rust-bitcoin-unsafe-fast/src/blockdata/block.rs

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// Rust Bitcoin Library
// Written in 2014 by
// Andrew Poelstra <apoelstra@wpsoftware.net>
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//
// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to
// the public domain worldwide. This software is distributed without
// any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication
// along with this software.
// If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.
//
//! Bitcoin blocks.
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//!
//! A block is a bundle of transactions with a proof-of-work attached,
//! which commits to an earlier block to form the blockchain. This
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//! module describes structures and functions needed to describe
//! these blocks and the blockchain.
//!
use crate::prelude::*;
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use core::fmt;
use crate::util;
use crate::util::Error::{BlockBadTarget, BlockBadProofOfWork};
use crate::util::hash::bitcoin_merkle_root;
use crate::hashes::{Hash, HashEngine};
use crate::hash_types::{Wtxid, BlockHash, TxMerkleNode, WitnessMerkleNode, WitnessCommitment};
use crate::util::uint::Uint256;
use crate::consensus::encode::Encodable;
use crate::network::constants::Network;
use crate::blockdata::transaction::Transaction;
use crate::blockdata::constants::{max_target, WITNESS_SCALE_FACTOR};
use crate::blockdata::script;
use crate::VarInt;
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/// A block header, which contains all the block's information except
/// the actual transactions
///
/// # Bitcoin Core References
///
/// * [CBlockHeader definition](https://github.com/bitcoin/bitcoin/blob/345457b542b6a980ccfbc868af0970a6f91d1b82/src/primitives/block.h#L20)
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#[derive(Copy, PartialEq, Eq, Clone, Debug)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
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pub struct BlockHeader {
/// Originally protocol version, but repurposed for soft-fork signaling.
///
/// ### Relevant BIPs
///
/// * [BIP9 - Version bits with timeout and delay](https://github.com/bitcoin/bips/blob/master/bip-0009.mediawiki) (current usage)
/// * [BIP34 - Block v2, Height in Coinbase](https://github.com/bitcoin/bips/blob/master/bip-0034.mediawiki)
pub version: i32,
/// Reference to the previous block in the chain.
pub prev_blockhash: BlockHash,
/// The root hash of the merkle tree of transactions in the block.
pub merkle_root: TxMerkleNode,
/// The timestamp of the block, as claimed by the miner.
pub time: u32,
/// The target value below which the blockhash must lie, encoded as a
/// a float (with well-defined rounding, of course).
pub bits: u32,
/// The nonce, selected to obtain a low enough blockhash.
pub nonce: u32,
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}
impl_consensus_encoding!(BlockHeader, version, prev_blockhash, merkle_root, time, bits, nonce);
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impl BlockHeader {
/// Returns the block hash.
pub fn block_hash(&self) -> BlockHash {
let mut engine = BlockHash::engine();
self.consensus_encode(&mut engine).expect("engines don't error");
BlockHash::from_engine(engine)
}
/// Computes the target [0, T] that a blockhash must land in to be valid.
pub fn target(&self) -> Uint256 {
Self::u256_from_compact_target(self.bits)
}
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/// Computes the target value in [`Uint256`] format, from a compact representation.
///
/// [`Uint256`]: ../../util/uint/struct.Uint256.html
///
/// ```
/// use bitcoin::blockdata::block::BlockHeader;
///
/// assert_eq!(0x1d00ffff,
/// BlockHeader::compact_target_from_u256(
/// &BlockHeader::u256_from_compact_target(0x1d00ffff)
/// )
/// );
/// ```
pub fn u256_from_compact_target(bits: u32) -> Uint256 {
// This is a floating-point "compact" encoding originally used by
// OpenSSL, which satoshi put into consensus code, so we're stuck
// with it. The exponent needs to have 3 subtracted from it, hence
// this goofy decoding code:
let (mant, expt) = {
let unshifted_expt = bits >> 24;
if unshifted_expt <= 3 {
((bits & 0xFFFFFF) >> (8 * (3 - unshifted_expt as usize)), 0)
} else {
(bits & 0xFFFFFF, 8 * ((bits >> 24) - 3))
}
};
// The mantissa is signed but may not be negative
if mant > 0x7FFFFF {
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Default::default()
} else {
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Uint256::from_u64(mant as u64).unwrap() << (expt as usize)
}
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}
/// Computes the target value in float format from Uint256 format.
