storj/satellite/metabase/aliaspiece.go

// Copyright (C) 2021 Storj Labs, Inc.
// See LICENSE for copying information.

package metabase

import (
	"database/sql/driver"
	"encoding/binary"
)

// AliasPieces is a slice of AliasPiece.
type AliasPieces []AliasPiece

// AliasPiece is a piece with alias node ID.
type AliasPiece struct {
	Number uint16
	Alias  NodeAlias
}

const (
	// aliasPieceEncodingRLE run length encodes the zeros and node ID-s.
	//
	// Example:
	//   pieces = {2 x} {11 y}
	//   // converted into slice with zeros
	//   0 0 x 0 0 0 0 0 0 0 0 y
	//   // run length encoded
	//   <2 zeros, 1 value> x <7 zeros, 0 values> <1 zeros, 1 value> y
	aliasPieceEncodingRLE = 1

	aliasPieceEncodingZeroBits       = 3
	aliasPieceEncodingNodeAliasBits  = 8 - aliasPieceEncodingZeroBits
	aliasPieceEncodingMaxZeros       = 1<<aliasPieceEncodingZeroBits - 1
	aliasPieceEncodingMaxNodeAliases = 1<<aliasPieceEncodingNodeAliasBits - 1
)

// Bytes compresses alias pieces to a slice of bytes.
func (aliases AliasPieces) Bytes() ([]byte, error) {
	if len(aliases) == 0 {
		return nil, nil
	}

	var buffer [binary.MaxVarintLen64]byte

	// we're going to guess that it'll take 3 bytes per node alias + at most one per two nodes.
	data := make([]byte, 0, len(aliases)*3+len(aliases)/2)
	data = append(data, aliasPieceEncodingRLE)

	expectedPieceNumber := uint16(0)

	index := 0
	for index < len(aliases) {
		data = append(data, 0)

		// setup header for the next sequence of nodes
		lengthHeaderPos := len(data) - 1
		zeroCount, aliasCount := 0, 0
		setHeader := func() {
			data[lengthHeaderPos] = byte(aliasCount)<<aliasPieceEncodingZeroBits | byte(zeroCount)
		}

		// start examining the piece
		piece := aliases[index]
		if expectedPieceNumber > piece.Number {
			return nil, Error.New("alias pieces not ordered")
		}

		// count up until max zeros
		for i := 0; i < aliasPieceEncodingMaxZeros; i++ {
			if expectedPieceNumber == piece.Number {
				break
			}
			zeroCount++
			expectedPieceNumber++
		}

		// if there were too many zeros in sequence, we need to emit more headers
		if piece.Number != expectedPieceNumber {
			setHeader()
			continue
		}

		// emit all the pieces that are in sequence, but up to max node aliases
		for aliasCount < aliasPieceEncodingMaxNodeAliases {
			// emit the piece alias
			n := binary.PutUvarint(buffer[:], uint64(piece.Alias))
			data = append(data, buffer[:n]...)

			// update the header and the expected piece number
			aliasCount++
			expectedPieceNumber++

			// next piece
			index++
			if index >= len(aliases) {
				break
			}
			piece = aliases[index]

			// check whether we should emit zeros
			if piece.Number != expectedPieceNumber {
				break
			}
		}
		setHeader()
	}

	return data, nil
}

// SetBytes decompresses alias pieces from a slice of bytes.
func (aliases *AliasPieces) SetBytes(data []byte) error {
	*aliases = nil
	if len(data) == 0 {
		return nil
	}
	if data[0] != aliasPieceEncodingRLE {
		return Error.New("unknown alias pieces header: %v", data[0])
	}

	// we're going to guess there's two alias pieces per two bytes of data
	*aliases = make(AliasPieces, 0, len(data)/2)

	p := 1
	pieceNumber := uint16(0)
	for p < len(data) {
		// read the header
		header := data[p]
		p++
		if p >= len(data) {
			return Error.New("invalid alias pieces data")
		}

