refactor: move CConnman, PeerManager out of CSigSharesManager ctor

Co-authored-by: Konstantin Akimov <knstqq@gmail.com>
This commit is contained in:
Kittywhiskers Van Gogh 2024-12-05 22:42:14 +00:00
parent 7498a38076
commit 82d1aed1d6
No known key found for this signature in database
GPG Key ID: 30CD0C065E5C4AAD
7 changed files with 94 additions and 83 deletions

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@ -34,7 +34,7 @@ LLMQContext::LLMQContext(ChainstateManager& chainman, CConnman& connman, CDeterm
*quorum_block_processor, mn_activeman, mn_sync, sporkman, unit_tests,
wipe)},
sigman{std::make_unique<llmq::CSigningManager>(mn_activeman, chainman.ActiveChainstate(), *qman, unit_tests, wipe)},
shareman{std::make_unique<llmq::CSigSharesManager>(connman, *sigman, mn_activeman, *qman, sporkman, peerman)},
shareman{std::make_unique<llmq::CSigSharesManager>(*sigman, mn_activeman, *qman, sporkman)},
clhandler{[&]() -> llmq::CChainLocksHandler* const {
assert(llmq::chainLocksHandler == nullptr);
llmq::chainLocksHandler = std::make_unique<llmq::CChainLocksHandler>(chainman.ActiveChainstate(), *qman,
@ -83,7 +83,7 @@ void LLMQContext::Start(CConnman& connman, PeerManager& peerman)
}
qman->Start();
shareman->RegisterAsRecoveredSigsListener();
shareman->StartWorkerThread();
shareman->StartWorkerThread(connman, peerman);
sigman->StartWorkerThread(peerman);
llmq::chainLocksHandler->Start();

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@ -433,7 +433,8 @@ std::set<NodeId> BatchVerifyMessageSigs(CDKGSession& session, const std::vector<
return ret;
}
static void RelayInvToParticipants(const CDKGSession& session, CConnman& connman, PeerManager& peerman, const CInv& inv)
static void RelayInvToParticipants(const CDKGSession& session, const CConnman& connman, PeerManager& peerman,
const CInv& inv)
{
CDKGLogger logger(session, __func__, __LINE__);
std::stringstream ss;
@ -466,7 +467,7 @@ static void RelayInvToParticipants(const CDKGSession& session, CConnman& connman
}
template <typename Message, int MessageType>
bool ProcessPendingMessageBatch(CConnman& connman, CDKGSession& session, CDKGPendingMessages& pendingMessages,
bool ProcessPendingMessageBatch(const CConnman& connman, CDKGSession& session, CDKGPendingMessages& pendingMessages,
PeerManager& peerman, size_t maxCount)
{
auto msgs = pendingMessages.PopAndDeserializeMessages<Message>(maxCount);

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@ -178,14 +178,15 @@ void CSigSharesNodeState::RemoveSession(const uint256& signHash)
//////////////////////
void CSigSharesManager::StartWorkerThread()
void CSigSharesManager::StartWorkerThread(CConnman& connman, PeerManager& peerman)
{
// can't start new thread if we have one running already
if (workThread.joinable()) {
assert(false);
}
workThread = std::thread(&util::TraceThread, "sigshares", [this] { WorkThreadMain(); });
workThread = std::thread(&util::TraceThread, "sigshares",
[this, &connman, &peerman] { WorkThreadMain(connman, peerman); });
}
void CSigSharesManager::StopWorkerThread()
@ -215,7 +216,8 @@ void CSigSharesManager::InterruptWorkerThread()
workInterrupt();
}
void CSigSharesManager::ProcessMessage(const CNode& pfrom, const CSporkManager& sporkman, const std::string& msg_type, CDataStream& vRecv)
void CSigSharesManager::ProcessMessage(const CNode& pfrom, PeerManager& peerman, const CSporkManager& sporkman,
const std::string& msg_type, CDataStream& vRecv)
{
// non-masternodes are not interested in sigshares
if (m_mn_activeman == nullptr) return;
@ -227,12 +229,12 @@ void CSigSharesManager::ProcessMessage(const CNode& pfrom, const CSporkManager&
if (receivedSigShares.size() > MAX_MSGS_SIG_SHARES) {
