openethereum/ethcore/light/src/cht.rs

// Copyright 2015-2017 Parity Technologies (UK) Ltd.
// This file is part of Parity.

// Parity is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.

// Parity is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.

//! Canonical hash trie definitions and helper functions.
//!
//! Each CHT is a trie mapping block numbers to canonical hashes and total difficulty.
//! One is generated for every `SIZE` blocks, allowing us to discard those blocks in
//! favor of the trie root. When the "ancient" blocks need to be accessed, we simply
//! request an inclusion proof of a specific block number against the trie with the
//! root has. A correct proof implies that the claimed block is identical to the one
//! we discarded.

use ethcore::ids::BlockId;
use util::{Bytes, H256, U256, HashDB, MemoryDB};
use util::trie::{self, TrieMut, TrieDBMut, Trie, TrieDB, Recorder};
use rlp::{RlpStream, UntrustedRlp};

// encode a key.
macro_rules! key {
	($num: expr) => { ::rlp::encode(&$num) }
}

macro_rules! val {
	($hash: expr, $td: expr) => {{
		let mut stream = RlpStream::new_list(2);
		stream.append(&$hash).append(&$td);
		stream.drain()
	}}
}

/// The size of each CHT.
pub const SIZE: u64 = 2048;

/// A canonical hash trie. This is generic over any database it can query.
/// See module docs for more details.
#[derive(Debug, Clone)]
pub struct CHT<DB: HashDB> {
	db: DB,
	root: H256, // the root of this CHT.
	number: u64,
}

impl<DB: HashDB> CHT<DB> {
	/// Query the root of the CHT.
	pub fn root(&self) -> H256 { self.root }

	/// Query the number of the CHT.
	pub fn number(&self) -> u64 { self.number }

	/// Generate an inclusion proof for the entry at a specific block.
	/// Nodes before level `from_level` will be omitted.
	/// Returns an error on an incomplete trie, and `Ok(None)` on an unprovable request.
	pub fn prove(&self, num: u64, from_level: u32) -> trie::Result<Option<Vec<Bytes>>> {
		if block_to_cht_number(num) != Some(self.number) { return Ok(None) }

		let mut recorder = Recorder::with_depth(from_level);
		let t = TrieDB::new(&self.db, &self.root)?;
		t.get_with(&key!(num), &mut recorder)?;

		Ok(Some(recorder.drain().into_iter().map(|x| x.data).collect()))
	}
}

/// Block information necessary to build a CHT.
pub struct BlockInfo {
	/// The block's hash.
	pub hash: H256,
	/// The block's parent's hash.
	pub parent_hash: H256,
	/// The block's total difficulty.
	pub total_difficulty: U256,
}

/// Build an in-memory CHT from a closure which provides necessary information
/// about blocks. If the fetcher ever fails to provide the info, the CHT
/// will not be generated.
pub fn build<F>(cht_num: u64, mut fetcher: F) ->  Option<CHT<MemoryDB>>
	where F: FnMut(BlockId) -> Option<BlockInfo>
{
	let mut db = MemoryDB::new();

	// start from the last block by number and work backwards.
	let last_num = start_number(cht_num + 1) - 1;
	let mut id = BlockId::Number(last_num);

	let mut root = H256::default();

	{
		let mut t = TrieDBMut::new(&mut db, &mut root);
		for blk_num in (0..SIZE).map(|n| last_num - n) {
			let info = match fetcher(id) {
				Some(info) => info,
				None => return None,
			};

			id = BlockId::Hash(info.parent_hash);
			t.insert(&key!(blk_num), &val!(info.hash, info.total_difficulty))
				.expect("fresh in-memory database is infallible; qed");
		}
	}

	Some(CHT {
		db: db,
		root: root,
		number: cht_num,
	})
}

/// Compute a CHT root from an iterator of (hash, td) pairs. Fails if shorter than
/// SIZE items. The items are assumed to proceed sequentially from `start_number(cht_num)`.
/// Discards the trie's nodes.
pub fn compute_root<I>(cht_num: u64, iterable: I) -> Option<H256>
	where I: IntoIterator<Item=(H256, U256)>
{
	let mut v = Vec::with_capacity(SIZE as usize);
	let start_num = start_number(cht_num) as usize;

	for (i, (h, td)) in iterable.into_iter().take(SIZE as usize).enumerate() {
		v.push((key!(i + start_num).into_vec(), val!(h, td).into_vec()))
	}

	if v.len() == SIZE as usize {
		Some(::util::triehash::trie_root(v))
	} else {
		None
	}
}

