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// Copyright (c) 2018-2020 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <boost/test/unit_test.hpp>
#include <chainparams.h>
#include <consensus/merkle.h>
#include <consensus/validation.h>
#include <node/miner.h>
#include <pow.h>
#include <random.h>
#include <script/standard.h>
#include <test/util/script.h>
#include <test/util/setup_common.h>
#include <util/time.h>
#include <validation.h>
#include <validationinterface.h>
#include <thread>
namespace validation_block_tests {
struct MinerTestingSetup : public RegTestingSetup {
std::shared_ptr<CBlock> Block(const uint256& prev_hash);
std::shared_ptr<const CBlock> GoodBlock(const uint256& prev_hash);
std::shared_ptr<const CBlock> BadBlock(const uint256& prev_hash);
std::shared_ptr<CBlock> FinalizeBlock(std::shared_ptr<CBlock> pblock);
void BuildChain(const uint256& root, int height, const unsigned int invalid_rate, const unsigned int branch_rate, const unsigned int max_size, std::vector<std::shared_ptr<const CBlock>>& blocks);
};
} // namespace validation_block_tests
BOOST_FIXTURE_TEST_SUITE(validation_block_tests, MinerTestingSetup)
struct TestSubscriber final : public CValidationInterface {
uint256 m_expected_tip;
explicit TestSubscriber(uint256 tip) : m_expected_tip(tip) {}
void UpdatedBlockTip(const CBlockIndex* pindexNew, const CBlockIndex* pindexFork, bool fInitialDownload) override
{
BOOST_CHECK_EQUAL(m_expected_tip, pindexNew->GetBlockHash());
}
void BlockConnected(const std::shared_ptr<const CBlock>& block, const CBlockIndex* pindex) override
{
BOOST_CHECK_EQUAL(m_expected_tip, block->hashPrevBlock);
BOOST_CHECK_EQUAL(m_expected_tip, pindex->pprev->GetBlockHash());
m_expected_tip = block->GetHash();
}
void BlockDisconnected(const std::shared_ptr<const CBlock>& block, const CBlockIndex* pindex) override
{
BOOST_CHECK_EQUAL(m_expected_tip, block->GetHash());
BOOST_CHECK_EQUAL(m_expected_tip, pindex->GetBlockHash());
m_expected_tip = block->hashPrevBlock;
}
};
std::shared_ptr<CBlock> MinerTestingSetup::Block(const uint256& prev_hash)
{
static int i = 0;
static uint64_t time = Params().GenesisBlock().nTime;
auto ptemplate = BlockAssembler(m_node.chainman->ActiveChainstate(), *m_node.mempool, Params()).CreateNewBlock(CScript{} << i++ << OP_TRUE);
auto pblock = std::make_shared<CBlock>(ptemplate->block);
pblock->hashPrevBlock = prev_hash;
pblock->nTime = ++time;
// Make the coinbase transaction with two outputs:
// One zero-value one that has a unique pubkey to make sure that blocks at the same height can have a different hash
// Another one that has the coinbase reward in a P2WSH with OP_TRUE as witness program to make it easy to spend
CMutableTransaction txCoinbase(*pblock->vtx[0]);
txCoinbase.vout.resize(2);
txCoinbase.vout[1].scriptPubKey = P2WSH_OP_TRUE;
txCoinbase.vout[1].nValue = txCoinbase.vout[0].nValue;
txCoinbase.vout[0].nValue = 0;
txCoinbase.vin[0].scriptWitness.SetNull();
// Always pad with OP_0 at the end to avoid bad-cb-length error
txCoinbase.vin[0].scriptSig = CScript{} << WITH_LOCK(::cs_main, return m_node.chainman->m_blockman.LookupBlockIndex(prev_hash)->nHeight + 1) << OP_0;
pblock->vtx[0] = MakeTransactionRef(std::move(txCoinbase));
return pblock;
}
std::shared_ptr<CBlock> MinerTestingSetup::FinalizeBlock(std::shared_ptr<CBlock> pblock)
{
const CBlockIndex* prev_block{WITH_LOCK(::cs_main, return m_node.chainman->m_blockman.LookupBlockIndex(pblock->hashPrevBlock))};
GenerateCoinbaseCommitment(*pblock, prev_block, Params().GetConsensus());
pblock->hashMerkleRoot = BlockMerkleRoot(*pblock);
while (!CheckProofOfWork(pblock->GetHash(), pblock->nBits, Params().GetConsensus())) {
++(pblock->nNonce);
}
// submit block header, so that miner can get the block height from the
// global state and the node has the topology of the chain
BlockValidationState ignored;
BOOST_CHECK(Assert(m_node.chainman)->ProcessNewBlockHeaders({pblock->GetBlockHeader()}, ignored, Params()));
return pblock;
}
// construct a valid block
std::shared_ptr<const CBlock> MinerTestingSetup::GoodBlock(const uint256& prev_hash)