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- too many sigs in QSIGSHARE message. cnt=%d, max=%d, node=%d\n", __func__, receivedSigShares.size(), MAX_MSGS_SIG_SHARES, pfrom.GetId());
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
for (const auto& sigShare : receivedSigShares) {
ProcessMessageSigShare(pfrom.GetId(), sigShare);
ProcessMessageSigShare(pfrom.GetId(), peerman, sigShare);
}
}
@ -241,12 +243,12 @@ void CSigSharesManager::ProcessMessage(const CNode& pfrom, const CSporkManager&
vRecv >> msgs;
if (msgs.size() > MAX_MSGS_CNT_QSIGSESANN) {
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- too many announcements in QSIGSESANN message. cnt=%d, max=%d, node=%d\n", __func__, msgs.size(), MAX_MSGS_CNT_QSIGSESANN, pfrom.GetId());
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
if (!ranges::all_of(msgs,
[this, &pfrom](const auto& ann){ return ProcessMessageSigSesAnn(pfrom, ann); })) {
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
} else if (msg_type == NetMsgType::QSIGSHARESINV) {
@ -254,12 +256,12 @@ void CSigSharesManager::ProcessMessage(const CNode& pfrom, const CSporkManager&
vRecv >> msgs;
if (msgs.size() > MAX_MSGS_CNT_QSIGSHARESINV) {
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- too many invs in QSIGSHARESINV message. cnt=%d, max=%d, node=%d\n", __func__, msgs.size(), MAX_MSGS_CNT_QSIGSHARESINV, pfrom.GetId());
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
if (!ranges::all_of(msgs,
[this, &pfrom](const auto& inv){ return ProcessMessageSigSharesInv(pfrom, inv); })) {
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
} else if (msg_type == NetMsgType::QGETSIGSHARES) {
@ -267,12 +269,12 @@ void CSigSharesManager::ProcessMessage(const CNode& pfrom, const CSporkManager&
vRecv >> msgs;
if (msgs.size() > MAX_MSGS_CNT_QGETSIGSHARES) {
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- too many invs in QGETSIGSHARES message. cnt=%d, max=%d, node=%d\n", __func__, msgs.size(), MAX_MSGS_CNT_QGETSIGSHARES, pfrom.GetId());
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
if (!ranges::all_of(msgs,
[this, &pfrom](const auto& inv){ return ProcessMessageGetSigShares(pfrom, inv); })) {
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
} else if (msg_type == NetMsgType::QBSIGSHARES) {
@ -284,12 +286,12 @@ void CSigSharesManager::ProcessMessage(const CNode& pfrom, const CSporkManager&
}
if (totalSigsCount > MAX_MSGS_TOTAL_BATCHED_SIGS) {
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- too many sigs in QBSIGSHARES message. cnt=%d, max=%d, node=%d\n", __func__, msgs.size(), MAX_MSGS_TOTAL_BATCHED_SIGS, pfrom.GetId());
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
if (!ranges::all_of(msgs,
[this, &pfrom](const auto& bs){ return ProcessMessageBatchedSigShares(pfrom, bs); })) {
BanNode(pfrom.GetId());
BanNode(pfrom.GetId(), peerman);
return;
}
}
@ -454,7 +456,7 @@ bool CSigSharesManager::ProcessMessageBatchedSigShares(const CNode& pfrom, const
return true;
}
void CSigSharesManager::ProcessMessageSigShare(NodeId fromId, const CSigShare& sigShare)
void CSigSharesManager::ProcessMessageSigShare(NodeId fromId, PeerManager& peerman, const CSigShare& sigShare)
{
assert(m_mn_activeman);
@ -479,12 +481,12 @@ void CSigSharesManager::ProcessMessageSigShare(NodeId fromId, const CSigShare& s
if (sigShare.getQuorumMember() >= quorum->members.size()) {
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- quorumMember out of bounds\n", __func__);
BanNode(fromId);
BanNode(fromId, peerman);
return;
}
if (!quorum->qc->validMembers[sigShare.getQuorumMember()]) {
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- quorumMember not valid\n", __func__);
BanNode(fromId);
BanNode(fromId, peerman);
return;
}
@ -620,7 +622,7 @@ bool CSigSharesManager::CollectPendingSigSharesToVerify(
return true;
}
