// Copyright 2018 The Grin Developers
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
use self::chain::types::NoopAdapter;
use self::chain::Chain;
use self::core::core::hash::Hashed;
use self::core::core::verifier_cache::LruVerifierCache;
use self::core::core::{Block, BlockHeader, OutputIdentifier, Transaction};
use self::core::genesis;
use self::core::global::ChainTypes;
use self::core::libtx::{self, build, reward};
use self::core::pow::Difficulty;
use self::core::{consensus, global, pow};
use self::keychain::{ExtKeychain, ExtKeychainPath, Keychain};
use self::util::{Mutex, RwLock, StopState};
use chrono::Duration;
use grin_chain as chain;
use grin_core as core;
use grin_keychain as keychain;
use grin_store as store;
use grin_util as util;
use std::fs;
use std::sync::Arc;
fn clean_output_dir(dir_name: &str) {
let _ = fs::remove_dir_all(dir_name);
}
fn setup(dir_name: &str, genesis: Block) -> Chain {
util::init_test_logger();
clean_output_dir(dir_name);
let verifier_cache = Arc::new(RwLock::new(LruVerifierCache::new()));
let db_env = Arc::new(store::new_env(dir_name.to_string()));
chain::Chain::init(
dir_name.to_string(),
db_env,
Arc::new(NoopAdapter {}),
genesis,
pow::verify_size,
verifier_cache,
false,
Arc::new(Mutex::new(StopState::new())),
)
.unwrap()
}
#[test]
fn mine_empty_chain() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
let keychain = keychain::ExtKeychain::from_random_seed(false).unwrap();
mine_some_on_top(".grin", pow::mine_genesis_block().unwrap(), &keychain);
}
#[test]
fn mine_genesis_reward_chain() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
// add coinbase data from the dev genesis block
let mut genesis = genesis::genesis_dev();
let keychain = keychain::ExtKeychain::from_random_seed(false).unwrap();
let key_id = keychain::ExtKeychain::derive_key_id(0, 1, 0, 0, 0);
let reward = reward::output(&keychain, &key_id, 0).unwrap();
genesis = genesis.with_reward(reward.0, reward.1);
{
// setup a tmp chain to hande tx hashsets
let tmp_chain = setup(".grin.tmp", pow::mine_genesis_block().unwrap());
tmp_chain.set_txhashset_roots(&mut genesis).unwrap();
genesis.header.output_mmr_size = 1;
genesis.header.kernel_mmr_size = 1;
}
// get a valid PoW
pow::pow_size(
&mut genesis.header,
Difficulty::unit(),
global::proofsize(),
global::min_edge_bits(),
)
.unwrap();
mine_some_on_top(".grin.genesis", genesis, &keychain);
}
fn mine_some_on_top<K>(dir: &str, genesis: Block, keychain: &K)
where
K: Keychain,
{
let chain = setup(dir, genesis);
for n in 1..4 {
let prev = chain.head_header().unwrap();
let next_header_info = consensus::next_difficulty(1, chain.difficulty_iter().unwrap());
let pk = ExtKeychainPath::new(1, n as u32, 0, 0, 0).to_identifier();
let reward = libtx::reward::output(keychain, &pk, 0).unwrap();
let mut b =
core::core::Block::new(&prev, vec![], next_header_info.clone().difficulty, reward)
.unwrap();
b.header.timestamp = prev.timestamp + Duration::seconds(60);
b.header.pow.secondary_scaling = next_header_info.secondary_scaling;
chain.set_txhashset_roots(&mut b).unwrap();
let edge_bits = if n == 2 {
global::min_edge_bits() + 1
} else {
global::min_edge_bits()
};
b.header.pow.proof.edge_bits = edge_bits;
pow::pow_size(
&mut b.header,
next_header_info.difficulty,
global::proofsize(),
edge_bits,
)
.unwrap();
b.header.pow.proof.edge_bits = edge_bits;
let bhash = b.hash();
chain.process_block(b, chain::Options::MINE).unwrap();
// checking our new head
let head = chain.head().unwrap();
assert_eq!(head.height, n);
assert_eq!(head.last_block_h, bhash);
// now check the block_header of the head
let header = chain.head_header().unwrap();
assert_eq!(header.height, n);
assert_eq!(header.hash(), bhash);
// now check the block itself
let block = chain.get_block(&header.hash()).unwrap();
assert_eq!(block.header.height, n);
assert_eq!(block.hash(), bhash);
assert_eq!(block.outputs().len(), 1);
// now check the block height index
let header_by_height = chain.get_header_by_height(n).unwrap();
assert_eq!(header_by_height.hash(), bhash);
chain.validate(false).unwrap();
}
}
#[test]
fn mine_forks() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
let chain = setup(".grin2", pow::mine_genesis_block().unwrap());
let kc = ExtKeychain::from_random_seed(false).unwrap();
// add a first block to not fork genesis
