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Added TreeHash functionality

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This commit is contained in:
mjkeating 2019-01-24 16:32:58 -08:00
parent 8e82cd5934
commit 4a2d5c9fbe
4 changed files with 217 additions and 0 deletions
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1
eth2/utils/ssz/Cargo.toml
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@ -7,3 +7,4 @@ edition = "2018"
[dependencies] [dependencies]
bytes = "0.4.9" bytes = "0.4.9"
ethereum-types = "0.4.0" ethereum-types = "0.4.0"
hashing = { path = "../hashing" }

123
eth2/utils/ssz/src/impl_tree_hash.rs Normal file
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@ -0,0 +1,123 @@
extern crate hashing;
use self::hashing::canonical_hash;
use super::ethereum_types::{Address, H256};
use super::{merkle_hash, ssz_encode, TreeHash};
use std::cmp::Ord;
use std::collections::HashMap;
use std::hash::Hash;
impl TreeHash for u8 {
fn tree_hash(&self) -> Vec<u8> {
ssz_encode(self)
}
}
impl TreeHash for u16 {
fn tree_hash(&self) -> Vec<u8> {
ssz_encode(self)
}
}
impl TreeHash for u32 {
fn tree_hash(&self) -> Vec<u8> {
ssz_encode(self)
}
}
impl TreeHash for u64 {
fn tree_hash(&self) -> Vec<u8> {
ssz_encode(self)
}
}
impl TreeHash for Address {
fn tree_hash(&self) -> Vec<u8> {
ssz_encode(self)
}
}
impl TreeHash for H256 {
fn tree_hash(&self) -> Vec<u8> {
ssz_encode(self)
}
}
impl TreeHash for [u8] {
fn tree_hash(&self) -> Vec<u8> {
hash(&self)
}
}
impl<T> TreeHash for Vec<T>
where
T: TreeHash,
{
/// Returns the merkle_hash of a list of tree_hash values created
/// from the given list.
/// Note: A byte vector, Vec<u8>, must be converted to a slice (as_slice())
/// to be handled properly (i.e. hashed) as byte array.
fn tree_hash(&self) -> Vec<u8> {
let mut tree_hashes = self.iter().map(|x| x.tree_hash()).collect();
merkle_hash(&mut tree_hashes)
}
}
impl<K, V> TreeHash for HashMap<K, V>
where
K: Eq,
K: Hash,
K: Ord,
V: TreeHash,
{
/// Appends the tree_hash for each value of 'self, sorted by key,
/// into a byte array and returns the hash of said byte array
fn tree_hash(&self) -> Vec<u8> {
let mut items: Vec<_> = self.iter().collect();
items.sort_by(|a, b| a.0.cmp(b.0));
let mut result = Vec::new();
for item in items {
result.append(&mut item.1.tree_hash());
}
hash(&result)
}
}
fn hash(data: &[u8]) -> Vec<u8> {
canonical_hash(data)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_impl_tree_hash_vec() {
let result = vec![1u32, 2, 3, 4, 5, 6, 7].tree_hash();
assert_eq!(result.len(), 32);
}
#[test]
fn test_impl_tree_hash_hashmap() {
let mut map = HashMap::new();
map.insert("c", 3);
map.insert("b", 2);
map.insert("g", 7);
map.insert("d", 6);
map.insert("e", 4);
map.insert("a", 1u32);
map.insert("f", 5);
let result = map.tree_hash();
// TODO: create tests that tie-out to an offical result
assert_eq!(
result,
[
130, 215, 165, 255, 224, 6, 144, 225, 14, 139, 67, 238, 205, 240, 20, 173, 53, 0,
105, 62, 49, 174, 244, 160, 114, 92, 232, 11, 102, 200, 112, 24
]
);
}
}

3
eth2/utils/ssz/src/lib.rs
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@ -12,12 +12,15 @@ extern crate ethereum_types;
pub mod decode; pub mod decode;
pub mod encode; pub mod encode;
pub mod tree_hash;
mod impl_decode; mod impl_decode;
mod impl_encode; mod impl_encode;
mod impl_tree_hash;
pub use crate::decode::{decode_ssz, decode_ssz_list, Decodable, DecodeError}; pub use crate::decode::{decode_ssz, decode_ssz_list, Decodable, DecodeError};
pub use crate::encode::{Encodable, SszStream}; pub use crate::encode::{Encodable, SszStream};
pub use crate::tree_hash::{merkle_hash, TreeHash};
pub const LENGTH_BYTES: usize = 4; pub const LENGTH_BYTES: usize = 4;
pub const MAX_LIST_SIZE: usize = 1 << (4 * 8); pub const MAX_LIST_SIZE: usize = 1 << (4 * 8);

90
eth2/utils/ssz/src/tree_hash.rs Normal file
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@ -0,0 +1,90 @@
const SSZ_CHUNK_SIZE: usize = 128;
const HASHSIZE: usize = 32;
pub trait TreeHash {
fn tree_hash(&self) -> Vec<u8>;
}
/// Returns a 32 byte hash of 'list' - a vector of byte vectors.
/// Note that this will consume 'list'.
pub fn merkle_hash(list: &mut Vec<Vec<u8>>) -> Vec<u8> {
// flatten list
let (chunk_size, mut data) = list_to_blob(list);
// get data_len as bytes. It will hashed will the merkle root
let dlen = list.len() as u64;
let data_len_bytes = &mut dlen.tree_hash();
data_len_bytes.resize(32, 0);
// merklize
let mut mhash = hash_level(&mut data, chunk_size);
while mhash.len() > HASHSIZE {
mhash = hash_level(&mut mhash, HASHSIZE);
}
mhash.append(data_len_bytes);
mhash.as_slice().tree_hash()
}
/// Takes a flat vector of bytes. It then hashes 'chunk_size * 2' slices into
/// a byte vector of hashes, divisible by HASHSIZE
fn hash_level(data: &mut Vec<u8>, chunk_size: usize) -> Vec<u8> {
let mut result: Vec<u8> = Vec::new();
for two_chunks in data.chunks(chunk_size * 2) {
if two_chunks.len() == chunk_size && data.len() > chunk_size {
// if there is only one chunk here, hash it with a zero-byte
// SSZ_CHUNK_SIZE vector
let mut c = two_chunks.to_vec();
c.append(&mut vec![0; SSZ_CHUNK_SIZE]);
result.append(&mut c.as_slice().tree_hash());
} else {
result.append(&mut two_chunks.tree_hash());
}
}
result
}
fn list_to_blob(list: &mut Vec<Vec<u8>>) -> (usize, Vec<u8>) {
let chunk_size = if list.is_empty() {
SSZ_CHUNK_SIZE
} else if list[0].len() < SSZ_CHUNK_SIZE {
let items_per_chunk = SSZ_CHUNK_SIZE / list[0].len();
items_per_chunk * list[0].len()
} else {
list[0].len()
};
let mut data = Vec::new();
if list.is_empty() {
// handle and empty list
data.append(&mut vec![0; SSZ_CHUNK_SIZE]);
} else {
// just create a blob here; we'll divide into
// chunked slices when we merklize
data.reserve(list[0].len() * list.len());
for item in list.iter_mut() {
data.append(item);
}
}
(chunk_size, data)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_merkle_hash() {
let data1 = vec![1; 100];
let data2 = vec![2; 100];
let data3 = vec![3; 100];
let mut list = vec![data1, data2, data3];
let result = merkle_hash(&mut list);
//note: should test againt a known test hash value
assert_eq!(HASHSIZE, result.len());
println!("merkle_hash: {:?}", result);
}
}