bool CSigSharesManager::ProcessPendingSigShares(const CConnman& connman)
bool CSigSharesManager::ProcessPendingSigShares(PeerManager& peerman, const CConnman& connman)
{
std::unordered_map<NodeId, std::vector<CSigShare>> sigSharesByNodes;
std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher> quorums;
@ -646,7 +648,7 @@ bool CSigSharesManager::ProcessPendingSigShares(const CConnman& connman)
// we didn't check this earlier because we use a lazy BLS signature and tried to avoid doing the expensive
// deserialization in the message thread
if (!sigShare.sigShare.Get().IsValid()) {
BanNode(nodeId);
BanNode(nodeId, peerman);
// don't process any additional shares from this node
break;
}
@ -678,25 +680,26 @@ bool CSigSharesManager::ProcessPendingSigShares(const CConnman& connman)
LogPrint(BCLog::LLMQ_SIGS, "CSigSharesManager::%s -- invalid sig shares from other node, banning peer=%d\n",
__func__, nodeId);
// this will also cause re-requesting of the shares that were sent by this node
BanNode(nodeId);
BanNode(nodeId, peerman);
continue;
}
ProcessPendingSigShares(v, quorums, connman);
ProcessPendingSigShares(v, quorums, peerman, connman);
}
return sigSharesByNodes.size() >= nMaxBatchSize;
}
// It's ensured that no duplicates are passed to this method
void CSigSharesManager::ProcessPendingSigShares(const std::vector<CSigShare>& sigSharesToProcess,
void CSigSharesManager::ProcessPendingSigShares(
const std::vector<CSigShare>& sigSharesToProcess,
const std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher>& quorums,
const CConnman& connman)
PeerManager& peerman, const CConnman& connman)
{
cxxtimer::Timer t(true);
for (const auto& sigShare : sigSharesToProcess) {
auto quorumKey = std::make_pair(sigShare.getLlmqType(), sigShare.getQuorumHash());
ProcessSigShare(sigShare, connman, quorums.at(quorumKey));
ProcessSigShare(peerman, sigShare, connman, quorums.at(quorumKey));
}
t.stop();
@ -705,7 +708,8 @@ void CSigSharesManager::ProcessPendingSigShares(const std::vector<CSigShare>& si
}
// sig shares are already verified when entering this method
void CSigSharesManager::ProcessSigShare(const CSigShare& sigShare, const CConnman& connman, const CQuorumCPtr& quorum)
void CSigSharesManager::ProcessSigShare(PeerManager& peerman, const CSigShare& sigShare, const CConnman& connman,
const CQuorumCPtr& quorum)
{
assert(m_mn_activeman);
@ -754,11 +758,12 @@ void CSigSharesManager::ProcessSigShare(const CSigShare& sigShare, const CConnma
}
if (canTryRecovery) {
TryRecoverSig(quorum, sigShare.getId(), sigShare.getMsgHash());
TryRecoverSig(peerman, quorum, sigShare.getId(), sigShare.getMsgHash());
}
}
void CSigSharesManager::TryRecoverSig(const CQuorumCPtr& quorum, const uint256& id, const uint256& msgHash)
void CSigSharesManager::TryRecoverSig(PeerManager& peerman, const CQuorumCPtr& quorum, const uint256& id,
const uint256& msgHash)
{
if (sigman.HasRecoveredSigForId(quorum->params.type, id)) {
return;
@ -817,7 +822,7 @@ void CSigSharesManager::TryRecoverSig(const CQuorumCPtr& quorum, const uint256&
}
}
sigman.ProcessRecoveredSig(rs, *m_peerman);
sigman.ProcessRecoveredSig(rs, peerman);
}
CDeterministicMNCPtr CSigSharesManager::SelectMemberForRecovery(const CQuorumCPtr& quorum, const uint256 &id, int attempt)
@ -1027,7 +1032,9 @@ void CSigSharesManager::CollectSigSharesToSendConcentrated(std::unordered_map<No
}
}
void CSigSharesManager::CollectSigSharesToAnnounce(std::unordered_map<NodeId, std::unordered_map<uint256, CSigSharesInv, StaticSaltedHasher>>& sigSharesToAnnounce)
void CSigSharesManager::CollectSigSharesToAnnounce(
const CConnman& connman,
std::unordered_map<NodeId, std::unordered_map<uint256, CSigSharesInv, StaticSaltedHasher>>& sigSharesToAnnounce)
{
AssertLockHeld(cs);
@ -1035,8 +1042,8 @@ void CSigSharesManager::CollectSigSharesToAnnounce(std::unordered_map<NodeId, st
