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5cf97c1b07
dash/src/llmq/chainlocks.cpp
PastaPastaPasta 5cf97c1b07
refactor: Misc LLMQ refactoring (#4590) 
* use unique_ptr instead of shared

Signed-off-by: pasta <pasta@dashboost.org>

* unique_ptr over shared_ptr

Signed-off-by: pasta <pasta@dashboost.org>

* remove unneeded ptr

Signed-off-by: pasta <pasta@dashboost.org>

* Adjust IsTxSafeForMining checks

Signed-off-by: pasta <pasta@dashboost.org>

* use const ref

Signed-off-by: pasta <pasta@dashboost.org>

* add a todo

Signed-off-by: pasta <pasta@dashboost.org>

* use optional instead of magic max value

fixes a hypothetical bug where myIdx is not "initialized" (ie max), and we sleep forever

Signed-off-by: pasta <pasta@dashboost.org>

* simplify relay check

Signed-off-by: pasta <pasta@dashboost.org>

* use count_if instead of a loop

Signed-off-by: pasta <pasta@dashboost.org>

* add a few vector reserves

Signed-off-by: pasta <pasta@dashboost.org>
2021-11-29 08:12:09 +03:00

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// Copyright (c) 2019-2021 The Dash Core developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <llmq/chainlocks.h>
#include <llmq/quorums.h>
#include <llmq/instantsend.h>
#include <llmq/utils.h>
#include <chain.h>
#include <chainparams.h>
#include <consensus/validation.h>
#include <masternode/sync.h>
#include <net_processing.h>
#include <scheduler.h>
#include <spork.h>
#include <txmempool.h>
#include <ui_interface.h>
#include <util/validation.h>
namespace llmq
{
const std::string CLSIG_REQUESTID_PREFIX = "clsig";
CChainLocksHandler* chainLocksHandler;
bool CChainLockSig::IsNull() const
{
return nHeight == -1 && blockHash == uint256();
}
std::string CChainLockSig::ToString() const
{
return strprintf("CChainLockSig(nHeight=%d, blockHash=%s)", nHeight, blockHash.ToString());
}
CChainLocksHandler::CChainLocksHandler()
{
scheduler = std::make_unique<CScheduler>();
CScheduler::Function serviceLoop = std::bind(&CScheduler::serviceQueue, scheduler.get());
scheduler_thread = std::make_unique<std::thread>(std::bind(&TraceThread<CScheduler::Function>, "cl-schdlr", serviceLoop));
}
CChainLocksHandler::~CChainLocksHandler()
{
scheduler->stop();
scheduler_thread->join();
}
void CChainLocksHandler::Start()
{
quorumSigningManager->RegisterRecoveredSigsListener(this);
scheduler->scheduleEvery([&]() {
CheckActiveState();
EnforceBestChainLock();
// regularly retry signing the current chaintip as it might have failed before due to missing islocks
TrySignChainTip();
}, 5000);
}
void CChainLocksHandler::Stop()
{
scheduler->stop();
quorumSigningManager->UnregisterRecoveredSigsListener(this);
}
bool CChainLocksHandler::AlreadyHave(const CInv& inv) const
{
LOCK(cs);
return seenChainLocks.count(inv.hash) != 0;
}
bool CChainLocksHandler::GetChainLockByHash(const uint256& hash, llmq::CChainLockSig& ret) const
{
LOCK(cs);
if (hash != bestChainLockHash) {
// we only propagate the best one and ditch all the old ones
return false;
}
ret = bestChainLock;
return true;
}
CChainLockSig CChainLocksHandler::GetBestChainLock() const
{
LOCK(cs);
return bestChainLock;
}
void CChainLocksHandler::ProcessMessage(CNode* pfrom, const std::string& strCommand, CDataStream& vRecv)
{
if (!AreChainLocksEnabled()) {
return;
}
if (strCommand == NetMsgType::CLSIG) {