/// Check a proof for a CHT.
/// Given a set of a trie nodes, a number to query, and a trie root,
/// verify the given trie branch and extract the canonical hash and total difficulty.
// TODO: better support for partially-checked queries.
pub fn check_proof(proof: &[Bytes], num: u64, root: H256) -> Option<(H256, U256)> {
	let mut db = MemoryDB::new();

	for node in proof { db.insert(&node[..]); }
	let res = match TrieDB::new(&db, &root) {
		Err(_) => return None,
		Ok(trie) => trie.get_with(&key!(num), |val: &[u8]| {
			let rlp = UntrustedRlp::new(val);
			rlp.val_at::<H256>(0)
				.and_then(|h| rlp.val_at::<U256>(1).map(|td| (h, td)))
				.ok()
		})
	};

	match res {
		Ok(Some(Some((hash, td)))) => Some((hash, td)),
		_ => None,
	}
}

/// Convert a block number to a CHT number.
/// Returns `None` for `block_num` == 0, `Some` otherwise.
pub fn block_to_cht_number(block_num: u64) -> Option<u64> {
	match block_num {
		0 => None,
		n => Some((n - 1) / SIZE),
	}
}

/// Get the starting block of a given CHT.
/// CHT 0 includes block 1...SIZE,
/// CHT 1 includes block SIZE + 1 ... 2*SIZE
/// More generally: CHT N includes block (1 + N*SIZE)...((N+1)*SIZE).
/// This is because the genesis hash is assumed to be known
/// and including it would be redundant.
pub fn start_number(cht_num: u64) -> u64 {
	(cht_num * SIZE) + 1
}

#[cfg(test)]
mod tests {
	#[test]
	fn size_is_lt_usize() {
		// to ensure safe casting on the target platform.
		assert!(::cht::SIZE < usize::max_value() as u64)
	}

	#[test]
	fn block_to_cht_number() {
		assert!(::cht::block_to_cht_number(0).is_none());
		assert_eq!(::cht::block_to_cht_number(1).unwrap(), 0);
		assert_eq!(::cht::block_to_cht_number(::cht::SIZE + 1).unwrap(), 1);
		assert_eq!(::cht::block_to_cht_number(::cht::SIZE).unwrap(), 0);
	}

	#[test]
	fn start_number() {
		assert_eq!(::cht::start_number(0), 1);
		assert_eq!(::cht::start_number(1), ::cht::SIZE + 1);
		assert_eq!(::cht::start_number(2), ::cht::SIZE * 2 + 1);
	}
}
Fix whitespace (#4299) * Fix whitespace. * Update copyright years/owner. * Push release only for tags. 2017-01-25 18:51:41 +01:00			`// Copyright 2015-2017 Parity Technologies (UK) Ltd.`
light: block status and CHT module 2016-12-13 20:13:16 +01:00			`// This file is part of Parity.`

			`// Parity is free software: you can redistribute it and/or modify`
			`// it under the terms of the GNU General Public License as published by`
			`// the Free Software Foundation, either version 3 of the License, or`
			`// (at your option) any later version.`

			`// Parity is distributed in the hope that it will be useful,`
			`// but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`// GNU General Public License for more details.`

			`//! Canonical hash trie definitions and helper functions.`
Include total difficulty in CHTs and hide implementation details from consumers (#4428) * CHT builder and prover * use CHT abstraction in provider * hide CHT internals from header chain * fix itertools conflict by updating all to 0.5 * cht proof checker, use it in on_demand 2017-02-06 17:21:35 +01:00			`//!`
			`//! Each CHT is a trie mapping block numbers to canonical hashes and total difficulty.`
			//! One is generated for every `SIZE` blocks, allowing us to discard those blocks in
Spelling fixes and link addition about LRU cache in the docs. 2017-04-05 12:43:47 +02:00			`//! favor of the trie root. When the "ancient" blocks need to be accessed, we simply`
Include total difficulty in CHTs and hide implementation details from consumers (#4428) * CHT builder and prover * use CHT abstraction in provider * hide CHT internals from header chain * fix itertools conflict by updating all to 0.5 * cht proof checker, use it in on_demand 2017-02-06 17:21:35 +01:00			`//! request an inclusion proof of a specific block number against the trie with the`
			`//! root has. A correct proof implies that the claimed block is identical to the one`
			`//! we discarded.`

