// Copyright (c) 2018-2022 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace llmq { std::unique_ptr quorumBlockProcessor; static const std::string DB_MINED_COMMITMENT = "q_mc"; static const std::string DB_MINED_COMMITMENT_BY_INVERSED_HEIGHT = "q_mcih"; static const std::string DB_MINED_COMMITMENT_BY_INVERSED_HEIGHT_Q_INDEXED = "q_mcihi"; static const std::string DB_BEST_BLOCK_UPGRADE = "q_bbu2"; CQuorumBlockProcessor::CQuorumBlockProcessor(CEvoDB &_evoDb, CConnman& _connman) : evoDb(_evoDb), connman(_connman) { utils::InitQuorumsCache(mapHasMinedCommitmentCache); } void CQuorumBlockProcessor::ProcessMessage(CNode* pfrom, const std::string& msg_type, CDataStream& vRecv) { if (msg_type != NetMsgType::QFCOMMITMENT) { return; } CFinalCommitment qc; vRecv >> qc; WITH_LOCK(cs_main, EraseObjectRequest(pfrom->GetId(), CInv(MSG_QUORUM_FINAL_COMMITMENT, ::SerializeHash(qc)))); if (qc.IsNull()) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- null commitment from peer=%d\n", __func__, pfrom->GetId()); WITH_LOCK(cs_main, Misbehaving(pfrom->GetId(), 100)); return; } if (!Params().HasLLMQ(qc.llmqType)) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- invalid commitment type %d from peer=%d\n", __func__, uint8_t(qc.llmqType), pfrom->GetId()); WITH_LOCK(cs_main, Misbehaving(pfrom->GetId(), 100)); return; } auto type = qc.llmqType; // Verify that quorumHash is part of the active chain and that it's the first block in the DKG interval const CBlockIndex* pQuorumBaseBlockIndex; { LOCK(cs_main); pQuorumBaseBlockIndex = LookupBlockIndex(qc.quorumHash); if (pQuorumBaseBlockIndex == nullptr) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- unknown block %s in commitment, peer=%d\n", __func__, qc.quorumHash.ToString(), pfrom->GetId()); // can't really punish the node here, as we might simply be the one that is on the wrong chain or not // fully synced return; } if (::ChainActive().Tip()->GetAncestor(pQuorumBaseBlockIndex->nHeight) != pQuorumBaseBlockIndex) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- block %s not in active chain, peer=%d\n", __func__, qc.quorumHash.ToString(), pfrom->GetId()); // same, can't punish return; } int quorumHeight = pQuorumBaseBlockIndex->nHeight - (pQuorumBaseBlockIndex->nHeight % GetLLMQParams(type).dkgInterval) + int(qc.quorumIndex); if (quorumHeight != pQuorumBaseBlockIndex->nHeight) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- block %s is not the first block in the DKG interval, peer=%d\n", __func__, qc.quorumHash.ToString(), pfrom->GetId()); Misbehaving(pfrom->GetId(), 100); return; } } { // Check if we already got a better one locally // We do this before verifying the commitment to avoid DoS LOCK(minableCommitmentsCs); auto k = std::make_pair(type, qc.quorumHash); auto it = minableCommitmentsByQuorum.find(k); if (it != minableCommitmentsByQuorum.end()) { auto jt = minableCommitments.find(it->second); if (jt != minableCommitments.end() && jt->second.CountSigners() <= qc.CountSigners()) { return; } } } if (!qc.Verify(pQuorumBaseBlockIndex, true)) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- commitment for quorum %s:%d is not valid quorumIndex[%d] nversion[%d], peer=%d\n", __func__, qc.quorumHash.ToString(), uint8_t(qc.llmqType), qc.quorumIndex, qc.nVersion, pfrom->GetId()); WITH_LOCK(cs_main, Misbehaving(pfrom->GetId(), 100)); return; } LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- received commitment for quorum %s:%d, validMembers=%d, signers=%d, peer=%d\n", __func__, qc.quorumHash.ToString(), uint8_t(qc.llmqType), qc.CountValidMembers(), qc.CountSigners(), pfrom->GetId()); AddMineableCommitment(qc); } bool CQuorumBlockProcessor::ProcessBlock(const CBlock& block, const CBlockIndex* pindex, CValidationState& state, bool fJustCheck, bool fBLSChecks) { AssertLockHeld(cs_main); bool fDIP0003Active = pindex->nHeight >= Params().GetConsensus().DIP0003Height; if (!fDIP0003Active) { evoDb.Write(DB_BEST_BLOCK_UPGRADE, block.GetHash()); return true; } llmq::utils::PreComputeQuorumMembers(pindex); std::multimap qcs; if (!GetCommitmentsFromBlock(block, pindex, qcs, state)) { return false; } auto blockHash = block.GetHash(); // The following checks make sure that there is always a (possibly null) commitment while in the mining phase // until the first non-null commitment has been mined. After the non-null commitment, no other commitments are // allowed, including null commitments. // Note: must only check quorums that were enabled at the _previous_ block height to match mining logic for (const Consensus::LLMQParams& params : utils::GetEnabledQuorumParams(pindex->pprev)) { // skip these checks when replaying blocks after the crash if (::ChainActive().Tip() == nullptr) { break; } const size_t numCommitmentsRequired = GetNumCommitmentsRequired(params, pindex->nHeight); const auto numCommitmentsInNewBlock = qcs.count(params.type); if (numCommitmentsRequired < numCommitmentsInNewBlock) { return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-not-allowed"); } if (numCommitmentsRequired > numCommitmentsInNewBlock) { return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-missing"); } if (llmq::utils::IsQuorumRotationEnabled(params.type, pindex)) { LogPrintf("[ProcessBlock] h[%d] numCommitmentsRequired[%d] numCommitmentsInNewBlock[%d]\n", pindex->nHeight, numCommitmentsRequired, numCommitmentsInNewBlock); } } for (const auto& p : qcs) { const auto& qc = p.second; if (!ProcessCommitment(pindex->nHeight, blockHash, qc, state, fJustCheck, fBLSChecks)) { LogPrintf("[ProcessBlock] failed h[%d] llmqType[%d] version[%d] quorumIndex[%d] quorumHash[%s]\n", pindex->nHeight, static_cast(qc.llmqType), qc.nVersion, qc.quorumIndex, qc.quorumHash.ToString()); return false; } } evoDb.Write(DB_BEST_BLOCK_UPGRADE, blockHash); return true; } // We store a mapping from minedHeight->quorumHeight in the DB // minedHeight is inversed so that entries are traversable in reversed order static std::tuple BuildInversedHeightKey(Consensus::LLMQType llmqType, int nMinedHeight) { // nMinedHeight must be converted to big endian to make it comparable when serialized return std::make_tuple(DB_MINED_COMMITMENT_BY_INVERSED_HEIGHT, llmqType, htobe32(std::numeric_limits::max() - nMinedHeight)); } static std::tuple BuildInversedHeightKeyIndexed(Consensus::LLMQType llmqType, int nMinedHeight, int quorumIndex) { // nMinedHeight must be converted to big endian to make it comparable when serialized return std::make_tuple(DB_MINED_COMMITMENT_BY_INVERSED_HEIGHT_Q_INDEXED, llmqType, quorumIndex, htobe32(std::numeric_limits::max() - nMinedHeight)); } bool CQuorumBlockProcessor::ProcessCommitment(int nHeight, const uint256& blockHash, const CFinalCommitment& qc, CValidationState& state, bool fJustCheck, bool fBLSChecks) { AssertLockHeld(cs_main); const auto& llmq_params = GetLLMQParams(qc.llmqType); uint256 quorumHash = GetQuorumBlockHash(llmq_params, nHeight, qc.quorumIndex); LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s height=%d, type=%d, quorumIndex=%d, quorumHash=%s, signers=%s, validMembers=%d, quorumPublicKey=%s fJustCheck[%d] processing commitment from block.