		// extract header values
		aliasCount := int(header >> aliasPieceEncodingZeroBits)
		zeroCount := int(header & aliasPieceEncodingMaxZeros)

		// skip over the zero values
		pieceNumber += uint16(zeroCount)

		// read the aliases
		for k := 0; k < aliasCount; k++ {
			v, n := binary.Uvarint(data[p:])
			p += n
			if n <= 0 {
				return Error.New("invalid alias pieces data")
			}
			*aliases = append(*aliases, AliasPiece{
				Number: pieceNumber,
				Alias:  NodeAlias(v),
			})
			pieceNumber++
		}
	}

	return nil
}

// Scan implements the database/sql Scanner interface.
func (aliases *AliasPieces) Scan(src interface{}) error {
	if src == nil {
		*aliases = nil
		return nil
	}

	switch src := src.(type) {
	case []byte:
		return aliases.SetBytes(src)
	default:
		return Error.New("invalid type for AliasPieces: %T", src)
	}
}

// Value implements the database/sql/driver Valuer interface.
func (aliases AliasPieces) Value() (driver.Value, error) {
	return aliases.Bytes()
}

// EqualAliasPieces compares whether xs and ys are equal.
func EqualAliasPieces(xs, ys AliasPieces) bool {
	if len(xs) != len(ys) {
		return false
	}
	for i, x := range xs {
		if ys[i] != x {
			return false
		}
	}
	return true
}
satellite/metainfo/metabase: add AliasPiece This adds AliasPieces run length encoding. On average it should make our pieces encoding: repair=50,optimal=85,total=90 152.0 bytes repair=16,optimal=37,total=50 65.4 bytes Change-Id: I391a9183164828f05383a3cde9ab0e4549c2d440 2021-02-09 08:13:54 +00:00			`// Copyright (C) 2021 Storj Labs, Inc.`
			`// See LICENSE for copying information.`

			`package metabase`

			`import (`
			`"database/sql/driver"`
			`"encoding/binary"`
			`)`

			`// AliasPieces is a slice of AliasPiece.`
			`type AliasPieces []AliasPiece`

			`// AliasPiece is a piece with alias node ID.`
			`type AliasPiece struct {`
			`Number uint16`
			`Alias NodeAlias`
			`}`

			`const (`
			`// aliasPieceEncodingRLE run length encodes the zeros and node ID-s.`
			`//`
			`// Example:`
			`// pieces = {2 x} {11 y}`
			`// // converted into slice with zeros`
			`// 0 0 x 0 0 0 0 0 0 0 0 y`
			`// // run length encoded`
			`// <2 zeros, 1 value> x <7 zeros, 0 values> <1 zeros, 1 value> y`
			`aliasPieceEncodingRLE = 1`

			`aliasPieceEncodingZeroBits = 3`
			`aliasPieceEncodingNodeAliasBits = 8 - aliasPieceEncodingZeroBits`
			`aliasPieceEncodingMaxZeros = 1<<aliasPieceEncodingZeroBits - 1`
			`aliasPieceEncodingMaxNodeAliases = 1<<aliasPieceEncodingNodeAliasBits - 1`
			`)`

			`// Bytes compresses alias pieces to a slice of bytes.`
			`func (aliases AliasPieces) Bytes() ([]byte, error) {`
			`if len(aliases) == 0 {`
			`return nil, nil`
			`}`

			`var buffer [binary.MaxVarintLen64]byte`

			`// we're going to guess that it'll take 3 bytes per node alias + at most one per two nodes.`
			`data := make([]byte, 0, len(aliases)*3+len(aliases)/2)`
			`data = append(data, aliasPieceEncodingRLE)`

			`expectedPieceNumber := uint16(0)`

			`index := 0`
			`for index < len(aliases) {`
			`data = append(data, 0)`

			`// setup header for the next sequence of nodes`
			`lengthHeaderPos := len(data) - 1`
			`zeroCount, aliasCount := 0, 0`
			`setHeader := func() {`
			`data[lengthHeaderPos] = byte(aliasCount)<<aliasPieceEncodingZeroBits \| byte(zeroCount)`
			`}`