CChainLockSig clsig;
vRecv >> clsig;
ProcessNewChainLock(pfrom->GetId(), clsig, ::SerializeHash(clsig));
}
}
void CChainLocksHandler::ProcessNewChainLock(const NodeId from, const llmq::CChainLockSig& clsig, const uint256& hash)
{
CheckActiveState();
CInv clsigInv(MSG_CLSIG, hash);
if (from != -1) {
LOCK(cs_main);
EraseObjectRequest(from, clsigInv);
}
{
LOCK(cs);
if (!seenChainLocks.emplace(hash, GetTimeMillis()).second) {
return;
}
if (!bestChainLock.IsNull() && clsig.nHeight <= bestChainLock.nHeight) {
// no need to process/relay older CLSIGs
return;
}
}
const uint256 requestId = ::SerializeHash(std::make_pair(CLSIG_REQUESTID_PREFIX, clsig.nHeight));
if (!llmq::CSigningManager::VerifyRecoveredSig(Params().GetConsensus().llmqTypeChainLocks, clsig.nHeight, requestId, clsig.blockHash, clsig.sig)) {
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- invalid CLSIG (%s), peer=%d\n", __func__, clsig.ToString(), from);
if (from != -1) {
LOCK(cs_main);
Misbehaving(from, 10);
}
return;
}
CBlockIndex* pindex = WITH_LOCK(cs_main, return LookupBlockIndex(clsig.blockHash));
{
LOCK(cs);
bestChainLockHash = hash;
bestChainLock = clsig;
if (pindex != nullptr) {
if (pindex->nHeight != clsig.nHeight) {
// Should not happen, same as the conflict check from above.
LogPrintf("CChainLocksHandler::%s -- height of CLSIG (%s) does not match the specified block's height (%d)\n",
__func__, clsig.ToString(), pindex->nHeight);
// Note: not relaying clsig here
return;
}
bestChainLockWithKnownBlock = bestChainLock;
bestChainLockBlockIndex = pindex;
}
// else if (pindex == nullptr)
// Note: make sure to still relay clsig further.
}
// Note: do not hold cs while calling RelayInv
AssertLockNotHeld(cs);
g_connman->RelayInv(clsigInv, LLMQS_PROTO_VERSION);
if (pindex == nullptr) {
// we don't know the block/header for this CLSIG yet, so bail out for now
// when the block or the header later comes in, we will enforce the correct chain
return;
}
scheduler->scheduleFromNow([&]() {
CheckActiveState();
EnforceBestChainLock();
}, 0);
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- processed new CLSIG (%s), peer=%d\n",
__func__, clsig.ToString(), from);
}
void CChainLocksHandler::AcceptedBlockHeader(const CBlockIndex* pindexNew)
{
LOCK(cs);
if (pindexNew->GetBlockHash() == bestChainLock.blockHash) {
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- block header %s came in late, updating and enforcing\n", __func__, pindexNew->GetBlockHash().ToString());
if (bestChainLock.nHeight != pindexNew->nHeight) {
// Should not happen, same as the conflict check from ProcessNewChainLock.
LogPrintf("CChainLocksHandler::%s -- height of CLSIG (%s) does not match the specified block's height (%d)\n",
__func__, bestChainLock.ToString(), pindexNew->nHeight);
return;
}
// when EnforceBestChainLock is called later, it might end up invalidating other chains but not activating the
// CLSIG locked chain. This happens when only the header is known but the block is still missing yet. The usual
// block processing logic will handle this when the block arrives
bestChainLockWithKnownBlock = bestChainLock;
bestChainLockBlockIndex = pindexNew;
}
}
void CChainLocksHandler::UpdatedBlockTip()
{
// don't call TrySignChainTip directly but instead let the scheduler call it. This way we ensure that cs_main is