let prev = chain.head_header().unwrap();
let b = prepare_block(&kc, &prev, &chain, 2);
chain.process_block(b, chain::Options::SKIP_POW).unwrap();
// mine and add a few blocks
for n in 1..4 {
// first block for one branch
let prev = chain.head_header().unwrap();
let b1 = prepare_block(&kc, &prev, &chain, 3 * n);
// 2nd block with higher difficulty for other branch
let b2 = prepare_block(&kc, &prev, &chain, 3 * n + 1);
// process the first block to extend the chain
let bhash = b1.hash();
chain.process_block(b1, chain::Options::SKIP_POW).unwrap();
// checking our new head
let head = chain.head().unwrap();
assert_eq!(head.height, (n + 1) as u64);
assert_eq!(head.last_block_h, bhash);
assert_eq!(head.prev_block_h, prev.hash());
// process the 2nd block to build a fork with more work
let bhash = b2.hash();
chain.process_block(b2, chain::Options::SKIP_POW).unwrap();
// checking head switch
let head = chain.head().unwrap();
assert_eq!(head.height, (n + 1) as u64);
assert_eq!(head.last_block_h, bhash);
assert_eq!(head.prev_block_h, prev.hash());
}
}
#[test]
fn mine_losing_fork() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
let kc = ExtKeychain::from_random_seed(false).unwrap();
let chain = setup(".grin3", pow::mine_genesis_block().unwrap());
// add a first block we'll be forking from
let prev = chain.head_header().unwrap();
let b1 = prepare_block(&kc, &prev, &chain, 2);
let b1head = b1.header.clone();
chain.process_block(b1, chain::Options::SKIP_POW).unwrap();
// prepare the 2 successor, sibling blocks, one with lower diff
let b2 = prepare_block(&kc, &b1head, &chain, 4);
let b2head = b2.header.clone();
let bfork = prepare_block(&kc, &b1head, &chain, 3);
// add higher difficulty first, prepare its successor, then fork
// with lower diff
chain.process_block(b2, chain::Options::SKIP_POW).unwrap();
assert_eq!(chain.head_header().unwrap().hash(), b2head.hash());
let b3 = prepare_block(&kc, &b2head, &chain, 5);
chain
.process_block(bfork, chain::Options::SKIP_POW)
.unwrap();
// adding the successor
let b3head = b3.header.clone();
chain.process_block(b3, chain::Options::SKIP_POW).unwrap();
assert_eq!(chain.head_header().unwrap().hash(), b3head.hash());
}
#[test]
fn longer_fork() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
let kc = ExtKeychain::from_random_seed(false).unwrap();
// to make it easier to compute the txhashset roots in the test, we
// prepare 2 chains, the 2nd will be have the forked blocks we can
// then send back on the 1st
let genesis = pow::mine_genesis_block().unwrap();
let chain = setup(".grin4", genesis.clone());
// add blocks to both chains, 20 on the main one, only the first 5
// for the forked chain
let mut prev = chain.head_header().unwrap();
for n in 0..10 {
let b = prepare_block(&kc, &prev, &chain, 2 * n + 2);
prev = b.header.clone();
chain.process_block(b, chain::Options::SKIP_POW).unwrap();
}
let forked_block = chain.get_header_by_height(5).unwrap();
let head = chain.head_header().unwrap();
assert_eq!(head.height, 10);
assert_eq!(head.hash(), prev.hash());
let mut prev = forked_block;
for n in 0..7 {
let b = prepare_fork_block(&kc, &prev, &chain, 2 * n + 11);
prev = b.header.clone();
chain.process_block(b, chain::Options::SKIP_POW).unwrap();
}
let new_head = prev;
// After all this the chain should have switched to the fork.
let head = chain.head_header().unwrap();
assert_eq!(head.height, 12);
assert_eq!(head.hash(), new_head.hash());
}
#[test]
fn spend_in_fork_and_compact() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
util::init_test_logger();
let chain = setup(".grin6", pow::mine_genesis_block().unwrap());
let prev = chain.head_header().unwrap();
let kc = ExtKeychain::from_random_seed(false).unwrap();
let mut fork_head = prev;
// mine the first block and keep track of the block_hash
// so we can spend the coinbase later
let b = prepare_block(&kc, &fork_head, &chain, 2);
let out_id = OutputIdentifier::from_output(&b.outputs()[0]);
assert!(out_id.features.is_coinbase());
fork_head = b.header.clone();
chain
.process_block(b.clone(), chain::Options::SKIP_POW)
.unwrap();
// now mine three further blocks
for n in 3..6 {
let b = prepare_block(&kc, &fork_head, &chain, n);
fork_head = b.header.clone();
chain.process_block(b, chain::Options::SKIP_POW).unwrap();
}
// Check the height of the "fork block".
