VictoriaMetrics/lib/storage/block.go

package storage

import (
	"sync"
	"sync/atomic"

	"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
	"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
)

const (
	// The maximum size of values in the block.
	maxBlockSize = 64 * 1024

	// The maximum number of rows per block.
	maxRowsPerBlock = 8 * 1024
)

// Block represents a block of time series values for a single TSID.
type Block struct {
	bh blockHeader

	// nextIdx is the next row index for timestamps and values.
	nextIdx int

	timestamps []int64
	values     []int64

	// Marshaled representation of block header.
	headerData []byte

	// Marshaled representation of timestamps.
	timestampsData []byte

	// Marshaled representation of values.
	valuesData []byte
}

// Reset resets b.
func (b *Block) Reset() {
	b.bh = blockHeader{}
	b.nextIdx = 0
	b.timestamps = b.timestamps[:0]
	b.values = b.values[:0]

	b.headerData = b.headerData[:0]
	b.timestampsData = b.timestampsData[:0]
	b.valuesData = b.valuesData[:0]
}

// CopyFrom copies src to b.
func (b *Block) CopyFrom(src *Block) {
	b.bh = src.bh
	b.nextIdx = 0
	b.timestamps = append(b.timestamps[:0], src.timestamps[src.nextIdx:]...)
	b.values = append(b.values[:0], src.values[src.nextIdx:]...)

	b.headerData = append(b.headerData[:0], src.headerData...)
	b.timestampsData = append(b.timestampsData[:0], src.timestampsData...)
	b.valuesData = append(b.valuesData[:0], src.valuesData...)
}

func getBlock() *Block {
	v := blockPool.Get()
	if v == nil {
		return &Block{}
	}
	return v.(*Block)
}

func putBlock(b *Block) {
	b.Reset()
	blockPool.Put(b)
}

var blockPool sync.Pool

func (b *Block) fixupTimestamps() {
	b.bh.MinTimestamp = b.timestamps[b.nextIdx]
	b.bh.MaxTimestamp = b.timestamps[len(b.timestamps)-1]
}

// RowsCount returns the number of rows in the block.
func (b *Block) RowsCount() int {
	return int(b.bh.RowsCount)
}

// Values returns b values.
func (b *Block) Values() []int64 {
	return b.values
}

// Timestamps returns b timestamps.
func (b *Block) Timestamps() []int64 {
	return b.timestamps
}

// Scale returns the decimal scale used for encoding values in the block.
func (b *Block) Scale() int16 {
	return b.bh.Scale
}

// Init initializes b with the given tsid, timestamps, values and scale.
func (b *Block) Init(tsid *TSID, timestamps, values []int64, scale int16, precisionBits uint8) {
	b.Reset()
	b.bh.TSID = *tsid
	b.bh.Scale = scale
	b.bh.PrecisionBits = precisionBits
	b.timestamps = append(b.timestamps[:0], timestamps...)
	b.values = append(b.values[:0], values...)
}

// nextRow advances to the next row.
//
// Returns false if there are no more rows in the block.
func (b *Block) nextRow() bool {
	if b.nextIdx == len(b.values) {
		return false
	}
	b.nextIdx++
	return true
}

// assertUnmarshaled makes sure the block is unmarshaled.
func (b *Block) assertUnmarshaled() {
	if len(b.valuesData) > 0 {
		logger.Panicf("BUG: valuesData must be empty; got %d bytes", len(b.valuesData))
	}
	if len(b.timestampsData) > 0 {
		logger.Panicf("BUG: timestampsData must be empty; got %d bytes", len(b.timestampsData))
	}
	if len(b.values) != len(b.timestamps) {
		logger.Panicf("BUG: the number of values must match the number of timestamps; got %d vs %d", len(b.values), len(b.timestamps))
	}
	if b.nextIdx > len(b.values) {
		logger.Panicf("BUG: nextIdx cannot exceed the number of values; got %d vs %d", b.nextIdx, len(b.values))
	}
}