// never locked and TrySignChainTip is not called twice in parallel. Also avoids recursive calls due to
// EnforceBestChainLock switching chains.
// atomic[If tryLockChainTipScheduled is false, do (set it to true] and schedule signing).
if (bool expected = false; tryLockChainTipScheduled.compare_exchange_strong(expected, true)) {
scheduler->scheduleFromNow([&]() {
CheckActiveState();
EnforceBestChainLock();
TrySignChainTip();
tryLockChainTipScheduled = false;
}, 0);
}
}
void CChainLocksHandler::CheckActiveState()
{
bool fDIP0008Active;
{
LOCK(cs_main);
fDIP0008Active = ::ChainActive().Tip() && ::ChainActive().Tip()->pprev && ::ChainActive().Tip()->pprev->nHeight >= Params().GetConsensus().DIP0008Height;
}
bool oldIsEnforced = isEnforced;
isEnabled = AreChainLocksEnabled();
isEnforced = (fDIP0008Active && isEnabled);
if (!oldIsEnforced && isEnforced) {
// ChainLocks got activated just recently, but it's possible that it was already running before, leaving
// us with some stale values which we should not try to enforce anymore (there probably was a good reason
// to disable spork19)
LOCK(cs);
bestChainLockHash = uint256();
bestChainLock = bestChainLockWithKnownBlock = CChainLockSig();
bestChainLockBlockIndex = lastNotifyChainLockBlockIndex = nullptr;
}
}
void CChainLocksHandler::TrySignChainTip()
{
Cleanup();
if (!fMasternodeMode) {
return;
}
if (!masternodeSync.IsBlockchainSynced()) {
return;
}
if (!isEnabled) {
return;
}
const CBlockIndex* pindex;
{
LOCK(cs_main);
pindex = ::ChainActive().Tip();
}
if (!pindex->pprev) {
return;
}
// DIP8 defines a process called "Signing attempts" which should run before the CLSIG is finalized
// To simplify the initial implementation, we skip this process and directly try to create a CLSIG
// This will fail when multiple blocks compete, but we accept this for the initial implementation.
// Later, we'll add the multiple attempts process.
{
LOCK(cs);
if (pindex->nHeight == lastSignedHeight) {
// already signed this one
return;
}
if (bestChainLock.nHeight >= pindex->nHeight) {
// already got the same CLSIG or a better one
return;
}
if (InternalHasConflictingChainLock(pindex->nHeight, pindex->GetBlockHash())) {
// don't sign if another conflicting CLSIG is already present. EnforceBestChainLock will later enforce
// the correct chain.
return;
}
}
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- trying to sign %s, height=%d\n", __func__, pindex->GetBlockHash().ToString(), pindex->nHeight);
// When the new IX system is activated, we only try to ChainLock blocks which include safe transactions. A TX is
// considered safe when it is islocked or at least known since 10 minutes (from mempool or block). These checks are
// performed for the tip (which we try to sign) and the previous 5 blocks. If a ChainLocked block is found on the
// way down, we consider all TXs to be safe.
if (IsInstantSendEnabled() && RejectConflictingBlocks()) {
auto pindexWalk = pindex;
while (pindexWalk) {
if (pindex->nHeight - pindexWalk->nHeight > 5) {
// no need to check further down, 6 confs is safe to assume that TXs below this height won't be
// islocked anymore if they aren't already
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- tip and previous 5 blocks all safe\n", __func__);
break;
}
