = flagStd
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return w.write(w.w, b[:])
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}
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func (w *seriesWriter) WriteSeries(ref uint32, lset labels.Labels, chks []ChunkMeta) error {
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// Initialize with meta data.
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if w.n == 0 {
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if err := w.writeMeta(); err != nil {
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return err
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}
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}
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// TODO(fabxc): is crc32 enough for chunks of one series?
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h := crc32.NewIEEE()
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wr := io.MultiWriter(h, w.w)
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// For normal reads we don't need the number of the chunk section but
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// it allows us to verify checksums without reading the index file.
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// The offsets are also technically enough to calculate chunk size. but
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// holding the length of each chunk could later allow for adding padding
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// between chunks.
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b := [binary.MaxVarintLen32]byte{}
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n := binary.PutUvarint(b[:], uint64(len(chks)))
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if err := w.write(wr, b[:n]); err != nil {
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return err
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}
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for i := range chks {
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chk := &chks[i]
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chk.Ref = uint32(w.n)
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n = binary.PutUvarint(b[:], uint64(len(chk.Chunk.Bytes())))
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if err := w.write(wr, b[:n]); err != nil {
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return err
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}
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if err := w.write(wr, []byte{byte(chk.Chunk.Encoding())}); err != nil {
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return err
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}
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if err := w.write(wr, chk.Chunk.Bytes()); err != nil {
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return err
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}
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chk.Chunk = nil
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}
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if err := w.write(w.w, h.Sum(nil)); err != nil {
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return err
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}
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if w.index != nil {
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w.index.AddSeries(ref, lset, chks...)
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}
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return nil
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}
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func (w *seriesWriter) Size() int64 {
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return w.n
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}
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func (w *seriesWriter) Close() error {
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return nil
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}
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// ChunkMeta holds information about a chunk of data.
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type ChunkMeta struct {
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// Ref and Chunk hold either a reference that can be used to retrieve
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// chunk data or the data itself.
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// Generally, only one of them is set.
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Ref uint32
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Chunk chunks.Chunk
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MinTime, MaxTime int64 // time range the data covers
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}
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// IndexWriter serialized the index for a block of series data.
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// The methods must generally be called in order they are specified.
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type IndexWriter interface {
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// AddSeries populates the index writer witha series and its offsets
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// of chunks that the index can reference.
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// The reference number is used to resolve a series against the postings
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// list iterator. It only has to be available during the write processing.
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AddSeries(ref uint32, l labels.Labels, chunks ...ChunkMeta)
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// WriteStats writes final stats for the indexed block.
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WriteStats(BlockStats) error
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// WriteLabelIndex serializes an index from label names to values.
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// The passed in values chained tuples of strings of the length of names.
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WriteLabelIndex(names []string, values []string) error
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// WritePostings writes a postings list for a single label pair.
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WritePostings(name, value string, it Postings) error
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// Size returns the size of the data written so far.
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Size() int64
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// Close writes any finalization and closes theresources associated with
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// the underlying writer.
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Close() error
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}
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type indexWriterSeries struct {
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labels labels.Labels
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chunks []ChunkMeta // series file offset of chunks
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offset uint32 // index file offset of series reference
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}
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// indexWriter implements the IndexWriter interface for the standard
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// serialization format.
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type indexWriter struct {
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w io.Writer
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n int64
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series map[uint32]*indexWriterSeries
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symbols map[string]uint32 // symbol offsets
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labelIndexes []hashEntry // label index offsets
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postings []hashEntry // postings lists offsets
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}
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func newIndexWriter(w io.Writer) *indexWriter {
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return &indexWriter{
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w: w,
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n: 0,
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symbols: make(map[string]uint32, 4096),
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series: make(map[uint32]*indexWriterSeries, 4096),
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}
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}
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func (w *indexWriter) write(wr io.Writer, b []byte) error {
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n, err := wr.Write(b)
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w.n += int64(n)
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return err
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}
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// section writes a CRC32 checksummed section of length l and guarded by flag.