\n", __func__, nHeight, uint8_t(qc.llmqType), qc.quorumIndex, quorumHash.ToString(), qc.CountSigners(), qc.CountValidMembers(), qc.quorumPublicKey.ToString(), fJustCheck); // skip `bad-qc-block` checks below when replaying blocks after the crash if (::ChainActive().Tip() == nullptr) { quorumHash = qc.quorumHash; } if (quorumHash.IsNull()) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s height=%d, type=%d, quorumIndex=%d, quorumHash=%s, signers=%s, validMembers=%d, quorumPublicKey=%s quorumHash is null.\n", __func__, nHeight, uint8_t(qc.llmqType), qc.quorumIndex, quorumHash.ToString(), qc.CountSigners(), qc.CountValidMembers(), qc.quorumPublicKey.ToString()); return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-block"); } if (quorumHash != qc.quorumHash) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s height=%d, type=%d, quorumIndex=%d, quorumHash=%s, qc.quorumHash=%s signers=%s, validMembers=%d, quorumPublicKey=%s non equal quorumHash.\n", __func__, nHeight, uint8_t(qc.llmqType), qc.quorumIndex, quorumHash.ToString(), qc.quorumHash.ToString(), qc.CountSigners(), qc.CountValidMembers(), qc.quorumPublicKey.ToString()); return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-block"); } if (qc.IsNull()) { if (!qc.VerifyNull()) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s height=%d, type=%d, quorumIndex=%d, quorumHash=%s, signers=%s, validMembers=%dqc verifynull failed.\n", __func__, nHeight, uint8_t(qc.llmqType), qc.quorumIndex, quorumHash.ToString(), qc.CountSigners(), qc.CountValidMembers()); return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-invalid-null"); } return true; } if (HasMinedCommitment(llmq_params.type, quorumHash)) { // should not happen as it's already handled in ProcessBlock return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-dup"); } if (!IsMiningPhase(llmq_params, nHeight)) { // should not happen as it's already handled in ProcessBlock return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-height"); } const auto* pQuorumBaseBlockIndex = LookupBlockIndex(qc.quorumHash); if (!qc.Verify(pQuorumBaseBlockIndex, fBLSChecks)) { LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s height=%d, type=%d, quorumIndex=%d, quorumHash=%s, signers=%s, validMembers=%d, quorumPublicKey=%s qc verify failed.\n", __func__, nHeight, uint8_t(qc.llmqType), qc.quorumIndex, quorumHash.ToString(), qc.CountSigners(), qc.CountValidMembers(), qc.quorumPublicKey.ToString()); return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-invalid"); } if (fJustCheck) { return true; } bool rotation_enabled = utils::IsQuorumRotationEnabled(llmq_params.type, pQuorumBaseBlockIndex); if (rotation_enabled) { LogPrint(BCLog::LLMQ, "[ProcessCommitment] height[%d] pQuorumBaseBlockIndex[%d] quorumIndex[%d] qversion[%d] Built\n", nHeight, pQuorumBaseBlockIndex->nHeight, qc.quorumIndex, qc.nVersion); } // Store commitment in DB auto cacheKey = std::make_pair(llmq_params.type, quorumHash); evoDb.Write(std::make_pair(DB_MINED_COMMITMENT, cacheKey), std::make_pair(qc, blockHash)); if (rotation_enabled) { evoDb.Write(BuildInversedHeightKeyIndexed(llmq_params.type, nHeight, int(qc.quorumIndex)), pQuorumBaseBlockIndex->nHeight); } else { evoDb.Write(BuildInversedHeightKey(llmq_params.type, nHeight), pQuorumBaseBlockIndex->nHeight); } { LOCK(minableCommitmentsCs); mapHasMinedCommitmentCache[qc.llmqType].erase(qc.quorumHash); minableCommitmentsByQuorum.erase(cacheKey); minableCommitments.erase(::SerializeHash(qc)); } LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s -- processed commitment from block. type=%d, quorumIndex=%d, quorumHash=%s, signers=%s, validMembers=%d, quorumPublicKey=%s\n", __func__, uint8_t(qc.llmqType), qc.quorumIndex, quorumHash.ToString(), qc.CountSigners(), qc.CountValidMembers(), qc.quorumPublicKey.ToString()); return true; } bool CQuorumBlockProcessor::UndoBlock(const CBlock& block, const CBlockIndex* pindex) { AssertLockHeld(cs_main); llmq::utils::PreComputeQuorumMembers(pindex, true); std::multimap qcs; CValidationState dummy; if (!GetCommitmentsFromBlock(block, pindex, qcs, dummy)) { return false; } for (auto& p : qcs) { auto& qc = p.second; if (qc.IsNull()) { continue; } evoDb.Erase(std::make_pair(DB_MINED_COMMITMENT, std::make_pair(qc.llmqType, qc.quorumHash))); if (llmq::utils::IsQuorumRotationEnabled(qc.llmqType, pindex)) { evoDb.Erase(BuildInversedHeightKeyIndexed(qc.llmqType, pindex->nHeight, int(qc.quorumIndex))); } else { evoDb.Erase(BuildInversedHeightKey(qc.llmqType, pindex->nHeight)); } { LOCK(minableCommitmentsCs); mapHasMinedCommitmentCache[qc.llmqType].erase(qc.quorumHash); } // if a reorg happened, we should allow to mine this commitment later AddMineableCommitment(qc); } evoDb.Write(DB_BEST_BLOCK_UPGRADE, pindex->pprev->GetBlockHash()); return true; } // TODO remove this with 0.15.0 bool CQuorumBlockProcessor::UpgradeDB() { LOCK(cs_main); if (::ChainActive().Tip() == nullptr) { // should have no records return evoDb.IsEmpty(); } uint256 bestBlock; if (evoDb.GetRawDB().Read(DB_BEST_BLOCK_UPGRADE, bestBlock) && bestBlock == ::ChainActive().Tip()->GetBlockHash()) { return true; } LogPrintf("CQuorumBlockProcessor::%s -- Upgrading DB...\n", __func__); if (::ChainActive().Height() >= Params().GetConsensus().DIP0003EnforcementHeight) { const auto* pindex = ::ChainActive()[Params().GetConsensus().DIP0003EnforcementHeight]; while (pindex != nullptr) { if (fPruneMode && ((pindex->nStatus & BLOCK_HAVE_DATA) == 0)) { // Too late, we already pruned blocks we needed to reprocess commitments return false; } CBlock block; bool r = ReadBlockFromDisk(block, pindex, Params().GetConsensus()); assert(r); std::multimap qcs; CValidationState dummyState; GetCommitmentsFromBlock(block, pindex, qcs, dummyState); for (const auto& p : qcs) { const auto& qc = p.second; if (qc.IsNull()) { continue; } const auto* pQuorumBaseBlockIndex = LookupBlockIndex(qc.quorumHash); evoDb.GetRawDB().Write(std::make_pair(DB_MINED_COMMITMENT, std::make_pair(qc.llmqType, qc.quorumHash)), std::make_pair(qc, pindex->GetBlockHash())); if (llmq::utils::IsQuorumRotationEnabled(qc.llmqType, pQuorumBaseBlockIndex)) { evoDb.GetRawDB().Write(BuildInversedHeightKeyIndexed(qc.llmqType, pindex->nHeight, int(qc.quorumIndex)), pQuorumBaseBlockIndex->nHeight); } else { evoDb.GetRawDB().Write(BuildInversedHeightKey(qc.llmqType, pindex->nHeight), pQuorumBaseBlockIndex->nHeight); } } evoDb.GetRawDB().Write(DB_BEST_BLOCK_UPGRADE, pindex->GetBlockHash()); pindex = ::ChainActive().Next(pindex); } } LogPrintf("CQuorumBlockProcessor::%s -- Upgrade done...