pub fn compact_target_from_u256(value: &Uint256) -> u32 {
let mut size = (value.bits() + 7) / 8;
let mut compact = if size <= 3 {
(value.low_u64() << (8 * (3 - size))) as u32
} else {
let bn = *value >> (8 * (size - 3));
bn.low_u32()
};
if (compact & 0x00800000) != 0 {
compact >>= 8;
size += 1;
}
compact | (size << 24) as u32
}
/// Computes the popular "difficulty" measure for mining.
pub fn difficulty(&self, network: Network) -> u64 {
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(max_target(network) / self.target()).low_u64()
}
/// Checks that the proof-of-work for the block is valid, returning the block hash.
pub fn validate_pow(&self, required_target: &Uint256) -> Result<BlockHash, util::Error> {
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let target = &self.target();
if target != required_target {
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return Err(BlockBadTarget);
}
let block_hash = self.block_hash();
let mut ret = [0u64; 4];
util::endian::bytes_to_u64_slice_le(block_hash.as_inner(), &mut ret);
let hash = &Uint256(ret);
if hash <= target { Ok(block_hash) } else { Err(BlockBadProofOfWork) }
}
/// Returns the total work of the block.
pub fn work(&self) -> Uint256 {
// 2**256 / (target + 1) == ~target / (target+1) + 1 (eqn shamelessly stolen from bitcoind)
let mut ret = !self.target();
let mut ret1 = self.target();
ret1.increment();
ret = ret / ret1;
ret.increment();
ret
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}
}
/// A Bitcoin block, which is a collection of transactions with an attached
/// proof of work.
#[derive(PartialEq, Eq, Clone, Debug)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct Block {
/// The block header
pub header: BlockHeader,
/// List of transactions contained in the block
pub txdata: Vec<Transaction>
}
impl_consensus_encoding!(Block, header, txdata);
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impl Block {
/// Returns the block hash.
pub fn block_hash(&self) -> BlockHash {
self.header.block_hash()
}
/// check if merkle root of header matches merkle root of the transaction list
pub fn check_merkle_root(&self) -> bool {
match self.compute_merkle_root() {
Some(merkle_root) => self.header.merkle_root == merkle_root,
None => false,
}
}
/// Checks if witness commitment in coinbase matches the transaction list.
pub fn check_witness_commitment(&self) -> bool {
const MAGIC: [u8; 6] = [0x6a, 0x24, 0xaa, 0x21, 0xa9, 0xed];
// Witness commitment is optional if there are no transactions using SegWit in the block.
if self.txdata.iter().all(|t| t.input.iter().all(|i| i.witness.is_empty())) {
return true;
}
if self.txdata.is_empty() {
return false;
}
let coinbase = &self.txdata[0];
if !coinbase.is_coin_base() {
return false;
}
// Commitment is in the last output that starts with magic bytes.
if let Some(pos) = coinbase.output.iter()
.rposition(|o| o.script_pubkey.len () >= 38 && o.script_pubkey[0..6] == MAGIC)
{
let commitment = WitnessCommitment::from_slice(&coinbase.output[pos].script_pubkey.as_bytes()[6..38]).unwrap();
// Witness reserved value is in coinbase input witness.
let witness_vec: Vec<_> = coinbase.input[0].witness.iter().collect();
if witness_vec.len() == 1 && witness_vec[0].len() == 32 {
if let Some(witness_root) = self.witness_root() {
return commitment == Self::compute_witness_commitment(&witness_root, witness_vec[0]);
}
}
}
false
}
/// Computes the transaction merkle root.
pub fn compute_merkle_root(&self) -> Option<TxMerkleNode> {
let hashes = self.txdata.iter().map(|obj| obj.txid().as_hash());
bitcoin_merkle_root(hashes).map(|h| h.into())
}
/// Calculate the transaction merkle root.