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func (w *indexWriter) section(l uint32, flag byte, f func(w io.Writer) error) error {
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h := crc32.NewIEEE()
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wr := io.MultiWriter(h, w.w)
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b := [5]byte{flag, 0, 0, 0, 0}
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binary.BigEndian.PutUint32(b[1:], l)
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if err := w.write(wr, b[:]); err != nil {
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return errors.Wrap(err, "writing header")
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}
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if err := f(wr); err != nil {
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return errors.Wrap(err, "contents write func")
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}
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if err := w.write(w.w, h.Sum(nil)); err != nil {
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return errors.Wrap(err, "writing checksum")
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}
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return nil
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}
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func (w *indexWriter) writeMeta() error {
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b := [8]byte{}
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binary.BigEndian.PutUint32(b[:4], MagicIndex)
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b[4] = flagStd
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return w.write(w.w, b[:])
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}
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func (w *indexWriter) AddSeries(ref uint32, lset labels.Labels, chunks ...ChunkMeta) {
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// Populate the symbol table from all label sets we have to reference.
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for _, l := range lset {
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w.symbols[l.Name] = 0
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w.symbols[l.Value] = 0
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}
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w.series[ref] = &indexWriterSeries{
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labels: lset,
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chunks: chunks,
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}
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}
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func (w *indexWriter) WriteStats(stats BlockStats) error {
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if w.n != 0 {
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return fmt.Errorf("WriteStats must be called first")
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}
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if err := w.writeMeta(); err != nil {
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return err
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}
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b := [64]byte{}
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binary.BigEndian.PutUint64(b[0:], uint64(stats.MinTime))
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binary.BigEndian.PutUint64(b[8:], uint64(stats.MaxTime))
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binary.BigEndian.PutUint32(b[16:], stats.SeriesCount)
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binary.BigEndian.PutUint32(b[20:], stats.ChunkCount)
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binary.BigEndian.PutUint64(b[24:], stats.SampleCount)
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err := w.section(64, flagStd, func(wr io.Writer) error {
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return w.write(wr, b[:])
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})
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if err != nil {
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return err
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}
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if err := w.writeSymbols(); err != nil {
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return err
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}
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if err := w.writeSeries(); err != nil {
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return err
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}
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return nil
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}
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func (w *indexWriter) writeSymbols() error {
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// Generate sorted list of strings we will store as reference table.
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symbols := make([]string, 0, len(w.symbols))
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for s := range w.symbols {
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symbols = append(symbols, s)
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}
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sort.Strings(symbols)
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// The start of the section plus a 5 byte section header are our base.
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// TODO(fabxc): switch to relative offsets and hold sections in a TOC.
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base := uint32(w.n) + 5
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buf := [binary.MaxVarintLen32]byte{}
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b := append(make([]byte, 0, 4096), flagStd)
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for _, s := range symbols {
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w.symbols[s] = base + uint32(len(b))
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n := binary.PutUvarint(buf[:], uint64(len(s)))
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b = append(b, buf[:n]...)
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b = append(b, s...)
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}
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l := uint32(len(b))
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return w.section(l, flagStd, func(wr io.Writer) error {
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return w.write(wr, b)
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})
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}
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func (w *indexWriter) writeSeries() error {
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// Series must be stored sorted along their labels.
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series := make([]*indexWriterSeries, 0, len(w.series))
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for _, s := range w.series {
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series = append(series, s)
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}
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slice.Sort(series, func(i, j int) bool {
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return labels.Compare(series[i].labels, series[j].labels) < 0
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})
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// Current end of file plus 5 bytes for section header.
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// TODO(fabxc): switch to relative offsets.
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base := uint32(w.n) + 5
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b := make([]byte, 0, 1<<20) // 1MiB
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buf := make([]byte, binary.MaxVarintLen64)
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for _, s := range series {
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// Write label set symbol references.
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s.offset = base + uint32(len(b))
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n := binary.PutUvarint(buf, uint64(len(s.labels)))
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b = append(b, buf[:n]...)
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for _, l := range s.labels {
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n = binary.PutUvarint(buf, uint64(w.symbols[l.Name]))
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b = append(b, buf[:n]...)
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n = binary.PutUvarint(buf, uint64(w.symbols[l.Value]))
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b = append(b, buf[:n]...)
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}
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// Write chunks meta data including reference into chunk file.
