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datasquare.go
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datasquare.go
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package rsmt2d
import (
"errors"
"fmt"
"math"
"sync"
"golang.org/x/sync/errgroup"
)
// ErrUnevenChunks is thrown when non-nil shares are not all of equal size.
// Note: chunks is synonymous with shares.
var ErrUnevenChunks = errors.New("non-nil shares not all of equal size")
// dataSquare stores all data for an original data square (ODS) or extended
// data square (EDS). Data is duplicated in both row-major and column-major
// order in order to be able to provide zero-allocation column slices.
type dataSquare struct {
squareRow [][][]byte // row-major
squareCol [][][]byte // col-major
dataMutex sync.Mutex
width uint
shareSize uint
rowRoots [][]byte
colRoots [][]byte
createTreeFn TreeConstructorFn
}
// newDataSquare populates the data square from the supplied data and treeCreator.
// No root calculation is performed.
// data may have nil values.
func newDataSquare(data [][]byte, treeCreator TreeConstructorFn, shareSize uint) (*dataSquare, error) {
width := int(math.Ceil(math.Sqrt(float64(len(data)))))
if width*width != len(data) {
// TODO: export this error and modify chunks to shares
return nil, errors.New("number of chunks must be a square number")
}
for _, d := range data {
if d != nil && len(d) != int(shareSize) {
return nil, ErrUnevenChunks
}
}
squareRow := make([][][]byte, width)
for rowIdx := 0; rowIdx < width; rowIdx++ {
squareRow[rowIdx] = data[rowIdx*width : rowIdx*width+width]
for colIdx := 0; colIdx < width; colIdx++ {
if squareRow[rowIdx][colIdx] != nil && len(squareRow[rowIdx][colIdx]) != int(shareSize) {
return nil, ErrUnevenChunks
}
}
}
squareCol := make([][][]byte, width)
for colIdx := 0; colIdx < width; colIdx++ {
squareCol[colIdx] = make([][]byte, width)
for rowIdx := 0; rowIdx < width; rowIdx++ {
squareCol[colIdx][rowIdx] = data[rowIdx*width+colIdx]
}
}
return &dataSquare{
squareRow: squareRow,
squareCol: squareCol,
width: uint(width),
shareSize: shareSize,
createTreeFn: treeCreator,
}, nil
}
// extendSquare extends the original data square by extendedWidth and fills
// the extended quadrants with fillerShare.
func (ds *dataSquare) extendSquare(extendedWidth uint, fillerShare []byte) error {
if uint(len(fillerShare)) != ds.shareSize {
// TODO: export this error and rename chunk to share
return errors.New("filler chunk size does not match data square chunk size")
}
newWidth := ds.width + extendedWidth
newSquareRow := make([][][]byte, newWidth)
fillerExtendedRow := make([][]byte, extendedWidth)
for i := uint(0); i < extendedWidth; i++ {
fillerExtendedRow[i] = fillerShare
}
fillerRow := make([][]byte, newWidth)
for i := uint(0); i < newWidth; i++ {
fillerRow[i] = fillerShare
}
row := make([][]byte, ds.width)
for i := uint(0); i < ds.width; i++ {
copy(row, ds.squareRow[i])
newSquareRow[i] = append(row, fillerExtendedRow...)
}
for i := ds.width; i < newWidth; i++ {
newSquareRow[i] = make([][]byte, newWidth)
copy(newSquareRow[i], fillerRow)
}
ds.squareRow = newSquareRow
newSquareCol := make([][][]byte, newWidth)
for colIdx := uint(0); colIdx < newWidth; colIdx++ {
newSquareCol[colIdx] = make([][]byte, newWidth)
for rowIdx := uint(0); rowIdx < newWidth; rowIdx++ {
newSquareCol[colIdx][rowIdx] = newSquareRow[rowIdx][colIdx]
}
}
ds.squareCol = newSquareCol
ds.width = newWidth
ds.resetRoots()
return nil
}
func (ds *dataSquare) rowSlice(rowIdx uint, fromIdx uint, length uint) [][]byte {
return ds.squareRow[rowIdx][fromIdx : fromIdx+length]
}
// row returns a row slice.
// Do not modify this slice directly, instead use SetCell.
func (ds *dataSquare) row(rowIdx uint) [][]byte {
return ds.rowSlice(rowIdx, 0, ds.width)
}
func (ds *dataSquare) setRowSlice(rowIdx uint, fromIdx uint, newRow [][]byte) error {
for i := uint(0); i < uint(len(newRow)); i++ {
if len(newRow[i]) != int(ds.shareSize) {
// TODO: export this error and rename chunk to share
return errors.New("invalid chunk size")
}
}
if fromIdx+uint(len(newRow)) > ds.width {
return fmt.Errorf("cannot set row slice at (%d, %d) of length %d: because it would exceed the data square width %d", rowIdx, fromIdx, len(newRow), ds.width)
}
ds.dataMutex.Lock()
defer ds.dataMutex.Unlock()
for i := uint(0); i < uint(len(newRow)); i++ {
ds.squareRow[rowIdx][fromIdx+i] = newRow[i]
ds.squareCol[fromIdx+i][rowIdx] = newRow[i]
}
ds.resetRoots()
return nil
}
func (ds *dataSquare) colSlice(rowIdx uint, colIdx uint, length uint) [][]byte {
return ds.squareCol[colIdx][rowIdx : rowIdx+length]
}
// col returns a column slice.