// assertMergeable makes sure b and ib are mergeable, i.e. they have the same
// tsid and scale.
func (b *Block) assertMergeable(ib *Block) {
	if b.bh.TSID.MetricID != ib.bh.TSID.MetricID {
		logger.Panicf("BUG: unequal TSID: %q vs %q", &b.bh.TSID, &ib.bh.TSID)
	}
	if b.bh.Scale != ib.bh.Scale {
		logger.Panicf("BUG: unequal Scale: %d vs %d", b.bh.Scale, ib.bh.Scale)
	}
}

// tooBig returns true if the block is too big to be extended.
func (b *Block) tooBig() bool {
	if b.bh.RowsCount >= maxRowsPerBlock || len(b.values[b.nextIdx:]) >= maxRowsPerBlock {
		return true
	}
	if len(b.valuesData) >= maxBlockSize {
		return true
	}
	return false
}

func (b *Block) deduplicateSamplesDuringMerge() {
	if len(b.values) == 0 {
		// Nothing to dedup or the data is already marshaled.
		return
	}
	srcTimestamps := b.timestamps[b.nextIdx:]
	srcValues := b.values[b.nextIdx:]
	timestamps, values := deduplicateSamplesDuringMerge(srcTimestamps, srcValues)
	dedups := len(srcTimestamps) - len(timestamps)
	atomic.AddUint64(&dedupsDuringMerge, uint64(dedups))
	b.timestamps = b.timestamps[:b.nextIdx+len(timestamps)]
	b.values = b.values[:b.nextIdx+len(values)]
}

var dedupsDuringMerge uint64

func (b *Block) rowsCount() int {
	if len(b.values) == 0 {
		return int(b.bh.RowsCount)
	}
	return len(b.values[b.nextIdx:])
}

// MarshalData marshals the block into binary representation.
func (b *Block) MarshalData(timestampsBlockOffset, valuesBlockOffset uint64) ([]byte, []byte, []byte) {
	if len(b.values) == 0 {
		// The data has been already marshaled.

		// b.valuesData and b.timestampsData may be empty for certain
		// b.bh.*MarshalType values, so don't check them.

		if b.nextIdx != 0 {
			logger.Panicf("BUG: nextIdx must be zero; got %d", b.nextIdx)
		}
		if int(b.bh.TimestampsBlockSize) != len(b.timestampsData) {
			logger.Panicf("BUG: invalid TimestampsBlockSize; got %d; expecting %d", b.bh.TimestampsBlockSize, len(b.timestampsData))
		}
		if int(b.bh.ValuesBlockSize) != len(b.valuesData) {
			logger.Panicf("BUG: invalid ValuesBlockSize; got %d; expecting %d", b.bh.ValuesBlockSize, len(b.valuesData))
		}
		if b.bh.RowsCount <= 0 {
			logger.Panicf("BUG: RowsCount must be greater than 0; got %d", b.bh.RowsCount)
		}

		// headerData must be always recreated, since it contains timestampsBlockOffset and valuesBlockOffset.
		b.bh.TimestampsBlockOffset = timestampsBlockOffset
		b.bh.ValuesBlockOffset = valuesBlockOffset
		b.headerData = b.bh.Marshal(b.headerData[:0])

		return b.headerData, b.timestampsData, b.valuesData
	}

	if b.nextIdx > len(b.values) {
		logger.Panicf("BUG: nextIdx cannot exceed values size; got %d vs %d", b.nextIdx, len(b.values))
	}

	timestamps := b.timestamps[b.nextIdx:]
	values := b.values[b.nextIdx:]
	if len(values) == 0 {
		logger.Panicf("BUG: values cannot be empty; nextIdx=%d, timestampsBlockOffset=%d, valuesBlockOffset=%d", b.nextIdx, timestampsBlockOffset, valuesBlockOffset)
	}
	if len(values) != len(timestamps) {
		logger.Panicf("BUG: the number of values must match the number of timestamps; got %d vs %d", len(values), len(timestamps))
	}