// TODO: remove NO_THREAD_SAFETY_ANALYSIS
// using here template ForEach makes impossible to use lock annotation
sigSharesQueuedToAnnounce.ForEach([this, &quorumNodesMap, &sigSharesToAnnounce](const SigShareKey& sigShareKey,
bool) NO_THREAD_SAFETY_ANALYSIS {
sigSharesQueuedToAnnounce.ForEach([this, &connman, &quorumNodesMap,
&sigSharesToAnnounce](const SigShareKey& sigShareKey, bool) NO_THREAD_SAFETY_ANALYSIS {
AssertLockHeld(cs);
const auto& signHash = sigShareKey.first;
auto quorumMember = sigShareKey.second;
@ -1084,7 +1091,7 @@ void CSigSharesManager::CollectSigSharesToAnnounce(std::unordered_map<NodeId, st
sigSharesQueuedToAnnounce.Clear();
}
bool CSigSharesManager::SendMessages()
bool CSigSharesManager::SendMessages(CConnman& connman)
{
std::unordered_map<NodeId, std::unordered_map<uint256, CSigSharesInv, StaticSaltedHasher>> sigSharesToRequest;
std::unordered_map<NodeId, std::unordered_map<uint256, CBatchedSigShares, StaticSaltedHasher>> sigShareBatchesToSend;
@ -1113,7 +1120,7 @@ bool CSigSharesManager::SendMessages()
LOCK(cs);
CollectSigSharesToRequest(sigSharesToRequest);
CollectSigSharesToSend(sigShareBatchesToSend);
CollectSigSharesToAnnounce(sigSharesToAnnounce);
CollectSigSharesToAnnounce(connman, sigSharesToAnnounce);
CollectSigSharesToSendConcentrated(sigSharesToSend, snap.Nodes());
for (auto& [nodeId, sigShareMap] : sigSharesToRequest) {
@ -1254,7 +1261,7 @@ CSigShare CSigSharesManager::RebuildSigShare(const CSigSharesNodeState::SessionI
return sigShare;
}
void CSigSharesManager::Cleanup()
void CSigSharesManager::Cleanup(const CConnman& connman)
{
int64_t now = GetTime<std::chrono::seconds>().count();
if (now - lastCleanupTime < 5) {
@ -1407,13 +1414,13 @@ void CSigSharesManager::RemoveSigSharesForSession(const uint256& signHash)
timeSeenForSessions.erase(signHash);
}
void CSigSharesManager::RemoveBannedNodeStates()
void CSigSharesManager::RemoveBannedNodeStates(PeerManager& peerman)
{
// Called regularly to cleanup local node states for banned nodes
LOCK(cs);
for (auto it = nodeStates.begin(); it != nodeStates.end();) {
if (Assert(m_peerman)->IsBanned(it->first)) {
if (peerman.IsBanned(it->first)) {
// re-request sigshares from other nodes
// TODO: remove NO_THREAD_SAFETY_ANALYSIS
// using here template ForEach makes impossible to use lock annotation
@ -1428,23 +1435,21 @@ void CSigSharesManager::RemoveBannedNodeStates()
}
}
void CSigSharesManager::BanNode(NodeId nodeId)
void CSigSharesManager::BanNode(NodeId nodeId, PeerManager& peerman)
{
if (nodeId == -1) {
return;
}
{
Assert(m_peerman)->Misbehaving(nodeId, 100);
}
peerman.Misbehaving(nodeId, 100);
LOCK(cs);
auto it = nodeStates.find(nodeId);
if (it == nodeStates.end()) {
return;
}
auto& nodeState = it->second;
auto& nodeState = it->second;
// Whatever we requested from him, let's request it from someone else now
// TODO: remove NO_THREAD_SAFETY_ANALYSIS
// using here template ForEach makes impossible to use lock annotation
@ -1453,26 +1458,25 @@ void CSigSharesManager::BanNode(NodeId nodeId)
sigSharesRequested.Erase(k);
});
nodeState.requestedSigShares.Clear();
nodeState.banned = true;
}
void CSigSharesManager::WorkThreadMain()
void CSigSharesManager::WorkThreadMain(CConnman& connman, PeerManager& peerman)
{
int64_t lastSendTime = 0;
while (!workInterrupt) {
RemoveBannedNodeStates();
RemoveBannedNodeStates(peerman);
bool fMoreWork = ProcessPendingSigShares(connman);
SignPendingSigShares();
bool fMoreWork = ProcessPendingSigShares(peerman, connman);
SignPendingSigShares(connman, peerman);
if (GetTimeMillis() - lastSendTime > 100) {
SendMessages();
SendMessages(connman);
lastSendTime = GetTimeMillis();
}
Cleanup();
Cleanup(connman);
// TODO Wakeup when pending signing is needed?