// Do not modify this slice directly, instead use SetCell.
func (ds *dataSquare) col(colIdx uint) [][]byte {
return ds.colSlice(0, colIdx, ds.width)
}
func (ds *dataSquare) setColSlice(colIdx uint, fromIdx uint, newCol [][]byte) error {
for i := uint(0); i < uint(len(newCol)); i++ {
if len(newCol[i]) != int(ds.shareSize) {
// TODO: export this error and rename chunk to share
return errors.New("invalid chunk size")
}
}
if fromIdx+uint(len(newCol)) > ds.width {
return fmt.Errorf("cannot set col slice at (%d, %d) of length %d: because it would exceed the data square width %d", fromIdx, colIdx, len(newCol), ds.width)
}
ds.dataMutex.Lock()
defer ds.dataMutex.Unlock()
for i := uint(0); i < uint(len(newCol)); i++ {
ds.squareRow[fromIdx+i][colIdx] = newCol[i]
ds.squareCol[colIdx][fromIdx+i] = newCol[i]
}
ds.resetRoots()
return nil
}
func (ds *dataSquare) resetRoots() {
// don't write nil if it's already nil
// this prevents rewriting nil into shared memory slot
// when resetRoots is used from multiple routines
if ds.rowRoots != nil {
ds.rowRoots = nil
}
if ds.colRoots != nil {
ds.colRoots = nil
}
}
func (ds *dataSquare) computeRoots() error {
var g errgroup.Group
rowRoots := make([][]byte, ds.width)
colRoots := make([][]byte, ds.width)
for i := uint(0); i < ds.width; i++ {
i := i // https://go.dev/doc/faq#closures_and_goroutines
g.Go(func() error {
rowRoot, err := ds.getRowRoot(i)
if err != nil {
return err
}
rowRoots[i] = rowRoot
return nil
})
g.Go(func() error {
colRoot, err := ds.getColRoot(i)
if err != nil {
return err
}
colRoots[i] = colRoot
return nil
})
}
err := g.Wait()
if err != nil {
return err
}
ds.rowRoots = rowRoots
ds.colRoots = colRoots
return nil
}
// getRowRoots returns the Merkle roots of all the rows in the square.
func (ds *dataSquare) getRowRoots() ([][]byte, error) {
if ds.rowRoots == nil {
err := ds.computeRoots()
if err != nil {
return nil, err
}
}
return ds.rowRoots, nil
}
// getRowRoot calculates and returns the root of the selected row. Note: unlike
// the getRowRoots method, getRowRoot does not write to the built-in cache.
// Returns an error if the row is incomplete (i.e. some shares are nil).
func (ds *dataSquare) getRowRoot(rowIdx uint) ([]byte, error) {
if ds.rowRoots != nil {
return ds.rowRoots[rowIdx], nil
}
tree := ds.createTreeFn(Row, rowIdx)
row := ds.row(rowIdx)
if !isComplete(row) {
return nil, errors.New("can not compute root of incomplete row")
}
for _, d := range row {
err := tree.Push(d)
if err != nil {
return nil, err
}
}
return tree.Root()
}
// getColRoots returns the Merkle roots of all the columns in the square.
func (ds *dataSquare) getColRoots() ([][]byte, error) {
if ds.colRoots == nil {
err := ds.computeRoots()
if err != nil {
return nil, err
}
}
return ds.colRoots, nil
}
// getColRoot calculates and returns the root of the selected row. Note: unlike
// the getColRoots method, getColRoot does not write to the built-in cache.
// Returns an error if the column is incomplete (i.e. some shares are nil).
func (ds *dataSquare) getColRoot(colIdx uint) ([]byte, error) {
if ds.colRoots != nil {
return ds.colRoots[colIdx], nil
}
tree := ds.createTreeFn(Col, colIdx)
col := ds.col(colIdx)
if !isComplete(col) {
return nil, errors.New("can not compute root of incomplete column")
}
for _, d := range col {
err := tree.Push(d)
if err != nil {
return nil, err
}
}
return tree.Root()
}
// GetCell returns a copy of a specific cell.
func (ds *dataSquare) GetCell(rowIdx uint, colIdx uint) []byte {
if ds.squareRow[rowIdx][colIdx] == nil {
return nil
}
cell := make([]byte, ds.shareSize)
copy(cell, ds.squareRow[rowIdx][colIdx])
return cell
}
// SetCell sets a specific cell. The cell to set must be `nil`. Returns an error
// if the cell to set is not `nil` or newShare is not the correct size.
func (ds *dataSquare) SetCell(rowIdx uint, colIdx uint, newShare []byte) error {
if ds.squareRow[rowIdx][colIdx] != nil {
return fmt.Errorf("cannot set cell (%d, %d) as it already has a value %x", rowIdx, colIdx, ds.squareRow[rowIdx][colIdx])
}
if len(newShare) != int(ds.shareSize) {
// TODO: export this error and rename chunk to share
return fmt.Errorf("cannot set cell with chunk size %d because dataSquare chunk size is %d", len(newShare), ds.shareSize)
}
ds.squareRow[rowIdx][colIdx] = newShare
ds.squareCol[colIdx][rowIdx] = newShare
ds.resetRoots()
return nil
}
// Flattened returns the concatenated rows of the data square.
func (ds *dataSquare) Flattened() [][]byte {
flattened := make([][]byte, 0, ds.width*ds.width)
for _, data := range ds.squareRow {
flattened = append(flattened, data...)
}
return flattened
}
// isComplete returns true if all the shares are non-nil.
func isComplete(shares [][]byte) bool {
for _, share := range shares {
if share == nil {
return false
}
}
return true
}