	b.valuesData, b.bh.ValuesMarshalType, b.bh.FirstValue = encoding.MarshalValues(b.valuesData[:0], values, b.bh.PrecisionBits)
	b.bh.ValuesBlockOffset = valuesBlockOffset
	b.bh.ValuesBlockSize = uint32(len(b.valuesData))
	b.values = b.values[:0]

	b.timestampsData, b.bh.TimestampsMarshalType, b.bh.MinTimestamp = encoding.MarshalTimestamps(b.timestampsData[:0], timestamps, b.bh.PrecisionBits)
	b.bh.TimestampsBlockOffset = timestampsBlockOffset
	b.bh.TimestampsBlockSize = uint32(len(b.timestampsData))
	b.bh.MaxTimestamp = timestamps[len(timestamps)-1]
	b.timestamps = b.timestamps[:0]

	b.bh.RowsCount = uint32(len(values))
	b.headerData = b.bh.Marshal(b.headerData[:0])

	b.nextIdx = 0

	return b.headerData, b.timestampsData, b.valuesData
}

// UnmarshalData unmarshals block data.
func (b *Block) UnmarshalData() error {
	// blockHeader (b.bh) must be already unmarshaled.

	if len(b.values) > 0 {
		// The data has been already unmarshaled.
		if len(b.valuesData) > 0 {
			logger.Panicf("BUG: valuesData must be empty; contains %d bytes", len(b.valuesData))
		}
		if len(b.timestampsData) > 0 {
			logger.Panicf("BUG: timestampsData must be empty; contains %d bytes", len(b.timestampsData))
		}
		return nil
	}

	if b.bh.RowsCount <= 0 {
		logger.Panicf("BUG: RowsCount must be greater than 0; got %d", b.bh.RowsCount)
	}

	var err error

	b.timestamps, err = encoding.UnmarshalTimestamps(b.timestamps[:0], b.timestampsData, b.bh.TimestampsMarshalType, b.bh.MinTimestamp, int(b.bh.RowsCount))
	if err != nil {
		return err
	}
	if b.bh.PrecisionBits < 64 {
		// Recover timestamps order after lossy compression.
		encoding.EnsureNonDecreasingSequence(b.timestamps, b.bh.MinTimestamp, b.bh.MaxTimestamp)
	}
	b.timestampsData = b.timestampsData[:0]

	b.values, err = encoding.UnmarshalValues(b.values[:0], b.valuesData, b.bh.ValuesMarshalType, b.bh.FirstValue, int(b.bh.RowsCount))
	if err != nil {
		return err
	}
	b.valuesData = b.valuesData[:0]

	if len(b.timestamps) != len(b.values) {
		logger.Panicf("BUG: timestamps and values count mismatch; got %d vs %d", len(b.timestamps), len(b.values))
	}

	b.nextIdx = 0

	return nil
}
all: open-sourcing single-node version 2019-05-22 21:16:55 +00:00			`package storage`

			`import (`
			`"sync"`
all: properly split `vm_deduplicated_samples_total` among cluster components Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/345 2020-02-27 21:47:05 +00:00			`"sync/atomic"`
all: open-sourcing single-node version 2019-05-22 21:16:55 +00:00
			`"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"`
			`"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"`
			`)`

			`const (`
			`// The maximum size of values in the block.`
			`maxBlockSize = 64 * 1024`

			`// The maximum number of rows per block.`
			`maxRowsPerBlock = 8 * 1024`
			`)`

			`// Block represents a block of time series values for a single TSID.`
			`type Block struct {`
			`bh blockHeader`

			`// nextIdx is the next row index for timestamps and values.`
			`nextIdx int`

			`timestamps []int64`
			`values []int64`

			`// Marshaled representation of block header.`
			`headerData []byte`

			`// Marshaled representation of timestamps.`
			`timestampsData []byte`

			`// Marshaled representation of values.`
			`valuesData []byte`
			`}`

			`// Reset resets b.`
			`func (b *Block) Reset() {`
			`b.bh = blockHeader{}`
			`b.nextIdx = 0`
			`b.timestamps = b.timestamps[:0]`
			`b.values = b.values[:0]`