if (HasChainLock(pindexWalk->nHeight, pindexWalk->GetBlockHash())) {
// we don't care about islocks for TXs that are ChainLocked already
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- chainlock at height %d\n", __func__, pindexWalk->nHeight);
break;
}
auto txids = GetBlockTxs(pindexWalk->GetBlockHash());
if (!txids) {
pindexWalk = pindexWalk->pprev;
continue;
}
for (auto& txid : *txids) {
int64_t txAge = 0;
{
LOCK(cs);
auto it = txFirstSeenTime.find(txid);
if (it != txFirstSeenTime.end()) {
txAge = GetAdjustedTime() - it->second;
}
}
if (txAge < WAIT_FOR_ISLOCK_TIMEOUT && !quorumInstantSendManager->IsLocked(txid)) {
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- not signing block %s due to TX %s not being islocked and not old enough. age=%d\n", __func__,
pindexWalk->GetBlockHash().ToString(), txid.ToString(), txAge);
return;
}
}
pindexWalk = pindexWalk->pprev;
}
}
uint256 requestId = ::SerializeHash(std::make_pair(CLSIG_REQUESTID_PREFIX, pindex->nHeight));
uint256 msgHash = pindex->GetBlockHash();
{
LOCK(cs);
if (bestChainLock.nHeight >= pindex->nHeight) {
// might have happened while we didn't hold cs
return;
}
lastSignedHeight = pindex->nHeight;
lastSignedRequestId = requestId;
lastSignedMsgHash = msgHash;
}
quorumSigningManager->AsyncSignIfMember(Params().GetConsensus().llmqTypeChainLocks, requestId, msgHash);
}
void CChainLocksHandler::TransactionAddedToMempool(const CTransactionRef& tx, int64_t nAcceptTime)
{
if (tx->IsCoinBase() || tx->vin.empty()) {
return;
}
LOCK(cs);
txFirstSeenTime.emplace(tx->GetHash(), nAcceptTime);
}
void CChainLocksHandler::BlockConnected(const std::shared_ptr<const CBlock>& pblock, const CBlockIndex* pindex, const std::vector<CTransactionRef>& vtxConflicted)
{
if (!masternodeSync.IsBlockchainSynced()) {
return;
}
// We listen for BlockConnected so that we can collect all TX ids of all included TXs of newly received blocks
// We need this information later when we try to sign a new tip, so that we can determine if all included TXs are
// safe.
LOCK(cs);
auto it = blockTxs.find(pindex->GetBlockHash());
if (it == blockTxs.end()) {
// we must create this entry even if there are no lockable transactions in the block, so that TrySignChainTip
// later knows about this block
it = blockTxs.emplace(pindex->GetBlockHash(), std::make_shared<std::unordered_set<uint256, StaticSaltedHasher>>()).first;
}
auto& txids = *it->second;
int64_t curTime = GetAdjustedTime();
for (const auto& tx : pblock->vtx) {
if (tx->IsCoinBase() || tx->vin.empty()) {
continue;
}
txids.emplace(tx->GetHash());
txFirstSeenTime.emplace(tx->GetHash(), curTime);
}
}
void CChainLocksHandler::BlockDisconnected(const std::shared_ptr<const CBlock>& pblock, const CBlockIndex* pindexDisconnected)
{
LOCK(cs);
blockTxs.erase(pindexDisconnected->GetBlockHash());
}
CChainLocksHandler::BlockTxs::mapped_type CChainLocksHandler::GetBlockTxs(const uint256& blockHash)
{
AssertLockNotHeld(cs);
AssertLockNotHeld(cs_main);
CChainLocksHandler::BlockTxs::mapped_type ret;
{
LOCK(cs);
auto it = blockTxs.find(blockHash);
if (it != blockTxs.end()) {
ret = it->second;
}
}
if (!ret) {
// This should only happen when freshly started.
// If running for some time, SyncTransaction should have been called before which fills blockTxs.
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- blockTxs for %s not found. Trying ReadBlockFromDisk\n", __func__,