			`use ethcore::ids::BlockId;`
			`use util::{Bytes, H256, U256, HashDB, MemoryDB};`
			`use util::trie::{self, TrieMut, TrieDBMut, Trie, TrieDB, Recorder};`
rlp deserialization refactor, 30% faster (#4901) * fixed naming of rlp modules * RlpStream cleanup * appending short rlp lists (0...55 bytes) is 25% faster * RlpStream does not use bytes module, nor trait Stream * removed unused code from rlp module * compiling ethcore-util with new rlp serialization * compiling parity with new rlp serialization * fixed compiling ethcore-light with new rlp serialization * fixed compiling ethsync with new rlp serialization * moved rlp benches and rlp tests * rlp deserialization refactor, 30% faster * removed redundant comment, print * fixed compiling parity with new rlp deserialization * removed redundant double-space * fixed failing test * updated rlp docs, removed unused traits * fixed rlp benchmarks * replace usage of WriteBytesExt with ByteOrder * removed unused, commented out code * fixed merge conflict 2017-03-22 14:41:46 +01:00			`use rlp::{RlpStream, UntrustedRlp};`
Include total difficulty in CHTs and hide implementation details from consumers (#4428) * CHT builder and prover * use CHT abstraction in provider * hide CHT internals from header chain * fix itertools conflict by updating all to 0.5 * cht proof checker, use it in on_demand 2017-02-06 17:21:35 +01:00
			`// encode a key.`
			`macro_rules! key {`
			`($num: expr) => { ::rlp::encode(&$num) }`
			`}`

			`macro_rules! val {`
			`($hash: expr, $td: expr) => {{`
			`let mut stream = RlpStream::new_list(2);`
			`stream.append(&$hash).append(&$td);`
			`stream.drain()`
			`}}`
			`}`
light: block status and CHT module 2016-12-13 20:13:16 +01:00
			`/// The size of each CHT.`
			`pub const SIZE: u64 = 2048;`

Include total difficulty in CHTs and hide implementation details from consumers (#4428) * CHT builder and prover * use CHT abstraction in provider * hide CHT internals from header chain * fix itertools conflict by updating all to 0.5 * cht proof checker, use it in on_demand 2017-02-06 17:21:35 +01:00			`/// A canonical hash trie. This is generic over any database it can query.`
			`/// See module docs for more details.`
			`#[derive(Debug, Clone)]`
			`pub struct CHT<DB: HashDB> {`
			`db: DB,`
			`root: H256, // the root of this CHT.`
			`number: u64,`
			`}`

			`impl<DB: HashDB> CHT<DB> {`
			`/// Query the root of the CHT.`
			`pub fn root(&self) -> H256 { self.root }`

			`/// Query the number of the CHT.`
			`pub fn number(&self) -> u64 { self.number }`

			`/// Generate an inclusion proof for the entry at a specific block.`
			/// Nodes before level `from_level` will be omitted.
			/// Returns an error on an incomplete trie, and `Ok(None)` on an unprovable request.
			`pub fn prove(&self, num: u64, from_level: u32) -> trie::Result<Option<Vec<Bytes>>> {`
			`if block_to_cht_number(num) != Some(self.number) { return Ok(None) }`

			`let mut recorder = Recorder::with_depth(from_level);`
			`let t = TrieDB::new(&self.db, &self.root)?;`
			`t.get_with(&key!(num), &mut recorder)?;`

			`Ok(Some(recorder.drain().into_iter().map(\|x\| x.data).collect()))`
			`}`
			`}`

			`/// Block information necessary to build a CHT.`
			`pub struct BlockInfo {`
			`/// The block's hash.`
			`pub hash: H256,`
			`/// The block's parent's hash.`
			`pub parent_hash: H256,`
			`/// The block's total difficulty.`
			`pub total_difficulty: U256,`
			`}`

			`/// Build an in-memory CHT from a closure which provides necessary information`
			`/// about blocks. If the fetcher ever fails to provide the info, the CHT`
			`/// will not be generated.`
			`pub fn build<F>(cht_num: u64, mut fetcher: F) -> Option<CHT<MemoryDB>>`
			`where F: FnMut(BlockId) -> Option<BlockInfo>`
			`{`
			`let mut db = MemoryDB::new();`

			`// start from the last block by number and work backwards.`
			`let last_num = start_number(cht_num + 1) - 1;`
			`let mut id = BlockId::Number(last_num);`

			`let mut root = H256::default();`

			`{`
			`let mut t = TrieDBMut::new(&mut db, &mut root);`
			`for blk_num in (0..SIZE).map(\|n\| last_num - n) {`
			`let info = match fetcher(id) {`
			`Some(info) => info,`
			`None => return None,`
			`};`

			`id = BlockId::Hash(info.parent_hash);`
			`t.insert(&key!(blk_num), &val!(info.hash, info.total_difficulty))`
			`.expect("fresh in-memory database is infallible; qed");`
			`}`
			`}`

			`Some(CHT {`
			`db: db,`
			`root: root,`
			`number: cht_num,`
			`})`
			`}`

			`/// Compute a CHT root from an iterator of (hash, td) pairs. Fails if shorter than`
			/// SIZE items. The items are assumed to proceed sequentially from `start_number(cht_num)`.
			`/// Discards the trie's nodes.`
			`pub fn compute_root<I>(cht_num: u64, iterable: I) -> Option<H256>`
			`where I: IntoIterator<Item=(H256, U256)>`
			`{`
			`let mut v = Vec::with_capacity(SIZE as usize);`
			`let start_num = start_number(cht_num) as usize;`