			`b.headerData = b.headerData[:0]`
			`b.timestampsData = b.timestampsData[:0]`
			`b.valuesData = b.valuesData[:0]`
			`}`

			`// CopyFrom copies src to b.`
			`func (b Block) CopyFrom(src Block) {`
			`b.bh = src.bh`
			`b.nextIdx = 0`
			`b.timestamps = append(b.timestamps[:0], src.timestamps[src.nextIdx:]...)`
			`b.values = append(b.values[:0], src.values[src.nextIdx:]...)`

			`b.headerData = append(b.headerData[:0], src.headerData...)`
			`b.timestampsData = append(b.timestampsData[:0], src.timestampsData...)`
			`b.valuesData = append(b.valuesData[:0], src.valuesData...)`
			`}`

			`func getBlock() *Block {`
			`v := blockPool.Get()`
			`if v == nil {`
			`return &Block{}`
			`}`
			`return v.(*Block)`
			`}`

			`func putBlock(b *Block) {`
			`b.Reset()`
			`blockPool.Put(b)`
			`}`

			`var blockPool sync.Pool`

			`func (b *Block) fixupTimestamps() {`
			`b.bh.MinTimestamp = b.timestamps[b.nextIdx]`
			`b.bh.MaxTimestamp = b.timestamps[len(b.timestamps)-1]`
			`}`

			`// RowsCount returns the number of rows in the block.`
			`func (b *Block) RowsCount() int {`
			`return int(b.bh.RowsCount)`
			`}`

			`// Values returns b values.`
			`func (b *Block) Values() []int64 {`
			`return b.values`
			`}`

			`// Timestamps returns b timestamps.`
			`func (b *Block) Timestamps() []int64 {`
			`return b.timestamps`
			`}`

			`// Scale returns the decimal scale used for encoding values in the block.`
			`func (b *Block) Scale() int16 {`
			`return b.bh.Scale`
			`}`

			`// Init initializes b with the given tsid, timestamps, values and scale.`
			`func (b Block) Init(tsid TSID, timestamps, values []int64, scale int16, precisionBits uint8) {`
			`b.Reset()`
			`b.bh.TSID = *tsid`
			`b.bh.Scale = scale`
			`b.bh.PrecisionBits = precisionBits`
			`b.timestamps = append(b.timestamps[:0], timestamps...)`
			`b.values = append(b.values[:0], values...)`
			`}`

			`// nextRow advances to the next row.`
			`//`
			`// Returns false if there are no more rows in the block.`
			`func (b *Block) nextRow() bool {`
			`if b.nextIdx == len(b.values) {`
			`return false`
			`}`
			`b.nextIdx++`
			`return true`
			`}`

			`// assertUnmarshaled makes sure the block is unmarshaled.`
			`func (b *Block) assertUnmarshaled() {`
			`if len(b.valuesData) > 0 {`
			`logger.Panicf("BUG: valuesData must be empty; got %d bytes", len(b.valuesData))`
			`}`
			`if len(b.timestampsData) > 0 {`
			`logger.Panicf("BUG: timestampsData must be empty; got %d bytes", len(b.timestampsData))`
			`}`
			`if len(b.values) != len(b.timestamps) {`
			`logger.Panicf("BUG: the number of values must match the number of timestamps; got %d vs %d", len(b.values), len(b.timestamps))`
			`}`
			`if b.nextIdx > len(b.values) {`
			`logger.Panicf("BUG: nextIdx cannot exceed the number of values; got %d vs %d", b.nextIdx, len(b.values))`
			`}`
			`}`

			`// assertMergeable makes sure b and ib are mergeable, i.e. they have the same`
			`// tsid and scale.`
			`func (b Block) assertMergeable(ib Block) {`
			`if b.bh.TSID.MetricID != ib.bh.TSID.MetricID {`
			`logger.Panicf("BUG: unequal TSID: %q vs %q", &b.bh.TSID, &ib.bh.TSID)`
			`}`
			`if b.bh.Scale != ib.bh.Scale {`
			`logger.Panicf("BUG: unequal Scale: %d vs %d", b.bh.Scale, ib.bh.Scale)`
			`}`
			`}`