\n", __func__); return true; } bool CQuorumBlockProcessor::GetCommitmentsFromBlock(const CBlock& block, const CBlockIndex* pindex, std::multimap& ret, CValidationState& state) { AssertLockHeld(cs_main); const auto& consensus = Params().GetConsensus(); ret.clear(); for (const auto& tx : block.vtx) { if (tx->nType == TRANSACTION_QUORUM_COMMITMENT) { CFinalCommitmentTxPayload qc; if (!GetTxPayload(*tx, qc)) { // should not happen as it was verified before processing the block LogPrint(BCLog::LLMQ, "CQuorumBlockProcessor::%s height=%d GetTxPayload fails\n", __func__, pindex->nHeight); return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-payload"); } // only allow one commitment per type and per block (This was changed with rotation) if (!utils::IsQuorumRotationEnabled(qc.commitment.llmqType, pindex)) { if (ret.count(qc.commitment.llmqType) != 0) { return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-dup"); } } ret.emplace(qc.commitment.llmqType, std::move(qc.commitment)); } } if (pindex->nHeight < consensus.DIP0003Height && !ret.empty()) { return state.Invalid(ValidationInvalidReason::CONSENSUS, false, REJECT_INVALID, "bad-qc-premature"); } return true; } bool CQuorumBlockProcessor::IsMiningPhase(const Consensus::LLMQParams& llmqParams, int nHeight) { AssertLockHeld(cs_main); // Note: This function can be called for new blocks assert(nHeight <= ::ChainActive().Height() + 1); int quorumCycleStartHeight = nHeight - (nHeight % llmqParams.dkgInterval); int quorumCycleMiningStartHeight = quorumCycleStartHeight + llmqParams.dkgMiningWindowStart; int quorumCycleMiningEndHeight = quorumCycleStartHeight + llmqParams.dkgMiningWindowEnd; if (nHeight >= quorumCycleMiningStartHeight && nHeight <= quorumCycleMiningEndHeight) { LogPrint(BCLog::LLMQ, "[IsMiningPhase] nHeight[%d] llmqType[%d] quorumCycleStartHeight[%d] -- mining[%d-%d]\n", nHeight, int(llmqParams.type), quorumCycleStartHeight, quorumCycleMiningStartHeight, quorumCycleMiningEndHeight); return true; } LogPrint(BCLog::LLMQ, "[IsMiningPhase] nHeight[%d] llmqType[%d] quorumCycleStartHeight[%d] -- NOT mining[%d-%d]\n", nHeight, int(llmqParams.type), quorumCycleStartHeight, quorumCycleMiningStartHeight, quorumCycleMiningEndHeight); return false; } size_t CQuorumBlockProcessor::GetNumCommitmentsRequired(const Consensus::LLMQParams& llmqParams, int nHeight) const { AssertLockHeld(cs_main); if (!IsMiningPhase(llmqParams, nHeight)) return 0; // Note: This function can be called for new blocks assert(nHeight <= ::ChainActive().Height() + 1); const auto *const pindex = ::ChainActive().Height() < nHeight ? ::ChainActive().Tip() : ::ChainActive().Tip()->GetAncestor(nHeight); bool rotation_enabled = utils::IsQuorumRotationEnabled(llmqParams.type, pindex); size_t quorums_num = rotation_enabled ? llmqParams.signingActiveQuorumCount : 1; size_t ret{0}; for (const auto quorumIndex : irange::range(quorums_num)) { uint256 quorumHash = GetQuorumBlockHash(llmqParams, nHeight, quorumIndex); if (!quorumHash.IsNull() && !HasMinedCommitment(llmqParams.type, quorumHash)) ++ret; } return ret; } // WARNING: This method returns uint256() on the first block of the DKG interval (because the block hash is not known yet) uint256 CQuorumBlockProcessor::GetQuorumBlockHash(const Consensus::LLMQParams& llmqParams, int nHeight, int quorumIndex) { AssertLockHeld(cs_main); int quorumStartHeight = nHeight - (nHeight % llmqParams.dkgInterval) + quorumIndex; uint256 quorumBlockHash; if (!GetBlockHash(quorumBlockHash, quorumStartHeight)) { LogPrint(BCLog::LLMQ, "[GetQuorumBlockHash] llmqType[%d] h[%d] qi[%d] quorumStartHeight[%d] quorumHash[EMPTY]\n", int(llmqParams.type), nHeight, quorumIndex, quorumStartHeight); return {}; } LogPrint(BCLog::LLMQ, "[GetQuorumBlockHash] llmqType[%d] h[%d] qi[%d] quorumStartHeight[%d] quorumHash[%s]\n", int(llmqParams.type), nHeight, quorumIndex, quorumStartHeight, quorumBlockHash.ToString()); return quorumBlockHash; } bool CQuorumBlockProcessor::HasMinedCommitment(Consensus::LLMQType llmqType, const uint256& quorumHash) const { bool fExists; { LOCK(minableCommitmentsCs); if (mapHasMinedCommitmentCache[llmqType].get(quorumHash, fExists)) { return fExists; } } fExists = evoDb.Exists(std::make_pair(DB_MINED_COMMITMENT, std::make_pair(llmqType, quorumHash))); LOCK(minableCommitmentsCs); mapHasMinedCommitmentCache[llmqType].insert(quorumHash, fExists); return fExists; } CFinalCommitmentPtr CQuorumBlockProcessor::GetMinedCommitment(Consensus::LLMQType llmqType, const uint256& quorumHash, uint256& retMinedBlockHash) const { auto key = std::make_pair(DB_MINED_COMMITMENT, std::make_pair(llmqType, quorumHash)); std::pair p; if (!evoDb.Read(key, p)) { return nullptr; } retMinedBlockHash = p.second; return std::make_unique(p.first); } // The returned quorums are in reversed order, so the most recent one is at index 0 std::vector CQuorumBlockProcessor::GetMinedCommitmentsUntilBlock(Consensus::LLMQType llmqType, const CBlockIndex* pindex, size_t maxCount) const { LOCK(evoDb.cs); auto dbIt = evoDb.GetCurTransaction().NewIteratorUniquePtr(); auto firstKey = BuildInversedHeightKey(llmqType, pindex->nHeight); auto lastKey = BuildInversedHeightKey(llmqType, 0); dbIt->Seek(firstKey); std::vector ret; ret.reserve(maxCount); while (dbIt->Valid() && ret.size() < maxCount) { decltype(firstKey) curKey; int quorumHeight; if (!dbIt->GetKey(curKey) || curKey >= lastKey) { break; } if (std::get<0>(curKey) != DB_MINED_COMMITMENT_BY_INVERSED_HEIGHT || std::get<1>(curKey) != llmqType) { break; } uint32_t nMinedHeight = std::numeric_limits::max() - be32toh(std::get<2>(curKey)); if (nMinedHeight > uint32_t(pindex->nHeight)) { break; } if (!dbIt->GetValue(quorumHeight)) { break; } const auto* pQuorumBaseBlockIndex = pindex->GetAncestor(quorumHeight); assert(pQuorumBaseBlockIndex); ret.emplace_back(pQuorumBaseBlockIndex); dbIt->Next(); } return ret; } std::optional CQuorumBlockProcessor::GetLastMinedCommitmentsByQuorumIndexUntilBlock(Consensus::LLMQType llmqType, const CBlockIndex* pindex, int quorumIndex, size_t cycle) const { LOCK(evoDb.cs); auto dbIt = evoDb.GetCurTransaction().NewIteratorUniquePtr(); auto firstKey = BuildInversedHeightKeyIndexed(llmqType, pindex->nHeight, quorumIndex); auto lastKey = BuildInversedHeightKeyIndexed(llmqType, 0, quorumIndex); size_t currentCycle = 0; dbIt->Seek(firstKey); while (dbIt->Valid()) { decltype(firstKey) curKey; int quorumHeight; if (!dbIt->GetKey(curKey) || curKey >= lastKey) { return std::nullopt; } if (std::get<0>(curKey) != DB_MINED_COMMITMENT_BY_INVERSED_HEIGHT_Q_INDEXED || std::get<1>(curKey) != llmqType) { return std::nullopt; } uint32_t nMinedHeight = std::numeric_limits::max() - be32toh(std::get<3>(curKey)); if (nMinedHeight > pindex->nHeight) { return std::nullopt; } if (!dbIt->GetValue(quorumHeight)) { return std::nullopt; } const auto* pQuorumBaseBlockIndex = pindex->GetAncestor(quorumHeight); assert(pQuorumBaseBlockIndex); if (currentCycle == cycle) { return std::make_optional(pQuorumBaseBlockIndex); } currentCycle++; dbIt->Next(); } return