assert_eq!(fork_head.height, 4);
let key_id2 = ExtKeychainPath::new(1, 2, 0, 0, 0).to_identifier();
let key_id30 = ExtKeychainPath::new(1, 30, 0, 0, 0).to_identifier();
let key_id31 = ExtKeychainPath::new(1, 31, 0, 0, 0).to_identifier();
let tx1 = build::transaction(
vec![
build::coinbase_input(consensus::REWARD, key_id2.clone()),
build::output(consensus::REWARD - 20000, key_id30.clone()),
build::with_fee(20000),
],
&kc,
)
.unwrap();
let next = prepare_block_tx(&kc, &fork_head, &chain, 7, vec![&tx1]);
let prev_main = next.header.clone();
chain
.process_block(next.clone(), chain::Options::SKIP_POW)
.unwrap();
chain.validate(false).unwrap();
let tx2 = build::transaction(
vec![
build::input(consensus::REWARD - 20000, key_id30.clone()),
build::output(consensus::REWARD - 40000, key_id31.clone()),
build::with_fee(20000),
],
&kc,
)
.unwrap();
let next = prepare_block_tx(&kc, &prev_main, &chain, 9, vec![&tx2]);
let prev_main = next.header.clone();
chain.process_block(next, chain::Options::SKIP_POW).unwrap();
// Full chain validation for completeness.
chain.validate(false).unwrap();
// mine 2 forked blocks from the first
let fork = prepare_fork_block_tx(&kc, &fork_head, &chain, 6, vec![&tx1]);
let prev_fork = fork.header.clone();
chain.process_block(fork, chain::Options::SKIP_POW).unwrap();
let fork_next = prepare_fork_block_tx(&kc, &prev_fork, &chain, 8, vec![&tx2]);
let prev_fork = fork_next.header.clone();
chain
.process_block(fork_next, chain::Options::SKIP_POW)
.unwrap();
chain.validate(false).unwrap();
// check state
let head = chain.head_header().unwrap();
assert_eq!(head.height, 6);
assert_eq!(head.hash(), prev_main.hash());
assert!(chain
.is_unspent(&OutputIdentifier::from_output(&tx2.outputs()[0]))
.is_ok());
assert!(chain
.is_unspent(&OutputIdentifier::from_output(&tx1.outputs()[0]))
.is_err());
// make the fork win
let fork_next = prepare_fork_block(&kc, &prev_fork, &chain, 10);
let prev_fork = fork_next.header.clone();
chain
.process_block(fork_next, chain::Options::SKIP_POW)
.unwrap();
chain.validate(false).unwrap();
// check state
let head = chain.head_header().unwrap();
assert_eq!(head.height, 7);
assert_eq!(head.hash(), prev_fork.hash());
assert!(chain
.is_unspent(&OutputIdentifier::from_output(&tx2.outputs()[0]))
.is_ok());
assert!(chain
.is_unspent(&OutputIdentifier::from_output(&tx1.outputs()[0]))
.is_err());
// add 20 blocks to go past the test horizon
let mut prev = prev_fork;
for n in 0..20 {
let next = prepare_block(&kc, &prev, &chain, 11 + n);
prev = next.header.clone();
chain.process_block(next, chain::Options::SKIP_POW).unwrap();
}
chain.validate(false).unwrap();
if let Err(e) = chain.compact() {
panic!("Error compacting chain: {:?}", e);
}
if let Err(e) = chain.validate(false) {
panic!("Validation error after compacting chain: {:?}", e);
}
}
/// Test ability to retrieve block headers for a given output
#[test]
fn output_header_mappings() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
let chain = setup(
".grin_header_for_output",
pow::mine_genesis_block().unwrap(),
);
let keychain = ExtKeychain::from_random_seed(false).unwrap();
let mut reward_outputs = vec![];
for n in 1..15 {
let prev = chain.head_header().unwrap();
let next_header_info = consensus::next_difficulty(1, chain.difficulty_iter().unwrap());
let pk = ExtKeychainPath::new(1, n as u32, 0, 0, 0).to_identifier();
let reward = libtx::reward::output(&keychain, &pk, 0).unwrap();
reward_outputs.push(reward.0.clone());
let mut b =
