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reader.go
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reader.go
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package bz1 // import "github.com/influxdata/influxdb/cmd/influx_tsm/bz1"
import (
"bytes"
"encoding/binary"
"encoding/json"
"fmt"
"math"
"sort"
"time"
"github.com/boltdb/bolt"
"github.com/golang/snappy"
"github.com/influxdata/influxdb/cmd/influx_tsm/stats"
"github.com/influxdata/influxdb/cmd/influx_tsm/tsdb"
"github.com/influxdata/influxdb/tsdb/engine/tsm1"
)
// DefaultChunkSize is the size of chunks read from the bz1 shard
const DefaultChunkSize = 1000
// Reader is used to read all data from a bz1 shard.
type Reader struct {
path string
db *bolt.DB
tx *bolt.Tx
cursors []*cursor
currCursor int
keyBuf string
values []tsm1.Value
valuePos int
fields map[string]*tsdb.MeasurementFields
codecs map[string]*tsdb.FieldCodec
stats *stats.Stats
}
// NewReader returns a reader for the bz1 shard at path.
func NewReader(path string, stats *stats.Stats, chunkSize int) *Reader {
r := &Reader{
path: path,
fields: make(map[string]*tsdb.MeasurementFields),
codecs: make(map[string]*tsdb.FieldCodec),
stats: stats,
}
if chunkSize <= 0 {
chunkSize = DefaultChunkSize
}
r.values = make([]tsm1.Value, chunkSize)
return r
}
// Open opens the reader.
func (r *Reader) Open() error {
// Open underlying storage.
db, err := bolt.Open(r.path, 0666, &bolt.Options{Timeout: 1 * time.Second})
if err != nil {
return err
}
r.db = db
seriesSet := make(map[string]bool)
if err := r.db.View(func(tx *bolt.Tx) error {
var data []byte
meta := tx.Bucket([]byte("meta"))
if meta == nil {
// No data in this shard.
return nil
}
pointsBucket := tx.Bucket([]byte("points"))
if pointsBucket == nil {
return nil
}
if err := pointsBucket.ForEach(func(key, _ []byte) error {
seriesSet[string(key)] = true
return nil
}); err != nil {
return err
}
buf := meta.Get([]byte("fields"))
if buf == nil {
// No data in this shard.
return nil
}
data, err = snappy.Decode(nil, buf)
if err != nil {
return err
}
if err := json.Unmarshal(data, &r.fields); err != nil {
return err
}
return nil
}); err != nil {
return err
}
// Build the codec for each measurement.
for k, v := range r.fields {
r.codecs[k] = tsdb.NewFieldCodec(v.Fields)
}
r.tx, err = r.db.Begin(false)
if err != nil {
return err
}
// Create cursor for each field of each series.
for s := range seriesSet {
measurement := tsdb.MeasurementFromSeriesKey(s)
fields := r.fields[measurement]
if fields == nil {
r.stats.IncrFiltered()
continue
}
for _, f := range fields.Fields {
c := newCursor(r.tx, s, f.Name, r.codecs[measurement])
if c == nil {
continue
}
c.SeekTo(0)
r.cursors = append(r.cursors, c)
}
}
sort.Sort(cursors(r.cursors))
return nil
}
// Next returns whether there is any more data to be read.
func (r *Reader) Next() bool {
r.valuePos = 0
OUTER:
for {
if r.currCursor >= len(r.cursors) {
// All cursors drained. No more data remains.
return false
}
cc := r.cursors[r.currCursor]
r.keyBuf = tsm1.SeriesFieldKey(cc.series, cc.field)
for {
k, v := cc.Next()
if k == -1 {
// Go to next cursor and try again.
r.currCursor++
if r.valuePos == 0 {
// The previous cursor had no data. Instead of returning
// just go immediately to the next cursor.
continue OUTER
}
// There is some data available. Indicate that it should be read.
return true
}
if f, ok := v.(float64); ok {
if math.IsInf(f, 0) {
r.stats.AddPointsRead(1)
r.stats.IncrInf()
continue
}
if math.IsNaN(f) {
r.stats.AddPointsRead(1)
r.stats.IncrNaN()
continue
}
}
r.values[r.valuePos] = tsm1.NewValue(k, v)
r.valuePos++
if r.valuePos >= len(r.values) {
return true
}
}
}
}
// Read returns the next chunk of data in the shard, converted to tsm1 values. Data is
// emitted completely for every field, in every series, before the next field is processed.
