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extendeddatasquare.go
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extendeddatasquare.go
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// Package rsmt2d implements the two dimensional Reed-Solomon merkle tree data availability scheme.
package rsmt2d
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"golang.org/x/sync/errgroup"
)
// ExtendedDataSquare represents an extended piece of data.
type ExtendedDataSquare struct {
*dataSquare
codec Codec
originalDataWidth uint
}
func (eds *ExtendedDataSquare) MarshalJSON() ([]byte, error) {
return json.Marshal(&struct {
DataSquare [][]byte `json:"data_square"`
Codec string `json:"codec"`
}{
DataSquare: eds.dataSquare.Flattened(),
Codec: eds.codec.Name(),
})
}
func (eds *ExtendedDataSquare) UnmarshalJSON(b []byte) error {
var aux struct {
DataSquare [][]byte `json:"data_square"`
Codec string `json:"codec"`
}
if err := json.Unmarshal(b, &aux); err != nil {
return err
}
importedEds, err := ImportExtendedDataSquare(aux.DataSquare, codecs[aux.Codec], NewDefaultTree)
if err != nil {
return err
}
*eds = *importedEds
return nil
}
// ComputeExtendedDataSquare computes the extended data square for some shares
// of original data.
func ComputeExtendedDataSquare(
data [][]byte,
codec Codec,
treeCreatorFn TreeConstructorFn,
) (*ExtendedDataSquare, error) {
if len(data) > codec.MaxChunks() {
// TODO: export this error and rename chunk to share
return nil, errors.New("number of chunks exceeds the maximum")
}
shareSize := getShareSize(data)
err := codec.ValidateChunkSize(shareSize)
if err != nil {
return nil, err
}
ds, err := newDataSquare(data, treeCreatorFn, uint(shareSize))
if err != nil {
return nil, err
}
eds := ExtendedDataSquare{dataSquare: ds, codec: codec}
err = eds.erasureExtendSquare(codec)
if err != nil {
return nil, err
}
return &eds, nil
}
// ImportExtendedDataSquare imports an extended data square, represented as flattened shares of data.
func ImportExtendedDataSquare(
data [][]byte,
codec Codec,
treeCreatorFn TreeConstructorFn,
) (*ExtendedDataSquare, error) {
if len(data) > 4*codec.MaxChunks() {
// TODO: export this error and rename chunk to share
return nil, errors.New("number of chunks exceeds the maximum")
}
shareSize := getShareSize(data)
err := codec.ValidateChunkSize(shareSize)
if err != nil {
return nil, err
}
ds, err := newDataSquare(data, treeCreatorFn, uint(shareSize))
if err != nil {
return nil, err
}
eds := ExtendedDataSquare{dataSquare: ds, codec: codec}
err = validateEdsWidth(eds.width)
if err != nil {
return nil, err
}
eds.originalDataWidth = eds.width / 2
return &eds, nil
}
// NewExtendedDataSquare returns a new extended data square with a width of
// edsWidth. All shares are initialized to nil so that the returned extended
// data square can be populated via subsequent SetCell invocations.
func NewExtendedDataSquare(codec Codec, treeCreatorFn TreeConstructorFn, edsWidth uint, shareSize uint) (*ExtendedDataSquare, error) {
err := validateEdsWidth(edsWidth)
if err != nil {
return nil, err
}
err = codec.ValidateChunkSize(int(shareSize))
if err != nil {
return nil, err
}
data := make([][]byte, edsWidth*edsWidth)
dataSquare, err := newDataSquare(data, treeCreatorFn, shareSize)
if err != nil {
return nil, err
}
originalDataWidth := edsWidth / 2
eds := ExtendedDataSquare{
dataSquare: dataSquare,
codec: codec,
originalDataWidth: originalDataWidth,
}
return &eds, nil
}
func (eds *ExtendedDataSquare) erasureExtendSquare(codec Codec) error {
eds.originalDataWidth = eds.width
// Extend original square with filler shares. O represents original data. F
// represents filler shares.
//
// ------- -------
// | | |
// | O | F |
// | | |
// ------- -------
// | | |
// | F | F |
// | | |
// ------- -------
if err := eds.extendSquare(eds.width, bytes.Repeat([]byte{0}, int(eds.shareSize))); err != nil {
return err
}
errs, _ := errgroup.WithContext(context.Background())
// Populate filler shares in Q1 and Q2. E represents erasure data.
//
// ------- -------
// | | |
// | O → | E |
// | ↓ | |
// ------- -------
// | | |
// | E | F |
// | | |
// ------- -------
for i := uint(0); i < eds.originalDataWidth; i++ {
i := i
// Encode Q0 and populate Q1 with erasure data
errs.Go(func() error {
return eds.erasureExtendRow(codec, i)
})
// Encode Q0 and populate Q2 with erasure data
errs.Go(func() error {
return eds.erasureExtendCol(codec, i)
})
}
if err := errs.Wait(); err != nil {
return err
}
// Populate filler shares in Q3. Note that the parity data in `Q3` will be
// identical if it is vertically extended from `Q1` or horizontally extended
// from `Q2`.