{
return FinalizeBlock(Block(prev_hash));
}
// construct an invalid block (but with a valid header)
std::shared_ptr<const CBlock> MinerTestingSetup::BadBlock(const uint256& prev_hash)
{
auto pblock = Block(prev_hash);
CMutableTransaction coinbase_spend;
coinbase_spend.vin.push_back(CTxIn(COutPoint(pblock->vtx[0]->GetHash(), 0), CScript(), 0));
coinbase_spend.vout.push_back(pblock->vtx[0]->vout[0]);
CTransactionRef tx = MakeTransactionRef(coinbase_spend);
pblock->vtx.push_back(tx);
auto ret = FinalizeBlock(pblock);
return ret;
}
void MinerTestingSetup::BuildChain(const uint256& root, int height, const unsigned int invalid_rate, const unsigned int branch_rate, const unsigned int max_size, std::vector<std::shared_ptr<const CBlock>>& blocks)
{
if (height <= 0 || blocks.size() >= max_size) return;
bool gen_invalid = InsecureRandRange(100) < invalid_rate;
bool gen_fork = InsecureRandRange(100) < branch_rate;
const std::shared_ptr<const CBlock> pblock = gen_invalid ? BadBlock(root) : GoodBlock(root);
blocks.push_back(pblock);
if (!gen_invalid) {
BuildChain(pblock->GetHash(), height - 1, invalid_rate, branch_rate, max_size, blocks);
}
if (gen_fork) {
blocks.push_back(GoodBlock(root));
BuildChain(blocks.back()->GetHash(), height - 1, invalid_rate, branch_rate, max_size, blocks);
}
}
BOOST_AUTO_TEST_CASE(processnewblock_signals_ordering)
{
// build a large-ish chain that's likely to have some forks
std::vector<std::shared_ptr<const CBlock>> blocks;
while (blocks.size() < 50) {
blocks.clear();
BuildChain(Params().GenesisBlock().GetHash(), 100, 15, 10, 500, blocks);
}
bool ignored;
// Connect the genesis block and drain any outstanding events
BOOST_CHECK(Assert(m_node.chainman)->ProcessNewBlock(Params(), std::make_shared<CBlock>(Params().GenesisBlock()), true, &ignored));
SyncWithValidationInterfaceQueue();
// subscribe to events (this subscriber will validate event ordering)
const CBlockIndex* initial_tip = nullptr;
{
LOCK(cs_main);
initial_tip = m_node.chainman->ActiveChain().Tip();
}
auto sub = std::make_shared<TestSubscriber>(initial_tip->GetBlockHash());
RegisterSharedValidationInterface(sub);
// create a bunch of threads that repeatedly process a block generated above at random
// this will create parallelism and randomness inside validation - the ValidationInterface
// will subscribe to events generated during block validation and assert on ordering invariance
std::vector<std::thread> threads;
for (int i = 0; i < 10; i++) {
threads.emplace_back([&]() {
bool ignored;
FastRandomContext insecure;
for (int i = 0; i < 1000; i++) {
auto block = blocks[insecure.randrange(blocks.size() - 1)];
Assert(m_node.chainman)->ProcessNewBlock(Params(), block, true, &ignored);
}
// to make sure that eventually we process the full chain - do it here
for (auto block : blocks) {
if (block->vtx.size() == 1) {
bool processed = Assert(m_node.chainman)->ProcessNewBlock(Params(), block, true, &ignored);
assert(processed);
}
}
});
}
for (auto& t : threads) {
t.join();
}
SyncWithValidationInterfaceQueue();
UnregisterSharedValidationInterface(sub);
LOCK(cs_main);
BOOST_CHECK_EQUAL(sub->m_expected_tip, m_node.chainman->ActiveChain().Tip()->GetBlockHash());
}
/**
* Test that mempool updates happen atomically with reorgs.
*
* This prevents RPC clients, among others, from retrieving immediately-out-of-date mempool data
* during large reorgs.
*
* The test verifies this by creating a chain of `num_txs` blocks, matures their coinbases, and then
* submits txns spending from their coinbase to the mempool. A fork chain is then processed,
* invalidating the txns and evicting them from the mempool.
*
* We verify that the mempool updates atomically by polling it continuously
* from another thread during the reorg and checking that its size only changes
* once. The size changing exactly once indicates that the polling thread's
* view of the mempool is either consistent with the chain state before reorg,
* or consistent with the chain state after the reorg, and not just consistent
* with some intermediate state during the reorg.