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n = binary.PutUvarint(buf, uint64(len(s.chunks)))
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b = append(b, buf[:n]...)
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for _, c := range s.chunks {
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n = binary.PutVarint(buf, c.MinTime)
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b = append(b, buf[:n]...)
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n = binary.PutVarint(buf, c.MaxTime)
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b = append(b, buf[:n]...)
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n = binary.PutUvarint(buf, uint64(c.Ref))
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b = append(b, buf[:n]...)
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}
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}
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l := uint32(len(b))
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return w.section(l, flagStd, func(wr io.Writer) error {
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return w.write(wr, b)
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})
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}
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func (w *indexWriter) WriteLabelIndex(names []string, values []string) error {
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valt, err := newStringTuples(values, len(names))
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if err != nil {
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return err
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}
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sort.Sort(valt)
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w.labelIndexes = append(w.labelIndexes, hashEntry{
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name: strings.Join(names, string(sep)),
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offset: uint32(w.n),
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})
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buf := make([]byte, binary.MaxVarintLen32)
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n := binary.PutUvarint(buf, uint64(len(names)))
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l := uint32(n) + uint32(len(values)*4)
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return w.section(l, flagStd, func(wr io.Writer) error {
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// First byte indicates tuple size for index.
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if err := w.write(wr, buf[:n]); err != nil {
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return err
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}
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for _, v := range valt.s {
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binary.BigEndian.PutUint32(buf, w.symbols[v])
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if err := w.write(wr, buf[:4]); err != nil {
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return err
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}
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}
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return nil
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})
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}
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func (w *indexWriter) WritePostings(name, value string, it Postings) error {
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key := name + string(sep) + value
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w.postings = append(w.postings, hashEntry{
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name: key,
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offset: uint32(w.n),
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})
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b := make([]byte, 0, 4096)
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buf := [4]byte{}
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// Order of the references in the postings list does not imply order
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// of the series references within the persisted block they are mapped to.
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// We have to sort the new references again.
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var refs []uint32
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for it.Next() {
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s, ok := w.series[it.At()]
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if !ok {
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return errors.Errorf("series for reference %d not found", it.At())
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}
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refs = append(refs, s.offset)
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}
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if err := it.Err(); err != nil {
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return err
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}
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slice.Sort(refs, func(i, j int) bool { return refs[i] < refs[j] })
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for _, r := range refs {
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binary.BigEndian.PutUint32(buf[:], r)
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b = append(b, buf[:]...)
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}
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return w.section(uint32(len(b)), flagStd, func(wr io.Writer) error {
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return w.write(wr, b)
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})
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}
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func (w *indexWriter) Size() int64 {
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return w.n
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}
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type hashEntry struct {
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name string
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offset uint32
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}
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func (w *indexWriter) writeHashmap(h []hashEntry) error {
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b := make([]byte, 0, 4096)
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buf := [binary.MaxVarintLen32]byte{}
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for _, e := range h {
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n := binary.PutUvarint(buf[:], uint64(len(e.name)))
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b = append(b, buf[:n]...)
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b = append(b, e.name...)
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n = binary.PutUvarint(buf[:], uint64(e.offset))
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b = append(b, buf[:n]...)
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}
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return w.section(uint32(len(b)), flagStd, func(wr io.Writer) error {
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return w.write(wr, b)
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})
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}
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func (w *indexWriter) finalize() error {
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// Write out hash maps to jump to correct label index and postings sections.
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lo := uint32(w.n)
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if err := w.writeHashmap(w.labelIndexes); err != nil {
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return err
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}
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po := uint32(w.n)
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if err := w.writeHashmap(w.postings); err != nil {
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return err
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}
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// Terminate index file with offsets to hashmaps. This is the entry Pointer
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// for any index query.
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// TODO(fabxc): also store offset to series section to allow plain
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// iteration over all existing series?
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// TODO(fabxc): store references like these that are not resolved via direct
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// mmap using explicit endianness?
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b := [8]byte{}
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binary.BigEndian.PutUint32(b[:4], lo)
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binary.BigEndian.PutUint32(b[4:], po)
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return w.write(w.w, b[:])
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}
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func (w *indexWriter) Close() error {
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return w.finalize()
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}
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