#[deprecated(since = "0.28.0", note = "Please use `block::compute_merkle_root` instead.")]
pub fn merkle_root(&self) -> Option<TxMerkleNode> {
self.compute_merkle_root()
}
/// Computes the witness commitment for the block's transaction list.
pub fn compute_witness_commitment(witness_root: &WitnessMerkleNode, witness_reserved_value: &[u8]) -> WitnessCommitment {
let mut encoder = WitnessCommitment::engine();
witness_root.consensus_encode(&mut encoder).expect("engines don't error");
encoder.input(witness_reserved_value);
WitnessCommitment::from_engine(encoder)
}
/// Computes the merkle root of transactions hashed for witness.
pub fn witness_root(&self) -> Option<WitnessMerkleNode> {
let hashes = self.txdata.iter().enumerate().map(|(i, t)| {
if i == 0 {
// Replace the first hash with zeroes.
Wtxid::default().as_hash()
} else {
t.wtxid().as_hash()
}
});
bitcoin_merkle_root(hashes).map(|h| h.into())
}
/// base_size == size of header + size of encoded transaction count.
fn base_size(&self) -> usize {
80 + VarInt(self.txdata.len() as u64).len()
}
/// Returns the size of the block.
#[deprecated(since = "0.28.0", note = "Please use `block::size` instead.")]
pub fn get_size(&self) -> usize {
self.size()
}
/// Returns the size of the block.
///
/// size == size of header + size of encoded transaction count + total size of transactions.
pub fn size(&self) -> usize {
let txs_size: usize = self.txdata.iter().map(Transaction::size).sum();
self.base_size() + txs_size
}
/// Returns the strippedsize of the block.
#[deprecated(since = "0.28.0", note = "Please use `transaction::strippedsize` instead.")]
pub fn get_strippedsize(&self) -> usize {
self.strippedsize()
}
/// Returns the strippedsize of the block.
pub fn strippedsize(&self) -> usize {
let txs_size: usize = self.txdata.iter().map(Transaction::strippedsize).sum();
self.base_size() + txs_size
}
/// Returns the weight of the block.
#[deprecated(since = "0.28.0", note = "Please use `transaction::weight` instead.")]
pub fn get_weight(&self) -> usize {
self.weight()
}
/// Returns the weight of the block.
pub fn weight(&self) -> usize {
let base_weight = WITNESS_SCALE_FACTOR * self.base_size();
let txs_weight: usize = self.txdata.iter().map(Transaction::weight).sum();
base_weight + txs_weight
}
/// Returns the coinbase transaction, if one is present.
pub fn coinbase(&self) -> Option<&Transaction> {
self.txdata.first()
}
/// Returns the block height, as encoded in the coinbase transaction according to BIP34.
pub fn bip34_block_height(&self) -> Result<u64, Bip34Error> {
// Citing the spec:
// Add height as the first item in the coinbase transaction's scriptSig,
// and increase block version to 2. The format of the height is
// "serialized CScript" -- first byte is number of bytes in the number
// (will be 0x03 on main net for the next 150 or so years with 2^23-1
// blocks), following bytes are little-endian representation of the
// number (including a sign bit). Height is the height of the mined
// block in the block chain, where the genesis block is height zero (0).
if self.header.version < 2 {
return Err(Bip34Error::Unsupported);
}
let cb = self.coinbase().ok_or(Bip34Error::NotPresent)?;
let input = cb.input.first().ok_or(Bip34Error::NotPresent)?;
let push = input.script_sig.instructions_minimal().next().ok_or(Bip34Error::NotPresent)?;
match push.map_err(|_| Bip34Error::NotPresent)? {
script::Instruction::PushBytes(b) if b.len() <= 8 => {
// Expand the push to exactly 8 bytes (LE).
let mut full = [0; 8];
full[0..b.len()].copy_from_slice(b);
Ok(util::endian::slice_to_u64_le(&full))
}
script::Instruction::PushBytes(b) if b.len() > 8 => {
Err(Bip34Error::UnexpectedPush(b.to_vec()))
}
_ => Err(Bip34Error::NotPresent),
}
}
}
/// An error when looking up a BIP34 block height.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Bip34Error {
/// The block does not support BIP34 yet.