*/
BOOST_AUTO_TEST_CASE(mempool_locks_reorg)
{
bool ignored;
auto ProcessBlock = [&](std::shared_ptr<const CBlock> block) -> bool {
return Assert(m_node.chainman)->ProcessNewBlock(Params(), block, /* fForceProcessing */ true, /* fNewBlock */ &ignored);
};
// Process all mined blocks
BOOST_REQUIRE(ProcessBlock(std::make_shared<CBlock>(Params().GenesisBlock())));
auto last_mined = GoodBlock(Params().GenesisBlock().GetHash());
BOOST_REQUIRE(ProcessBlock(last_mined));
// Run the test multiple times
for (int test_runs = 3; test_runs > 0; --test_runs) {
BOOST_CHECK_EQUAL(last_mined->GetHash(), m_node.chainman->ActiveChain().Tip()->GetBlockHash());
// Later on split from here
const uint256 split_hash{last_mined->hashPrevBlock};
// Create a bunch of transactions to spend the miner rewards of the
// most recent blocks
std::vector<CTransactionRef> txs;
for (int num_txs = 22; num_txs > 0; --num_txs) {
CMutableTransaction mtx;
mtx.vin.push_back(CTxIn{COutPoint{last_mined->vtx[0]->GetHash(), 1}, CScript{}});
mtx.vin[0].scriptWitness.stack.push_back(WITNESS_STACK_ELEM_OP_TRUE);
mtx.vout.push_back(last_mined->vtx[0]->vout[1]);
mtx.vout[0].nValue -= 1000;
txs.push_back(MakeTransactionRef(mtx));
last_mined = GoodBlock(last_mined->GetHash());
BOOST_REQUIRE(ProcessBlock(last_mined));
}
// Mature the inputs of the txs
for (int j = COINBASE_MATURITY; j > 0; --j) {
last_mined = GoodBlock(last_mined->GetHash());
BOOST_REQUIRE(ProcessBlock(last_mined));
}
// Mine a reorg (and hold it back) before adding the txs to the mempool
const uint256 tip_init{last_mined->GetHash()};
std::vector<std::shared_ptr<const CBlock>> reorg;
last_mined = GoodBlock(split_hash);
reorg.push_back(last_mined);
for (size_t j = COINBASE_MATURITY + txs.size() + 1; j > 0; --j) {
last_mined = GoodBlock(last_mined->GetHash());
reorg.push_back(last_mined);
}
// Add the txs to the tx pool
{
LOCK(cs_main);
for (const auto& tx : txs) {
const MempoolAcceptResult result = m_node.chainman->ProcessTransaction(tx);
BOOST_REQUIRE(result.m_result_type == MempoolAcceptResult::ResultType::VALID);
}
}
// Check that all txs are in the pool
{
LOCK(m_node.mempool->cs);
BOOST_CHECK_EQUAL(m_node.mempool->mapTx.size(), txs.size());
}
// Run a thread that simulates an RPC caller that is polling while
// validation is doing a reorg
std::thread rpc_thread{[&]() {
// This thread is checking that the mempool either contains all of
// the transactions invalidated by the reorg, or none of them, and
// not some intermediate amount.
while (true) {
LOCK(m_node.mempool->cs);
if (m_node.mempool->mapTx.size() == 0) {
// We are done with the reorg
break;
}
// Internally, we might be in the middle of the reorg, but
// externally the reorg to the most-proof-of-work chain should
// be atomic. So the caller assumes that the returned mempool
// is consistent. That is, it has all txs that were there
// before the reorg.
assert(m_node.mempool->mapTx.size() == txs.size());
continue;
}
LOCK(cs_main);
// We are done with the reorg, so the tip must have changed
assert(tip_init != m_node.chainman->ActiveChain().Tip()->GetBlockHash());
}};
// Submit the reorg in this thread to invalidate and remove the txs from the tx pool
for (const auto& b : reorg) {
ProcessBlock(b);
}
// Check that the reorg was eventually successful
BOOST_CHECK_EQUAL(last_mined->GetHash(), m_node.chainman->ActiveChain().Tip()->GetBlockHash());
// We can join the other thread, which returns when the reorg was successful
rpc_thread.join();
}
}
BOOST_AUTO_TEST_CASE(witness_commitment_index)
{
CScript pubKey;
pubKey << 1 << OP_TRUE;
auto ptemplate = BlockAssembler(m_node.chainman->ActiveChainstate(), *m_node.mempool, Params()).CreateNewBlock(pubKey);
CBlock pblock = ptemplate->block;
CTxOut witness;
witness.scriptPubKey.resize(MINIMUM_WITNESS_COMMITMENT);
witness.scriptPubKey[0] = OP_RETURN;
witness.scriptPubKey[1] = 0x24;
witness.scriptPubKey[2] = 0xaa;
witness.scriptPubKey[3] = 0x21;
witness.scriptPubKey[4] = 0xa9;
witness.scriptPubKey[5] = 0xed;
// A witness larger than the minimum size is still valid
CTxOut min_plus_one = witness;
min_plus_one.scriptPubKey.resize(MINIMUM_WITNESS_COMMITMENT + 1);
CTxOut invalid = witness;
invalid.scriptPubKey[0] = OP_VERIFY;
CMutableTransaction txCoinbase(*pblock.vtx[0]);
txCoinbase.vout.resize(4);
txCoinbase.vout[0] = witness;
txCoinbase.vout[1] = witness;
txCoinbase.vout[2] = min_plus_one;
txCoinbase.vout[3] = invalid;
pblock.vtx[0] = MakeTransactionRef(std::move(txCoinbase));
BOOST_CHECK_EQUAL(GetWitnessCommitmentIndex(pblock), 2);
}
BOOST_AUTO_TEST_SUITE_END()
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