			`// tooBig returns true if the block is too big to be extended.`
			`func (b *Block) tooBig() bool {`
			`if b.bh.RowsCount >= maxRowsPerBlock \|\| len(b.values[b.nextIdx:]) >= maxRowsPerBlock {`
			`return true`
			`}`
			`if len(b.valuesData) >= maxBlockSize {`
			`return true`
			`}`
			`return false`
			`}`

all: add `-dedup.minScrapeInterval` command-line flag for data de-duplication Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/86 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/278 2020-01-30 23:09:44 +00:00			`func (b *Block) deduplicateSamplesDuringMerge() {`
			`if len(b.values) == 0 {`
			`// Nothing to dedup or the data is already marshaled.`
			`return`
			`}`
			`srcTimestamps := b.timestamps[b.nextIdx:]`
			`srcValues := b.values[b.nextIdx:]`
			`timestamps, values := deduplicateSamplesDuringMerge(srcTimestamps, srcValues)`
all: properly split `vm_deduplicated_samples_total` among cluster components Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/345 2020-02-27 21:47:05 +00:00			`dedups := len(srcTimestamps) - len(timestamps)`
			`atomic.AddUint64(&dedupsDuringMerge, uint64(dedups))`
all: add `-dedup.minScrapeInterval` command-line flag for data de-duplication Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/86 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/278 2020-01-30 23:09:44 +00:00			`b.timestamps = b.timestamps[:b.nextIdx+len(timestamps)]`
			`b.values = b.values[:b.nextIdx+len(values)]`
			`}`

all: properly split `vm_deduplicated_samples_total` among cluster components Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/345 2020-02-27 21:47:05 +00:00			`var dedupsDuringMerge uint64`

all: add `-dedup.minScrapeInterval` command-line flag for data de-duplication Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/86 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/278 2020-01-30 23:09:44 +00:00			`func (b *Block) rowsCount() int {`
			`if len(b.values) == 0 {`
			`return int(b.bh.RowsCount)`
			`}`
			`return len(b.values[b.nextIdx:])`
			`}`

all: open-sourcing single-node version 2019-05-22 21:16:55 +00:00			`// MarshalData marshals the block into binary representation.`
			`func (b *Block) MarshalData(timestampsBlockOffset, valuesBlockOffset uint64) ([]byte, []byte, []byte) {`
			`if len(b.values) == 0 {`
			`// The data has been already marshaled.`

			`// b.valuesData and b.timestampsData may be empty for certain`
			`// b.bh.*MarshalType values, so don't check them.`

			`if b.nextIdx != 0 {`
			`logger.Panicf("BUG: nextIdx must be zero; got %d", b.nextIdx)`
			`}`
			`if int(b.bh.TimestampsBlockSize) != len(b.timestampsData) {`
			`logger.Panicf("BUG: invalid TimestampsBlockSize; got %d; expecting %d", b.bh.TimestampsBlockSize, len(b.timestampsData))`
			`}`
			`if int(b.bh.ValuesBlockSize) != len(b.valuesData) {`
			`logger.Panicf("BUG: invalid ValuesBlockSize; got %d; expecting %d", b.bh.ValuesBlockSize, len(b.valuesData))`
			`}`
			`if b.bh.RowsCount <= 0 {`
			`logger.Panicf("BUG: RowsCount must be greater than 0; got %d", b.bh.RowsCount)`
			`}`

			`// headerData must be always recreated, since it contains timestampsBlockOffset and valuesBlockOffset.`
			`b.bh.TimestampsBlockOffset = timestampsBlockOffset`
			`b.bh.ValuesBlockOffset = valuesBlockOffset`
			`b.headerData = b.bh.Marshal(b.headerData[:0])`