core::core::Block::new(&prev, vec![], next_header_info.clone().difficulty, reward)
.unwrap();
b.header.timestamp = prev.timestamp + Duration::seconds(60);
b.header.pow.secondary_scaling = next_header_info.secondary_scaling;
chain.set_txhashset_roots(&mut b).unwrap();
let edge_bits = if n == 2 {
global::min_edge_bits() + 1
} else {
global::min_edge_bits()
};
b.header.pow.proof.edge_bits = edge_bits;
pow::pow_size(
&mut b.header,
next_header_info.difficulty,
global::proofsize(),
edge_bits,
)
.unwrap();
b.header.pow.proof.edge_bits = edge_bits;
chain.process_block(b, chain::Options::MINE).unwrap();
let header_for_output = chain
.get_header_for_output(&OutputIdentifier::from_output(&reward_outputs[n - 1]))
.unwrap();
assert_eq!(header_for_output.height, n as u64);
chain.validate(false).unwrap();
}
// Check all output positions are as expected
for n in 1..15 {
let header_for_output = chain
.get_header_for_output(&OutputIdentifier::from_output(&reward_outputs[n - 1]))
.unwrap();
assert_eq!(header_for_output.height, n as u64);
}
}
fn prepare_block<K>(kc: &K, prev: &BlockHeader, chain: &Chain, diff: u64) -> Block
where
K: Keychain,
{
let mut b = prepare_block_nosum(kc, prev, diff, vec![]);
chain.set_txhashset_roots(&mut b).unwrap();
b
}
fn prepare_block_tx<K>(
kc: &K,
prev: &BlockHeader,
chain: &Chain,
diff: u64,
txs: Vec<&Transaction>,
) -> Block
where
K: Keychain,
{
let mut b = prepare_block_nosum(kc, prev, diff, txs);
chain.set_txhashset_roots(&mut b).unwrap();
b
}
fn prepare_fork_block<K>(kc: &K, prev: &BlockHeader, chain: &Chain, diff: u64) -> Block
where
K: Keychain,
{
let mut b = prepare_block_nosum(kc, prev, diff, vec![]);
chain.set_txhashset_roots_forked(&mut b, prev).unwrap();
b
}
fn prepare_fork_block_tx<K>(
kc: &K,
prev: &BlockHeader,
chain: &Chain,
diff: u64,
txs: Vec<&Transaction>,
) -> Block
where
K: Keychain,
{
let mut b = prepare_block_nosum(kc, prev, diff, txs);
chain.set_txhashset_roots_forked(&mut b, prev).unwrap();
b
}
fn prepare_block_nosum<K>(kc: &K, prev: &BlockHeader, diff: u64, txs: Vec<&Transaction>) -> Block
where
K: Keychain,
{
let proof_size = global::proofsize();
let key_id = ExtKeychainPath::new(1, diff as u32, 0, 0, 0).to_identifier();
let fees = txs.iter().map(|tx| tx.fee()).sum();
let reward = libtx::reward::output(kc, &key_id, fees).unwrap();
let mut b = match core::core::Block::new(
prev,
txs.into_iter().cloned().collect(),
Difficulty::from_num(diff),
reward,
) {
Err(e) => panic!("{:?}", e),
Ok(b) => b,
};
b.header.timestamp = prev.timestamp + Duration::seconds(60);
b.header.pow.total_difficulty = prev.total_difficulty() + Difficulty::from_num(diff);
b.header.pow.proof = pow::Proof::random(proof_size);
b
}
#[test]
#[ignore]
fn actual_diff_iter_output() {
global::set_mining_mode(ChainTypes::AutomatedTesting);
let genesis_block = pow::mine_genesis_block().unwrap();
let db_env = Arc::new(store::new_env(".grin".to_string()));
let verifier_cache = Arc::new(RwLock::new(LruVerifierCache::new()));
let chain = chain::Chain::init(
"../.grin".to_string(),
db_env,
Arc::new(NoopAdapter {}),
genesis_block,
pow::verify_size,
verifier_cache,
false,
Arc::new(Mutex::new(StopState::new())),
)
.unwrap();
let iter = chain.difficulty_iter().unwrap();
let mut last_time = 0;
let mut first = true;
for elem in iter.into_iter() {
if first {
last_time = elem.timestamp;
first = false;
}
println!(
"next_difficulty time: {}, diff: {}, duration: {} ",
elem.timestamp,
elem.difficulty.to_num(),
last_time - elem.timestamp
);
last_time = elem.timestamp;
}
}