if (!fMoreWork && !workInterrupt.sleep_for(std::chrono::milliseconds(100))) {
@ -1487,7 +1491,7 @@ void CSigSharesManager::AsyncSign(const CQuorumCPtr& quorum, const uint256& id,
pendingSigns.emplace_back(quorum, id, msgHash);
}
void CSigSharesManager::SignPendingSigShares()
void CSigSharesManager::SignPendingSigShares(const CConnman& connman, PeerManager& peerman)
{
std::vector<PendingSignatureData> v;
WITH_LOCK(cs_pendingSigns, v.swap(pendingSigns));
@ -1497,7 +1501,7 @@ void CSigSharesManager::SignPendingSigShares()
if (opt_sigShare.has_value() && opt_sigShare->sigShare.Get().IsValid()) {
auto sigShare = *opt_sigShare;
ProcessSigShare(sigShare, connman, pQuorum);
ProcessSigShare(peerman, sigShare, connman, pQuorum);
if (IsAllMembersConnectedEnabled(pQuorum->params.type, m_sporkman)) {
LOCK(cs);

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@ -404,34 +404,35 @@ private:
FastRandomContext rnd GUARDED_BY(cs);
CConnman& connman;
CSigningManager& sigman;
const CActiveMasternodeManager* const m_mn_activeman;
const CQuorumManager& qman;
const CSporkManager& m_sporkman;
const std::unique_ptr<PeerManager>& m_peerman;
int64_t lastCleanupTime{0};
std::atomic<uint32_t> recoveredSigsCounter{0};
public:
explicit CSigSharesManager(CConnman& _connman, CSigningManager& _sigman, const CActiveMasternodeManager* const mn_activeman,
const CQuorumManager& _qman, const CSporkManager& sporkman, const std::unique_ptr<PeerManager>& peerman) :
connman(_connman), sigman(_sigman), m_mn_activeman(mn_activeman), qman(_qman), m_sporkman(sporkman), m_peerman(peerman)
explicit CSigSharesManager(CSigningManager& _sigman, const CActiveMasternodeManager* const mn_activeman,
const CQuorumManager& _qman, const CSporkManager& sporkman) :
sigman(_sigman),
m_mn_activeman(mn_activeman),
qman(_qman),
m_sporkman(sporkman)
{
workInterrupt.reset();
};
CSigSharesManager() = delete;
~CSigSharesManager() override = default;
void StartWorkerThread();
void StartWorkerThread(CConnman& connman, PeerManager& peerman);
void StopWorkerThread();
void RegisterAsRecoveredSigsListener();
void UnregisterAsRecoveredSigsListener();
void InterruptWorkerThread();
void ProcessMessage(const CNode& pnode, const CSporkManager& sporkman, const std::string& msg_type, CDataStream& vRecv);
void ProcessMessage(const CNode& pnode, PeerManager& peerman, const CSporkManager& sporkman,
const std::string& msg_type, CDataStream& vRecv);
void AsyncSign(const CQuorumCPtr& quorum, const uint256& id, const uint256& msgHash);
std::optional<CSigShare> CreateSigShare(const CQuorumCPtr& quorum, const uint256& id, const uint256& msgHash) const;
@ -447,7 +448,7 @@ private:
bool ProcessMessageSigSharesInv(const CNode& pfrom, const CSigSharesInv& inv);
bool ProcessMessageGetSigShares(const CNode& pfrom, const CSigSharesInv& inv);
bool ProcessMessageBatchedSigShares(const CNode& pfrom, const CBatchedSigShares& batchedSigShares);
void ProcessMessageSigShare(NodeId fromId, const CSigShare& sigShare);
void ProcessMessageSigShare(NodeId fromId, PeerManager& peerman, const CSigShare& sigShare);
static bool VerifySigSharesInv(Consensus::LLMQType llmqType, const CSigSharesInv& inv);