			`return b.headerData, b.timestampsData, b.valuesData`
			`}`

			`if b.nextIdx > len(b.values) {`
			`logger.Panicf("BUG: nextIdx cannot exceed values size; got %d vs %d", b.nextIdx, len(b.values))`
			`}`

			`timestamps := b.timestamps[b.nextIdx:]`
			`values := b.values[b.nextIdx:]`
			`if len(values) == 0 {`
			`logger.Panicf("BUG: values cannot be empty; nextIdx=%d, timestampsBlockOffset=%d, valuesBlockOffset=%d", b.nextIdx, timestampsBlockOffset, valuesBlockOffset)`
			`}`
			`if len(values) != len(timestamps) {`
			`logger.Panicf("BUG: the number of values must match the number of timestamps; got %d vs %d", len(values), len(timestamps))`
			`}`

			`b.valuesData, b.bh.ValuesMarshalType, b.bh.FirstValue = encoding.MarshalValues(b.valuesData[:0], values, b.bh.PrecisionBits)`
			`b.bh.ValuesBlockOffset = valuesBlockOffset`
			`b.bh.ValuesBlockSize = uint32(len(b.valuesData))`
			`b.values = b.values[:0]`

			`b.timestampsData, b.bh.TimestampsMarshalType, b.bh.MinTimestamp = encoding.MarshalTimestamps(b.timestampsData[:0], timestamps, b.bh.PrecisionBits)`
			`b.bh.TimestampsBlockOffset = timestampsBlockOffset`
			`b.bh.TimestampsBlockSize = uint32(len(b.timestampsData))`
			`b.bh.MaxTimestamp = timestamps[len(timestamps)-1]`
			`b.timestamps = b.timestamps[:0]`

			`b.bh.RowsCount = uint32(len(values))`
			`b.headerData = b.bh.Marshal(b.headerData[:0])`

			`b.nextIdx = 0`

			`return b.headerData, b.timestampsData, b.valuesData`
			`}`

			`// UnmarshalData unmarshals block data.`
			`func (b *Block) UnmarshalData() error {`
			`// blockHeader (b.bh) must be already unmarshaled.`

			`if len(b.values) > 0 {`
			`// The data has been already unmarshaled.`
			`if len(b.valuesData) > 0 {`
			`logger.Panicf("BUG: valuesData must be empty; contains %d bytes", len(b.valuesData))`
			`}`
			`if len(b.timestampsData) > 0 {`
			`logger.Panicf("BUG: timestampsData must be empty; contains %d bytes", len(b.timestampsData))`
			`}`
			`return nil`
			`}`

			`if b.bh.RowsCount <= 0 {`
			`logger.Panicf("BUG: RowsCount must be greater than 0; got %d", b.bh.RowsCount)`
			`}`

			`var err error`

			`b.timestamps, err = encoding.UnmarshalTimestamps(b.timestamps[:0], b.timestampsData, b.bh.TimestampsMarshalType, b.bh.MinTimestamp, int(b.bh.RowsCount))`
			`if err != nil {`
			`return err`
			`}`
lib/storage: skip recovering timestamps order for lossless compression (PrecisionBits=64) 2020-01-17 21:44:31 +00:00			`if b.bh.PrecisionBits < 64 {`
			`// Recover timestamps order after lossy compression.`
			`encoding.EnsureNonDecreasingSequence(b.timestamps, b.bh.MinTimestamp, b.bh.MaxTimestamp)`
			`}`
all: open-sourcing single-node version 2019-05-22 21:16:55 +00:00			`b.timestampsData = b.timestampsData[:0]`

			`b.values, err = encoding.UnmarshalValues(b.values[:0], b.valuesData, b.bh.ValuesMarshalType, b.bh.FirstValue, int(b.bh.RowsCount))`
			`if err != nil {`
			`return err`
			`}`
			`b.valuesData = b.valuesData[:0]`

			`if len(b.timestamps) != len(b.values) {`
			`logger.Panicf("BUG: timestamps and values count mismatch; got %d vs %d", len(b.timestamps), len(b.values))`
			`}`

			`b.nextIdx = 0`

			`return nil`
			`}`