Unsupported,
/// No push was present where the BIP34 push was expected.
NotPresent,
/// The BIP34 push was larger than 8 bytes.
UnexpectedPush(Vec<u8>),
}
impl fmt::Display for Bip34Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Bip34Error::Unsupported => write!(f, "block doesn't support BIP34"),
Bip34Error::NotPresent => write!(f, "BIP34 push not present in block's coinbase"),
Bip34Error::UnexpectedPush(ref p) => {
write!(f, "unexpected byte push of > 8 bytes: {:?}", p)
}
}
}
}
#[cfg(feature = "std")]
#[cfg_attr(docsrs, doc(cfg(feature = "std")))]
impl std::error::Error for Bip34Error {
fn source(&self) -> Option<&(dyn std::error::Error + 'static)> {
use self::Bip34Error::*;
match self {
Unsupported | NotPresent | UnexpectedPush(_) => None,
}
}
}
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#[cfg(test)]
mod tests {
use crate::hashes::hex::FromHex;
use crate::blockdata::block::{Block, BlockHeader};
use crate::consensus::encode::{deserialize, serialize};
use crate::util::uint::Uint256;
use crate::util::Error::{BlockBadTarget, BlockBadProofOfWork};
use crate::network::constants::Network;
#[test]
fn test_coinbase_and_bip34() {
// testnet block 100,000
let block_hex = "0200000035ab154183570282ce9afc0b494c9fc6a3cfea05aa8c1add2ecc56490000000038ba3d78e4500a5a7570dbe61960398add4410d278b21cd9708e6d9743f374d544fc055227f1001c29c1ea3b0101000000010000000000000000000000000000000000000000000000000000000000000000ffffffff3703a08601000427f1001c046a510100522cfabe6d6d0000000000000000000068692066726f6d20706f6f6c7365727665726aac1eeeed88ffffffff0100f2052a010000001976a914912e2b234f941f30b18afbb4fa46171214bf66c888ac00000000";
let block: Block = deserialize(&Vec::<u8>::from_hex(block_hex).unwrap()).unwrap();
let cb_txid = "d574f343976d8e70d91cb278d21044dd8a396019e6db70755a0a50e4783dba38";
assert_eq!(block.coinbase().unwrap().txid().to_string(), cb_txid);
assert_eq!(block.bip34_block_height(), Ok(100_000));
// block with 9-byte bip34 push
let bad_hex = "0200000035ab154183570282ce9afc0b494c9fc6a3cfea05aa8c1add2ecc56490000000038ba3d78e4500a5a7570dbe61960398add4410d278b21cd9708e6d9743f374d544fc055227f1001c29c1ea3b0101000000010000000000000000000000000000000000000000000000000000000000000000ffffffff3d09a08601112233445566000427f1001c046a510100522cfabe6d6d0000000000000000000068692066726f6d20706f6f6c7365727665726aac1eeeed88ffffffff0100f2052a010000001976a914912e2b234f941f30b18afbb4fa46171214bf66c888ac00000000";
let bad: Block = deserialize(&Vec::<u8>::from_hex(bad_hex).unwrap()).unwrap();
let push = Vec::<u8>::from_hex("a08601112233445566").unwrap();
assert_eq!(bad.bip34_block_height(), Err(super::Bip34Error::UnexpectedPush(push)));
}
#[test]
fn block_test() {
// Mainnet block 00000000b0c5a240b2a61d2e75692224efd4cbecdf6eaf4cc2cf477ca7c270e7
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let some_block = Vec::from_hex("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").unwrap();
let cutoff_block = Vec::from_hex("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").unwrap();
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let prevhash = Vec::from_hex("4ddccd549d28f385ab457e98d1b11ce80bfea2c5ab93015ade4973e400000000").unwrap();
let merkle = Vec::from_hex("bf4473e53794beae34e64fccc471dace6ae544180816f89591894e0f417a914c").unwrap();
let work = Uint256([0x100010001u64, 0, 0, 0]);
let decode: Result<Block, _> = deserialize(&some_block);
let bad_decode: Result<Block, _> = deserialize(&cutoff_block);
assert!(decode.is_ok());