			`// start examining the piece`
			`piece := aliases[index]`
			`if expectedPieceNumber > piece.Number {`
			`return nil, Error.New("alias pieces not ordered")`
			`}`

			`// count up until max zeros`
			`for i := 0; i < aliasPieceEncodingMaxZeros; i++ {`
			`if expectedPieceNumber == piece.Number {`
			`break`
			`}`
			`zeroCount++`
			`expectedPieceNumber++`
			`}`

			`// if there were too many zeros in sequence, we need to emit more headers`
			`if piece.Number != expectedPieceNumber {`
			`setHeader()`
			`continue`
			`}`

			`// emit all the pieces that are in sequence, but up to max node aliases`
			`for aliasCount < aliasPieceEncodingMaxNodeAliases {`
			`// emit the piece alias`
			`n := binary.PutUvarint(buffer[:], uint64(piece.Alias))`
			`data = append(data, buffer[:n]...)`

			`// update the header and the expected piece number`
			`aliasCount++`
			`expectedPieceNumber++`

			`// next piece`
			`index++`
			`if index >= len(aliases) {`
			`break`
			`}`
			`piece = aliases[index]`

			`// check whether we should emit zeros`
			`if piece.Number != expectedPieceNumber {`
			`break`
			`}`
			`}`
			`setHeader()`
			`}`

			`return data, nil`
			`}`

			`// SetBytes decompresses alias pieces from a slice of bytes.`
			`func (aliases *AliasPieces) SetBytes(data []byte) error {`
			`*aliases = nil`
			`if len(data) == 0 {`
			`return nil`
			`}`
			`if data[0] != aliasPieceEncodingRLE {`
			`return Error.New("unknown alias pieces header: %v", data[0])`
			`}`

			`// we're going to guess there's two alias pieces per two bytes of data`
			`*aliases = make(AliasPieces, 0, len(data)/2)`

			`p := 1`
			`pieceNumber := uint16(0)`
			`for p < len(data) {`
			`// read the header`
			`header := data[p]`
			`p++`
			`if p >= len(data) {`
			`return Error.New("invalid alias pieces data")`
			`}`

			`// extract header values`
			`aliasCount := int(header >> aliasPieceEncodingZeroBits)`
			`zeroCount := int(header & aliasPieceEncodingMaxZeros)`

			`// skip over the zero values`
			`pieceNumber += uint16(zeroCount)`

			`// read the aliases`
			`for k := 0; k < aliasCount; k++ {`
			`v, n := binary.Uvarint(data[p:])`
			`p += n`
			`if n <= 0 {`
			`return Error.New("invalid alias pieces data")`
			`}`
			`aliases = append(aliases, AliasPiece{`
			`Number: pieceNumber,`
			`Alias: NodeAlias(v),`
			`})`
			`pieceNumber++`
			`}`
			`}`

			`return nil`
			`}`

			`// Scan implements the database/sql Scanner interface.`
			`func (aliases *AliasPieces) Scan(src interface{}) error {`
			`if src == nil {`
			`*aliases = nil`
			`return nil`
			`}`

			`switch src := src.(type) {`
			`case []byte:`
			`return aliases.SetBytes(src)`
			`default:`
			`return Error.New("invalid type for AliasPieces: %T", src)`
			`}`
			`}`

			`// Value implements the database/sql/driver Valuer interface.`
			`func (aliases AliasPieces) Value() (driver.Value, error) {`
			`return aliases.Bytes()`
			`}`

			`// EqualAliasPieces compares whether xs and ys are equal.`
			`func EqualAliasPieces(xs, ys AliasPieces) bool {`
			`if len(xs) != len(ys) {`
			`return false`
			`}`
			`for i, x := range xs {`
			`if ys[i] != x {`
			`return false`
			`}`
			`}`
			`return true`
			`}`