static bool PreVerifyBatchedSigShares(const CActiveMasternodeManager& mn_activeman, const CQuorumManager& quorum_manager,
@ -456,31 +457,36 @@ private:
bool CollectPendingSigSharesToVerify(
size_t maxUniqueSessions, std::unordered_map<NodeId, std::vector<CSigShare>>& retSigShares,
std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher>& retQuorums);
bool ProcessPendingSigShares(const CConnman& connman);
bool ProcessPendingSigShares(PeerManager& peerman, const CConnman& connman);
void ProcessPendingSigShares(const std::vector<CSigShare>& sigSharesToProcess,
void ProcessPendingSigShares(
const std::vector<CSigShare>& sigSharesToProcess,
const std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher>& quorums,
const CConnman& connman);
PeerManager& peerman, const CConnman& connman);
void ProcessSigShare(const CSigShare& sigShare, const CConnman& connman, const CQuorumCPtr& quorum);
void TryRecoverSig(const CQuorumCPtr& quorum, const uint256& id, const uint256& msgHash);
void ProcessSigShare(PeerManager& peerman, const CSigShare& sigShare, const CConnman& connman,
const CQuorumCPtr& quorum);
void TryRecoverSig(PeerManager& peerman, const CQuorumCPtr& quorum, const uint256& id, const uint256& msgHash);
bool GetSessionInfoByRecvId(NodeId nodeId, uint32_t sessionId, CSigSharesNodeState::SessionInfo& retInfo);
static CSigShare RebuildSigShare(const CSigSharesNodeState::SessionInfo& session, const std::pair<uint16_t, CBLSLazySignature>& in);
void Cleanup();
void Cleanup(const CConnman& connman);
void RemoveSigSharesForSession(const uint256& signHash) EXCLUSIVE_LOCKS_REQUIRED(cs);
void RemoveBannedNodeStates();
void RemoveBannedNodeStates(PeerManager& peerman);
void BanNode(NodeId nodeId);
void BanNode(NodeId nodeId, PeerManager& peerman);
bool SendMessages();
bool SendMessages(CConnman& connman);
void CollectSigSharesToRequest(std::unordered_map<NodeId, std::unordered_map<uint256, CSigSharesInv, StaticSaltedHasher>>& sigSharesToRequest) EXCLUSIVE_LOCKS_REQUIRED(cs);
void CollectSigSharesToSend(std::unordered_map<NodeId, std::unordered_map<uint256, CBatchedSigShares, StaticSaltedHasher>>& sigSharesToSend) EXCLUSIVE_LOCKS_REQUIRED(cs);
void CollectSigSharesToSendConcentrated(std::unordered_map<NodeId, std::vector<CSigShare>>& sigSharesToSend, const std::vector<CNode*>& vNodes) EXCLUSIVE_LOCKS_REQUIRED(cs);
void CollectSigSharesToAnnounce(std::unordered_map<NodeId, std::unordered_map<uint256, CSigSharesInv, StaticSaltedHasher>>& sigSharesToAnnounce) EXCLUSIVE_LOCKS_REQUIRED(cs);
void SignPendingSigShares();
void WorkThreadMain();
void CollectSigSharesToAnnounce(
const CConnman& connman,
std::unordered_map<NodeId, std::unordered_map<uint256, CSigSharesInv, StaticSaltedHasher>>& sigSharesToAnnounce)
EXCLUSIVE_LOCKS_REQUIRED(cs);
void SignPendingSigShares(const CConnman& connman, PeerManager& peerman);
void WorkThreadMain(CConnman& connman, PeerManager& peerman);
};
} // namespace llmq

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@ -4651,13 +4651,13 @@ void CConnman::SetMasternodeQuorumRelayMembers(Consensus::LLMQType llmqType, con
