prysm-pulse/encoding/ssz/helpers.go
terencechain d17996f8b0
Update to V4 🚀 (#12134)
* Update V3 from V4

* Fix build v3 -> v4

* Update ssz

* Update beacon_chain.pb.go

* Fix formatter import

* Update update-mockgen.sh comment to v4

* Fix conflicts. Pass build and tests

* Fix test
2023-03-17 18:52:56 +00:00

116 lines
3.8 KiB
Go

// Package ssz defines HashTreeRoot utility functions.
package ssz
import (
"bytes"
"encoding/binary"
"github.com/minio/sha256-simd"
"github.com/pkg/errors"
"github.com/prysmaticlabs/go-bitfield"
"github.com/prysmaticlabs/prysm/v4/encoding/bytesutil"
)
const bytesPerChunk = 32
// BitlistRoot returns the mix in length of a bitwise Merkleized bitfield.
func BitlistRoot(bfield bitfield.Bitfield, maxCapacity uint64) ([32]byte, error) {
limit := (maxCapacity + 255) / 256
if bfield == nil || bfield.Len() == 0 {
length := make([]byte, 32)
root, err := BitwiseMerkleize([][32]byte{}, 0, limit)
if err != nil {
return [32]byte{}, err
}
return MixInLength(root, length), nil
}
chunks, err := PackByChunk([][]byte{bfield.Bytes()})
if err != nil {
return [32]byte{}, err
}
buf := new(bytes.Buffer)
if err := binary.Write(buf, binary.LittleEndian, bfield.Len()); err != nil {
return [32]byte{}, err
}
output := make([]byte, 32)
copy(output, buf.Bytes())
root, err := BitwiseMerkleize(chunks, uint64(len(chunks)), limit)
if err != nil {
return [32]byte{}, err
}
return MixInLength(root, output), nil
}
// BitwiseMerkleize - given ordered BYTES_PER_CHUNK-byte chunks, if necessary utilize
// zero chunks so that the number of chunks is a power of two, Merkleize the chunks,
// and return the root.
// Note that merkleize on a single chunk is simply that chunk, i.e. the identity
// when the number of chunks is one.
func BitwiseMerkleize(chunks [][32]byte, count, limit uint64) ([32]byte, error) {
if count > limit {
return [32]byte{}, errors.New("merkleizing list that is too large, over limit")
}
return MerkleizeVector(chunks, limit), nil
}
// PackByChunk a given byte array's final chunk with zeroes if needed.
func PackByChunk(serializedItems [][]byte) ([][bytesPerChunk]byte, error) {
var emptyChunk [bytesPerChunk]byte
// If there are no items, we return an empty chunk.
if len(serializedItems) == 0 {
return [][bytesPerChunk]byte{emptyChunk}, nil
} else if len(serializedItems[0]) == bytesPerChunk {
// If each item has exactly BYTES_PER_CHUNK length, we return the list of serialized items.
chunks := make([][bytesPerChunk]byte, 0, len(serializedItems))
for _, c := range serializedItems {
chunks = append(chunks, bytesutil.ToBytes32(c))
}
return chunks, nil
}
// We flatten the list in order to pack its items into byte chunks correctly.
orderedItems := make([]byte, 0, len(serializedItems)*len(serializedItems[0]))
for _, item := range serializedItems {
orderedItems = append(orderedItems, item...)
}
// If all our serialized item slices are length zero, we
// exit early.
if len(orderedItems) == 0 {
return [][bytesPerChunk]byte{emptyChunk}, nil
}
numItems := len(orderedItems)
var chunks [][bytesPerChunk]byte
for i := 0; i < numItems; i += bytesPerChunk {
j := i + bytesPerChunk
// We create our upper bound index of the chunk, if it is greater than numItems,
// we set it as numItems itself.
if j > numItems {
j = numItems
}
// We create chunks from the list of items based on the
// indices determined above.
// Right-pad the last chunk with zero bytes if it does not
// have length bytesPerChunk from the helper.
// The ToBytes32 helper allocates a 32-byte array, before
// copying the ordered items in. This ensures that even if
// the last chunk is != 32 in length, we will right-pad it with
// zero bytes.
chunks = append(chunks, bytesutil.ToBytes32(orderedItems[i:j]))
}
return chunks, nil
}
// MixInLength appends hash length to root
func MixInLength(root [32]byte, length []byte) [32]byte {
var hash [32]byte
h := sha256.New()
h.Write(root[:])
h.Write(length)
// The hash interface never returns an error, for that reason
// we are not handling the error below. For reference, it is
// stated here https://golang.org/pkg/hash/#Hash
// #nosec G104
h.Sum(hash[:0])
return hash
}