//
// ------- -------
// | | |
// | O | E |
// | | |
// ------- -------
// | | |
// | E → | E |
// | | |
// ------- -------
for i := eds.originalDataWidth; i < eds.width; i++ {
i := i
// Encode Q2 and populate Q3 with erasure data
errs.Go(func() error {
return eds.erasureExtendRow(codec, i)
})
}
return errs.Wait()
}
func (eds *ExtendedDataSquare) erasureExtendRow(codec Codec, rowIdx uint) error {
parityShares, err := codec.Encode(eds.rowSlice(rowIdx, 0, eds.originalDataWidth))
if err != nil {
return err
}
return eds.setRowSlice(rowIdx, eds.originalDataWidth, parityShares)
}
func (eds *ExtendedDataSquare) erasureExtendCol(codec Codec, colIdx uint) error {
parityShares, err := codec.Encode(eds.colSlice(0, colIdx, eds.originalDataWidth))
if err != nil {
return err
}
return eds.setColSlice(colIdx, eds.originalDataWidth, parityShares)
}
func (eds *ExtendedDataSquare) deepCopy(codec Codec) (ExtendedDataSquare, error) {
imported, err := ImportExtendedDataSquare(eds.Flattened(), codec, eds.createTreeFn)
return *imported, err
}
// Col returns a column slice.
// This slice is a copy of the internal column slice.
func (eds *ExtendedDataSquare) Col(colIdx uint) [][]byte {
return deepCopy(eds.col(colIdx))
}
// ColRoots returns the Merkle roots of all the columns in the square. Returns
// an error if the EDS is incomplete (i.e. some shares are nil).
func (eds *ExtendedDataSquare) ColRoots() ([][]byte, error) {
colRoots, err := eds.getColRoots()
if err != nil {
return nil, err
}
return deepCopy(colRoots), nil
}
// Row returns a row slice.
// This slice is a copy of the internal row slice.
func (eds *ExtendedDataSquare) Row(rowIdx uint) [][]byte {
return deepCopy(eds.row(rowIdx))
}
// RowRoots returns the Merkle roots of all the rows in the square. Returns an
// error if the EDS is incomplete (i.e. some shares are nil).
func (eds *ExtendedDataSquare) RowRoots() ([][]byte, error) {
rowRoots, err := eds.getRowRoots()
if err != nil {
return nil, err
}
return deepCopy(rowRoots), nil
}
func deepCopy(original [][]byte) [][]byte {
dest := make([][]byte, len(original))
for i, cell := range original {
if cell == nil {
continue
}
dest[i] = make([]byte, len(cell))
copy(dest[i], cell)
}
return dest
}
// Width returns the width of the square.
func (eds *ExtendedDataSquare) Width() uint {
return eds.width
}
// Flattened returns the extended data square as a flattened slice of bytes.
func (eds *ExtendedDataSquare) Flattened() [][]byte {
return deepCopy(eds.dataSquare.Flattened())
}
// FlattenedODS returns the original data square as a flattened slice of bytes.
func (eds *ExtendedDataSquare) FlattenedODS() (flattened [][]byte) {
flattened = make([][]byte, eds.originalDataWidth*eds.originalDataWidth)
for rowIdx := uint(0); rowIdx < eds.originalDataWidth; rowIdx++ {
row := eds.Row(rowIdx)
for colIdx := uint(0); colIdx < eds.originalDataWidth; colIdx++ {
flattened[(rowIdx*eds.originalDataWidth)+colIdx] = row[colIdx]
}
}
return flattened
}
// Equals returns true if other is equal to eds.
func (eds *ExtendedDataSquare) Equals(other *ExtendedDataSquare) bool {
if eds.originalDataWidth != other.originalDataWidth {
return false
}
if eds.codec.Name() != other.codec.Name() {
return false
}
if eds.shareSize != other.shareSize {
return false
}
if eds.width != other.width {
return false
}
for rowIdx := uint(0); rowIdx < eds.Width(); rowIdx++ {
edsRow := eds.Row(rowIdx)
otherRow := other.Row(rowIdx)
for colIdx := 0; colIdx < len(edsRow); colIdx++ {
if !bytes.Equal(edsRow[colIdx], otherRow[colIdx]) {
return false
}
}
}
return true
}
// Roots returns a byte slice with this eds's RowRoots and ColRoots
// concatenated.
func (eds *ExtendedDataSquare) Roots() (roots [][]byte, err error) {
rowRoots, err := eds.RowRoots()
if err != nil {
return nil, err
}
colRoots, err := eds.ColRoots()
if err != nil {
return nil, err
}
roots = make([][]byte, 0, len(rowRoots)+len(colRoots))
roots = append(roots, rowRoots...)
roots = append(roots, colRoots...)
return roots, nil
}
// validateEdsWidth returns an error if edsWidth is not a valid width for an
// extended data square.
func validateEdsWidth(edsWidth uint) error {
if edsWidth%2 != 0 {
return fmt.Errorf("extended data square width %v must be even", edsWidth)
}
return nil
}
// getShareSize returns the size of the first non-nil share in data.
func getShareSize(data [][]byte) (shareSize int) {
for _, d := range data {
if d != nil {
return len(d)
}
}
return 0
}