blockHash.ToString());
uint32_t blockTime;
{
LOCK(cs_main);
auto pindex = LookupBlockIndex(blockHash);
CBlock block;
if (!ReadBlockFromDisk(block, pindex, Params().GetConsensus())) {
return nullptr;
}
ret = std::make_shared<std::unordered_set<uint256, StaticSaltedHasher>>();
for (auto& tx : block.vtx) {
if (tx->IsCoinBase() || tx->vin.empty()) {
continue;
}
ret->emplace(tx->GetHash());
}
blockTime = block.nTime;
}
LOCK(cs);
blockTxs.emplace(blockHash, ret);
for (auto& txid : *ret) {
txFirstSeenTime.emplace(txid, blockTime);
}
}
return ret;
}
bool CChainLocksHandler::IsTxSafeForMining(const uint256& txid) const
{
if (!RejectConflictingBlocks()) {
return true;
}
if (!isEnabled || !isEnforced) {
return true;
}
if (!IsInstantSendEnabled()) {
return true;
}
if (quorumInstantSendManager->IsLocked(txid)) {
return true;
}
int64_t txAge = 0;
{
LOCK(cs);
auto it = txFirstSeenTime.find(txid);
if (it != txFirstSeenTime.end()) {
txAge = GetAdjustedTime() - it->second;
}
}
return txAge >= WAIT_FOR_ISLOCK_TIMEOUT;
}
// WARNING: cs_main and cs should not be held!
// This should also not be called from validation signals, as this might result in recursive calls
void CChainLocksHandler::EnforceBestChainLock()
{
AssertLockNotHeld(cs);
AssertLockNotHeld(cs_main);
std::shared_ptr<CChainLockSig> clsig;
const CBlockIndex* pindex;
const CBlockIndex* currentBestChainLockBlockIndex;
{
LOCK(cs);
if (!isEnforced) {
return;
}
clsig = std::make_shared<CChainLockSig>(bestChainLockWithKnownBlock);
pindex = currentBestChainLockBlockIndex = this->bestChainLockBlockIndex;
if (!currentBestChainLockBlockIndex) {
// we don't have the header/block, so we can't do anything right now
return;
}
}
CValidationState state;
const auto &params = Params();
// Go backwards through the chain referenced by clsig until we find a block that is part of the main chain.
// For each of these blocks, check if there are children that are NOT part of the chain referenced by clsig
// and mark all of them as conflicting.
LogPrint(BCLog::CHAINLOCKS, "CChainLocksHandler::%s -- enforcing block %s via CLSIG (%s)\n", __func__, pindex->GetBlockHash().ToString(), clsig->ToString());
EnforceBlock(state, params, pindex);
bool activateNeeded = WITH_LOCK(::cs_main, return ::ChainActive().Tip()->GetAncestor(currentBestChainLockBlockIndex->nHeight)) != currentBestChainLockBlockIndex;
if (activateNeeded) {
if(!ActivateBestChain(state, params)) {
LogPrintf("CChainLocksHandler::%s -- ActivateBestChain failed: %s\n", __func__, FormatStateMessage(state));
return;
}
LOCK(cs_main);
if (::ChainActive().Tip()->GetAncestor(currentBestChainLockBlockIndex->nHeight) != currentBestChainLockBlockIndex) {
return;
}
}
{
LOCK(cs);
if (lastNotifyChainLockBlockIndex == currentBestChainLockBlockIndex) return;
lastNotifyChainLockBlockIndex = currentBestChainLockBlockIndex;
}
GetMainSignals().NotifyChainLock(currentBestChainLockBlockIndex, clsig);
uiInterface.NotifyChainLock(clsig->blockHash.ToString(), clsig->nHeight);
}
void CChainLocksHandler::HandleNewRecoveredSig(const llmq::CRecoveredSig& recoveredSig)
{
if (!isEnabled) {
return;
}
CChainLockSig clsig;
{
LOCK(cs);
if (recoveredSig.id != lastSignedRequestId || recoveredSig.msgHash != lastSignedMsgHash) {
// this is not what we signed, so lets not create a CLSIG for it