			`for (i, (h, td)) in iterable.into_iter().take(SIZE as usize).enumerate() {`
Upgrade `elastic-array` to 0.9.0 This is a huge change, which includes some changes to replace code that originally cloned to reuse allocations instead. The updated `elastic-array` crate renames its consuming `Vec`-conversion method to `into_vec`, which means that I can do a simple `sed -i 's/to_vec/into_vec/'` and then fix the compilation errors. This commit is probably a minor performance win and definitely a significant readability win. 2017-06-28 14:16:53 +02:00			`v.push((key!(i + start_num).into_vec(), val!(h, td).into_vec()))`
Include total difficulty in CHTs and hide implementation details from consumers (#4428) * CHT builder and prover * use CHT abstraction in provider * hide CHT internals from header chain * fix itertools conflict by updating all to 0.5 * cht proof checker, use it in on_demand 2017-02-06 17:21:35 +01:00			`}`

			`if v.len() == SIZE as usize {`
			`Some(::util::triehash::trie_root(v))`
			`} else {`
			`None`
			`}`
			`}`

			`/// Check a proof for a CHT.`
			`/// Given a set of a trie nodes, a number to query, and a trie root,`
			`/// verify the given trie branch and extract the canonical hash and total difficulty.`
			`// TODO: better support for partially-checked queries.`
			`pub fn check_proof(proof: &[Bytes], num: u64, root: H256) -> Option<(H256, U256)> {`
			`let mut db = MemoryDB::new();`

			`for node in proof { db.insert(&node[..]); }`
			`let res = match TrieDB::new(&db, &root) {`
			`Err(_) => return None,`
			`Ok(trie) => trie.get_with(&key!(num), \|val: &[u8]\| {`
			`let rlp = UntrustedRlp::new(val);`
			`rlp.val_at::<H256>(0)`
			`.and_then(\|h\| rlp.val_at::<U256>(1).map(\|td\| (h, td)))`
			`.ok()`
			`})`
			`};`

			`match res {`
			`Ok(Some(Some((hash, td)))) => Some((hash, td)),`
			`_ => None,`
			`}`
			`}`

light: block status and CHT module 2016-12-13 20:13:16 +01:00			`/// Convert a block number to a CHT number.`
tests + documentation 2017-01-16 17:42:39 +01:00			/// Returns `None` for `block_num` == 0, `Some` otherwise.
			`pub fn block_to_cht_number(block_num: u64) -> Option<u64> {`
			`match block_num {`
			`0 => None,`
			`n => Some((n - 1) / SIZE),`
			`}`
light: block status and CHT module 2016-12-13 20:13:16 +01:00			`}`
move cht module up a level 2017-01-16 16:55:23 +01:00
			`/// Get the starting block of a given CHT.`
tests + documentation 2017-01-16 17:42:39 +01:00			`/// CHT 0 includes block 1...SIZE,`
			`/// CHT 1 includes block SIZE + 1 ... 2*SIZE`
			`/// More generally: CHT N includes block (1 + NSIZE)...((N+1)SIZE).`
			`/// This is because the genesis hash is assumed to be known`
			`/// and including it would be redundant.`
move cht module up a level 2017-01-16 16:55:23 +01:00			`pub fn start_number(cht_num: u64) -> u64 {`
			`(cht_num * SIZE) + 1`
			`}`
tests + documentation 2017-01-16 17:42:39 +01:00
			`#[cfg(test)]`
			`mod tests {`
Include total difficulty in CHTs and hide implementation details from consumers (#4428) * CHT builder and prover * use CHT abstraction in provider * hide CHT internals from header chain * fix itertools conflict by updating all to 0.5 * cht proof checker, use it in on_demand 2017-02-06 17:21:35 +01:00			`#[test]`
			`fn size_is_lt_usize() {`
			`// to ensure safe casting on the target platform.`
			`assert!(::cht::SIZE < usize::max_value() as u64)`
			`}`

tests + documentation 2017-01-16 17:42:39 +01:00			`#[test]`
			`fn block_to_cht_number() {`
			`assert!(::cht::block_to_cht_number(0).is_none());`
			`assert_eq!(::cht::block_to_cht_number(1).unwrap(), 0);`
			`assert_eq!(::cht::block_to_cht_number(::cht::SIZE + 1).unwrap(), 1);`
			`assert_eq!(::cht::block_to_cht_number(::cht::SIZE).unwrap(), 0);`
			`}`

			`#[test]`
			`fn start_number() {`
			`assert_eq!(::cht::start_number(0), 1);`
			`assert_eq!(::cht::start_number(1), ::cht::SIZE + 1);`
			`assert_eq!(::cht::start_number(2), ::cht::SIZE * 2 + 1);`
			`}`
			`}`