assert!(bad_decode.is_err());
let real_decode = decode.unwrap();
assert_eq!(real_decode.header.version, 1);
assert_eq!(serialize(&real_decode.header.prev_blockhash), prevhash);
assert_eq!(real_decode.header.merkle_root, real_decode.compute_merkle_root().unwrap());
assert_eq!(serialize(&real_decode.header.merkle_root), merkle);
assert_eq!(real_decode.header.time, 1231965655);
assert_eq!(real_decode.header.bits, 486604799);
assert_eq!(real_decode.header.nonce, 2067413810);
assert_eq!(real_decode.header.work(), work);
assert_eq!(real_decode.header.validate_pow(&real_decode.header.target()).unwrap(), real_decode.block_hash());
assert_eq!(real_decode.header.difficulty(Network::Bitcoin), 1);
// [test] TODO: check the transaction data
assert_eq!(real_decode.size(), some_block.len());
assert_eq!(real_decode.strippedsize(), some_block.len());
assert_eq!(real_decode.weight(), some_block.len() * 4);
// should be also ok for a non-witness block as commitment is optional in that case
assert!(real_decode.check_witness_commitment());
assert_eq!(serialize(&real_decode), some_block);
}
// Check testnet block 000000000000045e0b1660b6445b5e5c5ab63c9a4f956be7e1e69be04fa4497b
#[test]
fn segwit_block_test() {
let segwit_block = include_bytes!("../../test_data/testnet_block_000000000000045e0b1660b6445b5e5c5ab63c9a4f956be7e1e69be04fa4497b.raw").to_vec();
let decode: Result<Block, _> = deserialize(&segwit_block);
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let prevhash = Vec::from_hex("2aa2f2ca794ccbd40c16e2f3333f6b8b683f9e7179b2c4d74906000000000000").unwrap();
let merkle = Vec::from_hex("10bc26e70a2f672ad420a6153dd0c28b40a6002c55531bfc99bf8994a8e8f67e").unwrap();
let work = Uint256([0x257c3becdacc64u64, 0, 0, 0]);
assert!(decode.is_ok());
let real_decode = decode.unwrap();
assert_eq!(real_decode.header.version, 0x20000000); // VERSIONBITS but no bits set
assert_eq!(serialize(&real_decode.header.prev_blockhash), prevhash);
assert_eq!(serialize(&real_decode.header.merkle_root), merkle);
assert_eq!(real_decode.header.merkle_root, real_decode.compute_merkle_root().unwrap());
assert_eq!(real_decode.header.time, 1472004949);
assert_eq!(real_decode.header.bits, 0x1a06d450);
assert_eq!(real_decode.header.nonce, 1879759182);
assert_eq!(real_decode.header.work(), work);
assert_eq!(real_decode.header.validate_pow(&real_decode.header.target()).unwrap(), real_decode.block_hash());
assert_eq!(real_decode.header.difficulty(Network::Testnet), 2456598);
// [test] TODO: check the transaction data
assert_eq!(real_decode.size(), segwit_block.len());
assert_eq!(real_decode.strippedsize(), 4283);
assert_eq!(real_decode.weight(), 17168);
assert!(real_decode.check_witness_commitment());
assert_eq!(serialize(&real_decode), segwit_block);
}
#[test]
fn block_version_test() {
let block = Vec::from_hex("ffffff7f0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000").unwrap();
let decode: Result<Block, _> = deserialize(&block);
assert!(decode.is_ok());
let real_decode = decode.unwrap();
assert_eq!(real_decode.header.version, 2147483647);
let block2 = Vec::from_hex("000000800000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000").unwrap();
let decode2: Result<Block, _> = deserialize(&block2);
assert!(decode2.is_ok());
let real_decode2 = decode2.unwrap();
assert_eq!(real_decode2.header.version, -2147483648);
}
#[test]
fn validate_pow_test() {
let some_header = Vec::from_hex("010000004ddccd549d28f385ab457e98d1b11ce80bfea2c5ab93015ade4973e400000000bf4473e53794beae34e64fccc471dace6ae544180816f89591894e0f417a914cd74d6e49ffff001d323b3a7b").unwrap();
