use hashing::hash; const SSZ_CHUNK_SIZE: usize = 128; const HASHSIZE: usize = 32; pub trait TreeHash { fn hash_tree_root_internal(&self) -> Vec; fn hash_tree_root(&self) -> Vec { let mut result = self.hash_tree_root_internal(); if result.len() < HASHSIZE { zpad(&mut result, HASHSIZE); } result } } /// 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 { // flatten list let (mut chunk_size, mut chunkz) = list_to_blob(list); // get data_len as bytes. It will hashed will the merkle root let mut datalen = list.len().to_le_bytes().to_vec(); zpad(&mut datalen, 32); // Tree-hash while chunkz.len() > HASHSIZE { let mut new_chunkz: Vec = Vec::new(); for two_chunks in chunkz.chunks(chunk_size * 2) { if two_chunks.len() == chunk_size { // Odd number of chunks let mut c = two_chunks.to_vec(); c.append(&mut vec![0; SSZ_CHUNK_SIZE]); new_chunkz.append(&mut hash(&c)); } else { // Hash two chuncks together new_chunkz.append(&mut hash(two_chunks)); } } chunk_size = HASHSIZE; chunkz = new_chunkz; } chunkz.append(&mut datalen); hash(&chunkz) } fn list_to_blob(list: &mut Vec>) -> (usize, Vec) { let chunk_size = if list.is_empty() || list[0].len() < SSZ_CHUNK_SIZE { SSZ_CHUNK_SIZE } else { list[0].len() }; let items_per_chunk = SSZ_CHUNK_SIZE / list[0].len(); let chunk_count = list.len() / items_per_chunk; let mut chunkz = Vec::new(); if list.is_empty() { // handle and empty list chunkz.append(&mut vec![0; SSZ_CHUNK_SIZE]); } else if list[0].len() <= SSZ_CHUNK_SIZE { // just create a blob here; we'll divide into // chunked slices when we merklize let mut chunk = Vec::with_capacity(chunk_size); let mut item_count_in_chunk = 0; chunkz.reserve(chunk_count * chunk_size); for item in list.iter_mut() { item_count_in_chunk += 1; chunk.append(item); // completed chunk? if item_count_in_chunk == items_per_chunk { zpad(&mut chunk, chunk_size); chunkz.append(&mut chunk); item_count_in_chunk = 0; } } // left-over uncompleted chunk? if item_count_in_chunk != 0 { zpad(&mut chunk, chunk_size); chunkz.append(&mut chunk); } } else { // chunks larger than SSZ_CHUNK_SIZE chunkz.reserve(chunk_count * chunk_size); for item in list.iter_mut() { chunkz.append(item); } } (chunk_size, chunkz) } /// right pads with zeros making 'bytes' 'size' in length fn zpad(bytes: &mut Vec, size: usize) { if bytes.len() < size { bytes.resize(size, 0); } } #[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()); } }