return;
}
if (bestChainLock.nHeight >= lastSignedHeight) {
// already got the same or a better CLSIG through the CLSIG message
return;
}
clsig.nHeight = lastSignedHeight;
clsig.blockHash = lastSignedMsgHash;
clsig.sig = recoveredSig.sig.Get();
}
ProcessNewChainLock(-1, clsig, ::SerializeHash(clsig));
}
bool CChainLocksHandler::HasChainLock(int nHeight, const uint256& blockHash) const
{
LOCK(cs);
return InternalHasChainLock(nHeight, blockHash);
}
bool CChainLocksHandler::InternalHasChainLock(int nHeight, const uint256& blockHash) const
{
AssertLockHeld(cs);
if (!isEnforced) {
return false;
}
if (!bestChainLockBlockIndex) {
return false;
}
if (nHeight > bestChainLockBlockIndex->nHeight) {
return false;
}
if (nHeight == bestChainLockBlockIndex->nHeight) {
return blockHash == bestChainLockBlockIndex->GetBlockHash();
}
auto pAncestor = bestChainLockBlockIndex->GetAncestor(nHeight);
return pAncestor && pAncestor->GetBlockHash() == blockHash;
}
bool CChainLocksHandler::HasConflictingChainLock(int nHeight, const uint256& blockHash) const
{
LOCK(cs);
return InternalHasConflictingChainLock(nHeight, blockHash);
}
bool CChainLocksHandler::InternalHasConflictingChainLock(int nHeight, const uint256& blockHash) const
{
AssertLockHeld(cs);
if (!isEnforced) {
return false;
}
if (!bestChainLockBlockIndex) {
return false;
}
if (nHeight > bestChainLockBlockIndex->nHeight) {
return false;
}
if (nHeight == bestChainLockBlockIndex->nHeight) {
return blockHash != bestChainLockBlockIndex->GetBlockHash();
}
auto pAncestor = bestChainLockBlockIndex->GetAncestor(nHeight);
assert(pAncestor);
return pAncestor->GetBlockHash() != blockHash;
}
void CChainLocksHandler::Cleanup()
{
if (!masternodeSync.IsBlockchainSynced()) {
return;
}
{
LOCK(cs);
if (GetTimeMillis() - lastCleanupTime < CLEANUP_INTERVAL) {
return;
}
}
// need mempool.cs due to GetTransaction calls
LOCK2(cs_main, mempool.cs);
LOCK(cs);
for (auto it = seenChainLocks.begin(); it != seenChainLocks.end(); ) {
if (GetTimeMillis() - it->second >= CLEANUP_SEEN_TIMEOUT) {
it = seenChainLocks.erase(it);
} else {
++it;
}
}
for (auto it = blockTxs.begin(); it != blockTxs.end(); ) {
auto pindex = LookupBlockIndex(it->first);
if (InternalHasChainLock(pindex->nHeight, pindex->GetBlockHash())) {
for (auto& txid : *it->second) {
txFirstSeenTime.erase(txid);
}
it = blockTxs.erase(it);
} else if (InternalHasConflictingChainLock(pindex->nHeight, pindex->GetBlockHash())) {
it = blockTxs.erase(it);
} else {
++it;
}
}
for (auto it = txFirstSeenTime.begin(); it != txFirstSeenTime.end(); ) {
CTransactionRef tx;
uint256 hashBlock;
if (!GetTransaction(it->first, tx, Params().GetConsensus(), hashBlock)) {
// tx has vanished, probably due to conflicts
it = txFirstSeenTime.erase(it);
} else if (!hashBlock.IsNull()) {
auto pindex = LookupBlockIndex(hashBlock);
if (::ChainActive().Tip()->GetAncestor(pindex->nHeight) == pindex && ::ChainActive().Height() - pindex->nHeight >= 6) {
// tx got confirmed >= 6 times, so we can stop keeping track of it
it = txFirstSeenTime.erase(it);
} else {
++it;
}
} else {
++it;
}
}
lastCleanupTime = GetTimeMillis();
}
bool AreChainLocksEnabled()
{
return sporkManager.IsSporkActive(SPORK_19_CHAINLOCKS_ENABLED);
}
} // namespace llmq
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