127 lines
4.2 KiB
Rust
127 lines
4.2 KiB
Rust
// Written in 2014 by Andrew Poelstra <apoelstra@wpsoftware.net>
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// SPDX-License-Identifier: CC0-1.0
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//! Bitcoin hash functions.
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//!
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//! This module provides utility functions related to hashing data, including
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//! merkleization.
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//!
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use core::iter;
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use crate::prelude::*;
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use crate::io;
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use core::cmp::min;
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use crate::hashes::Hash;
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use crate::consensus::encode::Encodable;
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/// Calculates the merkle root of a list of *hashes*, inline (in place) in `hashes`.
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///
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/// In most cases, you'll want to use [bitcoin_merkle_root] instead.
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///
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/// # Returns
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/// - `None` if `hashes` is empty. The merkle root of an empty tree of hashes is undefined.
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/// - `Some(hash)` if `hashes` contains one element. A single hash is by definition the merkle root.
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/// - `Some(merkle_root)` if length of `hashes` is greater than one.
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pub fn bitcoin_merkle_root_inline<T>(hashes: &mut [T]) -> Option<T>
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where
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T: Hash + Encodable,
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<T as Hash>::Engine: io::Write,
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{
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match hashes.len() {
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0 => None,
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1 => Some(hashes[0]),
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_ => Some(merkle_root_r(hashes)),
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}
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}
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/// Calculates the merkle root of an iterator of *hashes*.
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///
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/// # Returns
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/// - `None` if `hashes` is empty. The merkle root of an empty tree of hashes is undefined.
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/// - `Some(hash)` if `hashes` contains one element. A single hash is by definition the merkle root.
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/// - `Some(merkle_root)` if length of `hashes` is greater than one.
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pub fn bitcoin_merkle_root<T, I>(mut hashes: I) -> Option<T>
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where
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T: Hash + Encodable,
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<T as Hash>::Engine: io::Write,
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I: Iterator<Item=T>,
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{
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let first = hashes.next()?;
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let second = match hashes.next() {
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Some(second) => second,
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None => return Some(first),
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};
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let mut hashes = iter::once(first).chain(iter::once(second)).chain(hashes);
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// We need a local copy to pass to `merkle_root_r`. It's more efficient to do the first loop of
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// processing as we make the copy instead of copying the whole iterator.
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let (min, max) = hashes.size_hint();
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let mut alloc = Vec::with_capacity(max.unwrap_or(min) / 2 + 1);
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while let Some(hash1) = hashes.next() {
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// If the size is odd, use the last element twice.
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let hash2 = hashes.next().unwrap_or(hash1);
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let mut encoder = T::engine();
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hash1.consensus_encode(&mut encoder).expect("in-memory writers don't error");
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hash2.consensus_encode(&mut encoder).expect("in-memory writers don't error");
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alloc.push(T::from_engine(encoder));
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}
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Some(merkle_root_r(&mut alloc))
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}
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// `hashes` must contain at least one hash.
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fn merkle_root_r<T>(hashes: &mut [T]) -> T
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where
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T: Hash + Encodable,
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<T as Hash>::Engine: io::Write,
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{
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if hashes.len() == 1 {
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return hashes[0]
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}
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for idx in 0..((hashes.len() + 1) / 2) {
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let idx1 = 2 * idx;
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let idx2 = min(idx1 + 1, hashes.len() - 1);
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let mut encoder = T::engine();
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hashes[idx1].consensus_encode(&mut encoder).expect("in-memory writers don't error");
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hashes[idx2].consensus_encode(&mut encoder).expect("in-memory writers don't error");
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hashes[idx] = T::from_engine(encoder);
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}
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let half_len = hashes.len() / 2 + hashes.len() % 2;
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merkle_root_r(&mut hashes[0..half_len])
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}
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#[cfg(test)]
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mod tests {
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use crate::consensus::encode::deserialize;
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use crate::hashes::sha256d;
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use crate::blockdata::block::Block;
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use super::*;
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#[test]
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fn both_merkle_root_functions_return_the_same_result() {
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// testnet block 000000000000045e0b1660b6445b5e5c5ab63c9a4f956be7e1e69be04fa4497b
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let segwit_block = include_bytes!("../../test_data/testnet_block_000000000000045e0b1660b6445b5e5c5ab63c9a4f956be7e1e69be04fa4497b.raw");
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let block: Block = deserialize(&segwit_block[..]).expect("Failed to deserialize block");
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assert!(block.check_merkle_root()); // Sanity check.
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let hashes_iter = block.txdata.iter().map(|obj| obj.txid().as_hash());
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let mut hashes_array: [sha256d::Hash; 15] = [Hash::all_zeros(); 15];
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for (i, hash) in hashes_iter.clone().enumerate() {
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hashes_array[i] = hash;
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}
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let from_iter = bitcoin_merkle_root(hashes_iter);
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let from_array = bitcoin_merkle_root_inline(&mut hashes_array);
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assert_eq!(from_iter, from_array);
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}
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}
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