let some_header: BlockHeader = deserialize(&some_header).expect("Can't deserialize correct block header");
assert_eq!(some_header.validate_pow(&some_header.target()).unwrap(), some_header.block_hash());
// test with zero target
match some_header.validate_pow(&Uint256::default()) {
Err(BlockBadTarget) => (),
_ => assert!(false)
}
// test with modified header
let mut invalid_header: BlockHeader = some_header.clone();
invalid_header.version = invalid_header.version + 1;
match invalid_header.validate_pow(&invalid_header.target()) {
Err(BlockBadProofOfWork) => (),
_ => assert!(false)
}
}
#[test]
fn compact_roundrtip_test() {
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let some_header = Vec::from_hex("010000004ddccd549d28f385ab457e98d1b11ce80bfea2c5ab93015ade4973e400000000bf4473e53794beae34e64fccc471dace6ae544180816f89591894e0f417a914cd74d6e49ffff001d323b3a7b").unwrap();
let header: BlockHeader = deserialize(&some_header).expect("Can't deserialize correct block header");
assert_eq!(header.bits, BlockHeader::compact_target_from_u256(&header.target()));
}
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}
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#[cfg(all(test, feature = "unstable"))]
mod benches {
use super::Block;
use crate::EmptyWrite;
use crate::consensus::{deserialize, Encodable};
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use test::{black_box, Bencher};
use crate::network::stream_reader::StreamReader;
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#[bench]
#[allow(deprecated)]
pub fn bench_stream_reader(bh: &mut Bencher) {
let big_block = include_bytes!("../../test_data/mainnet_block_000000000000000000000c835b2adcaedc20fdf6ee440009c249452c726dafae.raw");
assert_eq!(big_block.len(), 1_381_836);
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let big_block = black_box(big_block);
bh.iter(|| {
let mut reader = StreamReader::new(&big_block[..], None);
let block: Block = reader.read_next().unwrap();
black_box(&block);
});
}
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#[bench]
pub fn bench_block_serialize(bh: &mut Bencher) {
let raw_block = include_bytes!("../../test_data/mainnet_block_000000000000000000000c835b2adcaedc20fdf6ee440009c249452c726dafae.raw");
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let block: Block = deserialize(&raw_block[..]).unwrap();
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let mut data = Vec::with_capacity(raw_block.len());
bh.iter(|| {
let result = block.consensus_encode(&mut data);
black_box(&result);
data.clear();
});
}
#[bench]
pub fn bench_block_serialize_logic(bh: &mut Bencher) {
let raw_block = include_bytes!("../../test_data/mainnet_block_000000000000000000000c835b2adcaedc20fdf6ee440009c249452c726dafae.raw");
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let block: Block = deserialize(&raw_block[..]).unwrap();
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bh.iter(|| {
let size = block.consensus_encode(&mut EmptyWrite);
black_box(&size);
});
}
#[bench]
pub fn bench_block_deserialize(bh: &mut Bencher) {
let raw_block = include_bytes!("../../test_data/mainnet_block_000000000000000000000c835b2adcaedc20fdf6ee440009c249452c726dafae.raw");
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bh.iter(|| {
let block: Block = deserialize(&raw_block[..]).unwrap();
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black_box(&block);
});
}
}