// Data from Read() adheres to the requirements for writing to tsm1 shards
func (r *Reader) Read() (string, []tsm1.Value, error) {
return r.keyBuf, r.values[:r.valuePos], nil
}
// Close closes the reader.
func (r *Reader) Close() error {
r.tx.Rollback()
return r.db.Close()
}
// cursor provides ordered iteration across a series.
type cursor struct {
cursor *bolt.Cursor
buf []byte // uncompressed buffer
off int // buffer offset
fieldIndices []int
index int
series string
field string
dec *tsdb.FieldCodec
keyBuf int64
valBuf interface{}
}
// newCursor returns an instance of a bz1 cursor.
func newCursor(tx *bolt.Tx, series string, field string, dec *tsdb.FieldCodec) *cursor {
// Retrieve points bucket. Ignore if there is no bucket.
b := tx.Bucket([]byte("points")).Bucket([]byte(series))
if b == nil {
return nil
}
return &cursor{
cursor: b.Cursor(),
series: series,
field: field,
dec: dec,
keyBuf: -2,
}
}
// Seek moves the cursor to a position.
func (c *cursor) SeekTo(seek int64) {
var seekBytes [8]byte
binary.BigEndian.PutUint64(seekBytes[:], uint64(seek))
// Move cursor to appropriate block and set to buffer.
k, v := c.cursor.Seek(seekBytes[:])
if v == nil { // get the last block, it might have this time
_, v = c.cursor.Last()
} else if seek < int64(binary.BigEndian.Uint64(k)) { // the seek key is less than this block, go back one and check
_, v = c.cursor.Prev()
// if the previous block max time is less than the seek value, reset to where we were originally
if v == nil || seek > int64(binary.BigEndian.Uint64(v[0:8])) {
_, v = c.cursor.Seek(seekBytes[:])
}
}
c.setBuf(v)
// Read current block up to seek position.
c.seekBuf(seekBytes[:])
// Return current entry.
c.keyBuf, c.valBuf = c.read()
}
// seekBuf moves the cursor to a position within the current buffer.
func (c *cursor) seekBuf(seek []byte) (key, value []byte) {
for {
// Slice off the current entry.
buf := c.buf[c.off:]
// Exit if current entry's timestamp is on or after the seek.
if len(buf) == 0 {
return
}
if bytes.Compare(buf[0:8], seek) != -1 {
return
}
c.off += entryHeaderSize + entryDataSize(buf)
}
}
// Next returns the next key/value pair from the cursor. If there are no values
// remaining, -1 is returned.
func (c *cursor) Next() (int64, interface{}) {
for {
k, v := func() (int64, interface{}) {
if c.keyBuf != -2 {
k, v := c.keyBuf, c.valBuf
c.keyBuf = -2
return k, v
}
// Ignore if there is no buffer.
if len(c.buf) == 0 {
return -1, nil
}
// Move forward to next entry.
c.off += entryHeaderSize + entryDataSize(c.buf[c.off:])
// If no items left then read first item from next block.
if c.off >= len(c.buf) {
_, v := c.cursor.Next()
c.setBuf(v)
}
return c.read()
}()
if k != -1 && v == nil {
// There is a point in the series at the next timestamp,
// but not for this cursor's field. Go to the next point.
continue
}
return k, v
}
}
// setBuf saves a compressed block to the buffer.
func (c *cursor) setBuf(block []byte) {
// Clear if the block is empty.
if len(block) == 0 {
c.buf, c.off, c.fieldIndices, c.index = c.buf[0:0], 0, c.fieldIndices[0:0], 0
return
}
// Otherwise decode block into buffer.
// Skip over the first 8 bytes since they are the max timestamp.
buf, err := snappy.Decode(nil, block[8:])
if err != nil {
c.buf = c.buf[0:0]
fmt.Printf("block decode error: %s\n", err)
}
c.buf, c.off = buf, 0
}
// read reads the current key and value from the current block.
func (c *cursor) read() (key int64, value interface{}) {
// Return nil if the offset is at the end of the buffer.
if c.off >= len(c.buf) {
return -1, nil
}
// Otherwise read the current entry.
buf := c.buf[c.off:]
dataSize := entryDataSize(buf)
return tsdb.DecodeKeyValue(c.field, c.dec, buf[0:8], buf[entryHeaderSize:entryHeaderSize+dataSize])
}
// Sort bz1 cursors in correct order for writing to TSM files.
type cursors []*cursor
func (a cursors) Len() int { return len(a) }
func (a cursors) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a cursors) Less(i, j int) bool {
if a[i].series == a[j].series {
return a[i].field < a[j].field
}
return a[i].series < a[j].series
}
// entryHeaderSize is the number of bytes required for the header.
const entryHeaderSize = 8 + 4
// entryDataSize returns the size of an entry's data field, in bytes.
func entryDataSize(v []byte) int { return int(binary.BigEndian.Uint32(v[8:12])) }