lighthouse/eth2/utils/tree_hash/src/merkleize_standard.rs

use super::*;
use eth2_hashing::hash;

/// Merkleizes bytes and returns the root, using a simple algorithm that does not optimize to avoid
/// processing or storing padding bytes.
///
/// The input `bytes` will be padded to ensure that the number of leaves is a power-of-two.
///
/// It is likely a better choice to use [merkleize_padded](fn.merkleize_padded.html) instead.
///
/// ## CPU Performance
///
/// Will hash all nodes in the tree, even if they are padding and pre-determined.
///
/// ## Memory Performance
///
///  - Duplicates the input `bytes`.
///  - Stores all internal nodes, even if they are padding.
///  - Does not free up unused memory during operation.
pub fn merkleize_standard(bytes: &[u8]) -> Vec<u8> {
    // If the bytes are just one chunk (or less than one chunk) just return them.
    if bytes.len() <= HASHSIZE {
        let mut o = bytes.to_vec();
        o.resize(HASHSIZE, 0);
        return o;
    }

    let leaves = num_sanitized_leaves(bytes.len());
    let nodes = num_nodes(leaves);
    let internal_nodes = nodes - leaves;

    let num_bytes = std::cmp::max(internal_nodes, 1) * HASHSIZE + bytes.len();

    let mut o: Vec<u8> = vec![0; internal_nodes * HASHSIZE];

    o.append(&mut bytes.to_vec());

    assert_eq!(o.len(), num_bytes);

    let empty_chunk_hash = hash(&[0; MERKLE_HASH_CHUNK]);

    let mut i = nodes * HASHSIZE;
    let mut j = internal_nodes * HASHSIZE;

    while i >= MERKLE_HASH_CHUNK {
        i -= MERKLE_HASH_CHUNK;

        j -= HASHSIZE;
        let hash = match o.get(i..i + MERKLE_HASH_CHUNK) {
            // All bytes are available, hash as usual.
            Some(slice) => hash(slice),
            // Unable to get all the bytes.
            None => {
                match o.get(i..) {
                    // Able to get some of the bytes, pad them out.
                    Some(slice) => {
                        let mut bytes = slice.to_vec();
                        bytes.resize(MERKLE_HASH_CHUNK, 0);
                        hash(&bytes)
                    }
                    // Unable to get any bytes, use the empty-chunk hash.
                    None => empty_chunk_hash.clone(),
                }
            }
        };

        o[j..j + HASHSIZE].copy_from_slice(&hash);
    }

    o
}

fn num_sanitized_leaves(num_bytes: usize) -> usize {
    let leaves = (num_bytes + HASHSIZE - 1) / HASHSIZE;
    leaves.next_power_of_two()
}

fn num_nodes(num_leaves: usize) -> usize {
    2 * num_leaves - 1
}
Further tidy `tree_hash` crate. 2019-04-26 00:37:50 +00:00			`use super::*;`
Publish ssz_types (and deps) to crates.io (#468) * Rename `hashing` crate to `eth2_hashing` * Add license, desc to eth2_hashing Cargo.toml * Remove merkle root from eth2 hashing * Remove old benches folder (zombied from old branch) * Add docs to eth2_hashing * Prepare tree_hash for publishing on crates.io * Update deps to use crates.io instead of paths * Update all crates to pull ssz from crates.io * Remove cached_tree_hash, add patches to manifest * Fix compile error in benches * Remove unused code * Fix fake_crypto compile error 2019-08-08 01:39:47 +00:00			`use eth2_hashing::hash;`
Further tidy `tree_hash` crate. 2019-04-26 00:37:50 +00:00
Padding efficent merkle root algo (#436) * Add initial work on padding efficent merkle roots * Improve merklize_padded * Improve tree_hash crate -- fix bugs, docs * Update codebase for tree_hash API change * Remove dbg statements, fix import error * Fix clippy lints, doc error * Tidy tree hash comments * Increase tree_hash max tree height * Fix PR review comments * Fix typos * Fix cache access off-by-one in tree hash * Set max tree depth to 48 (from 64) 2019-07-16 04:40:56 +00:00			`/// Merkleizes bytes and returns the root, using a simple algorithm that does not optimize to avoid`
			`/// processing or storing padding bytes.`
			`///`
			/// The input `bytes` will be padded to ensure that the number of leaves is a power-of-two.
			`///`
			`/// It is likely a better choice to use [merkleize_padded](fn.merkleize_padded.html) instead.`
			`///`
			`/// ## CPU Performance`
			`///`
			`/// Will hash all nodes in the tree, even if they are padding and pre-determined.`
			`///`
			`/// ## Memory Performance`
			`///`
			/// - Duplicates the input `bytes`.
			`/// - Stores all internal nodes, even if they are padding.`
			`/// - Does not free up unused memory during operation.`
			`pub fn merkleize_standard(bytes: &[u8]) -> Vec<u8> {`
Further tidy `tree_hash` crate. 2019-04-26 00:37:50 +00:00			`// If the bytes are just one chunk (or less than one chunk) just return them.`
			`if bytes.len() <= HASHSIZE {`
			`let mut o = bytes.to_vec();`
			`o.resize(HASHSIZE, 0);`
			`return o;`
			`}`

			`let leaves = num_sanitized_leaves(bytes.len());`
			`let nodes = num_nodes(leaves);`
			`let internal_nodes = nodes - leaves;`

			`let num_bytes = std::cmp::max(internal_nodes, 1) * HASHSIZE + bytes.len();`

			`let mut o: Vec<u8> = vec![0; internal_nodes * HASHSIZE];`

			`o.append(&mut bytes.to_vec());`

			`assert_eq!(o.len(), num_bytes);`

			`let empty_chunk_hash = hash(&[0; MERKLE_HASH_CHUNK]);`

			`let mut i = nodes * HASHSIZE;`
			`let mut j = internal_nodes * HASHSIZE;`

			`while i >= MERKLE_HASH_CHUNK {`
			`i -= MERKLE_HASH_CHUNK;`

			`j -= HASHSIZE;`
			`let hash = match o.get(i..i + MERKLE_HASH_CHUNK) {`
Fix lots of typos. 2019-07-26 19:26:06 +00:00			`// All bytes are available, hash as usual.`
Further tidy `tree_hash` crate. 2019-04-26 00:37:50 +00:00			`Some(slice) => hash(slice),`
			`// Unable to get all the bytes.`
			`None => {`
			`match o.get(i..) {`
			`// Able to get some of the bytes, pad them out.`
			`Some(slice) => {`
			`let mut bytes = slice.to_vec();`
			`bytes.resize(MERKLE_HASH_CHUNK, 0);`
			`hash(&bytes)`
			`}`
			`// Unable to get any bytes, use the empty-chunk hash.`
			`None => empty_chunk_hash.clone(),`
			`}`
			`}`
			`};`

			`o[j..j + HASHSIZE].copy_from_slice(&hash);`
			`}`

			`o`
			`}`

			`fn num_sanitized_leaves(num_bytes: usize) -> usize {`
			`let leaves = (num_bytes + HASHSIZE - 1) / HASHSIZE;`
			`leaves.next_power_of_two()`
			`}`

			`fn num_nodes(num_leaves: usize) -> usize {`
			`2 * num_leaves - 1`
			`}`