});
}
bool CConnman::HasMasternodeQuorumNodes(Consensus::LLMQType llmqType, const uint256& quorumHash)
bool CConnman::HasMasternodeQuorumNodes(Consensus::LLMQType llmqType, const uint256& quorumHash) const
{
LOCK(cs_vPendingMasternodes);
return masternodeQuorumNodes.count(std::make_pair(llmqType, quorumHash));
}
std::set<uint256> CConnman::GetMasternodeQuorums(Consensus::LLMQType llmqType)
std::set<uint256> CConnman::GetMasternodeQuorums(Consensus::LLMQType llmqType) const
{
LOCK(cs_vPendingMasternodes);
std::set<uint256> result;
@ -4700,7 +4700,7 @@ void CConnman::RemoveMasternodeQuorumNodes(Consensus::LLMQType llmqType, const u
masternodeQuorumRelayMembers.erase(std::make_pair(llmqType, quorumHash));
}
bool CConnman::IsMasternodeQuorumNode(const CNode* pnode, const CDeterministicMNList& tip_mn_list)
bool CConnman::IsMasternodeQuorumNode(const CNode* pnode, const CDeterministicMNList& tip_mn_list) const
{
// Let's see if this is an outgoing connection to an address that is known to be a masternode
// We however only need to know this if the node did not authenticate itself as a MN yet

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@ -1503,12 +1503,12 @@ public:
bool AddPendingMasternode(const uint256& proTxHash);
void SetMasternodeQuorumNodes(Consensus::LLMQType llmqType, const uint256& quorumHash, const std::set<uint256>& proTxHashes);
void SetMasternodeQuorumRelayMembers(Consensus::LLMQType llmqType, const uint256& quorumHash, const std::set<uint256>& proTxHashes);
bool HasMasternodeQuorumNodes(Consensus::LLMQType llmqType, const uint256& quorumHash);
std::set<uint256> GetMasternodeQuorums(Consensus::LLMQType llmqType);
bool HasMasternodeQuorumNodes(Consensus::LLMQType llmqType, const uint256& quorumHash) const;
std::set<uint256> GetMasternodeQuorums(Consensus::LLMQType llmqType) const;
// also returns QWATCH nodes
std::set<NodeId> GetMasternodeQuorumNodes(Consensus::LLMQType llmqType, const uint256& quorumHash) const;
void RemoveMasternodeQuorumNodes(Consensus::LLMQType llmqType, const uint256& quorumHash);
bool IsMasternodeQuorumNode(const CNode* pnode, const CDeterministicMNList& tip_mn_list);
bool IsMasternodeQuorumNode(const CNode* pnode, const CDeterministicMNList& tip_mn_list) const;
bool IsMasternodeQuorumRelayMember(const uint256& protxHash);
void AddPendingProbeConnections(const std::set<uint256>& proTxHashes);

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@ -5264,7 +5264,7 @@ void PeerManagerImpl::ProcessMessage(
PostProcessMessage(m_llmq_ctx->quorum_block_processor->ProcessMessage(pfrom, msg_type, vRecv), pfrom.GetId());
ProcessPeerMsgRet(m_llmq_ctx->qdkgsman->ProcessMessage(pfrom, *this, is_masternode, msg_type, vRecv), pfrom);
ProcessPeerMsgRet(m_llmq_ctx->qman->ProcessMessage(pfrom, m_connman, msg_type, vRecv), pfrom);
m_llmq_ctx->shareman->ProcessMessage(pfrom, m_sporkman, msg_type, vRecv);
m_llmq_ctx->shareman->ProcessMessage(pfrom, *this, m_sporkman, msg_type, vRecv);
ProcessPeerMsgRet(m_llmq_ctx->sigman->ProcessMessage(pfrom, *this, msg_type, vRecv), pfrom);
if (msg_type == NetMsgType::CLSIG) {