std::nullopt; } std::vector> CQuorumBlockProcessor::GetLastMinedCommitmentsPerQuorumIndexUntilBlock(Consensus::LLMQType llmqType, const CBlockIndex* pindex, size_t cycle) const { const Consensus::LLMQParams& llmqParams = GetLLMQParams(llmqType); std::vector> ret; for (const auto quorumIndex : irange::range(llmqParams.signingActiveQuorumCount)) { std::optional q = GetLastMinedCommitmentsByQuorumIndexUntilBlock(llmqType, pindex, quorumIndex, cycle); if (q.has_value()) { ret.emplace_back(quorumIndex, q.value()); } } return ret; } std::vector CQuorumBlockProcessor::GetMinedCommitmentsIndexedUntilBlock(Consensus::LLMQType llmqType, const CBlockIndex* pindex, size_t maxCount) const { std::vector ret; size_t cycle = 0; while (ret.size() < maxCount) { std::vector> cycleRet = GetLastMinedCommitmentsPerQuorumIndexUntilBlock(llmqType, pindex, cycle); if (cycleRet.empty()) { return ret; } std::vector cycleRetTransformed; std::transform(cycleRet.begin(), cycleRet.end(), std::back_inserter(cycleRetTransformed), [](const std::pair& p) { return p.second; }); size_t needToCopy = maxCount - ret.size(); std::copy_n(cycleRetTransformed.begin(), std::min(needToCopy, cycleRetTransformed.size()), std::back_inserter(ret)); cycle++; } return ret; } // The returned quorums are in reversed order, so the most recent one is at index 0 std::map> CQuorumBlockProcessor::GetMinedAndActiveCommitmentsUntilBlock(const CBlockIndex* pindex) const { std::map> ret; for (const auto& params : Params().GetConsensus().llmqs) { auto& v = ret[params.type]; v.reserve(params.signingActiveQuorumCount); if (utils::IsQuorumRotationEnabled(params.type, pindex)) { std::vector> commitments = GetLastMinedCommitmentsPerQuorumIndexUntilBlock(params.type, pindex, 0); std::transform(commitments.begin(), commitments.end(), std::back_inserter(v), [](const std::pair& p) { return p.second; }); } else { auto commitments = GetMinedCommitmentsUntilBlock(params.type, pindex, params.signingActiveQuorumCount); std::copy(commitments.begin(), commitments.end(), std::back_inserter(v)); } } return ret; } bool CQuorumBlockProcessor::HasMineableCommitment(const uint256& hash) const { LOCK(minableCommitmentsCs); return minableCommitments.count(hash) != 0; } void CQuorumBlockProcessor::AddMineableCommitment(const CFinalCommitment& fqc) { bool relay = false; uint256 commitmentHash = ::SerializeHash(fqc); { LOCK(minableCommitmentsCs); auto k = std::make_pair(fqc.llmqType, fqc.quorumHash); auto ins = minableCommitmentsByQuorum.emplace(k, commitmentHash); if (ins.second) { minableCommitments.emplace(commitmentHash, fqc); relay = true; } else { const auto& oldFqc = minableCommitments.at(ins.first->second); if (fqc.CountSigners() > oldFqc.CountSigners()) { // new commitment has more signers, so override the known one ins.first->second = commitmentHash; minableCommitments.erase(ins.first->second); minableCommitments.emplace(commitmentHash, fqc); relay = true; } } } // We only relay the new commitment if it's new or better then the old one if (relay) { CInv inv(MSG_QUORUM_FINAL_COMMITMENT, commitmentHash); connman.RelayInv(inv); } } bool CQuorumBlockProcessor::GetMineableCommitmentByHash(const uint256& commitmentHash, llmq::CFinalCommitment& ret) const { LOCK(minableCommitmentsCs); auto it = minableCommitments.find(commitmentHash); if (it == minableCommitments.end()) { return false; } ret = it->second; return true; } // Will return nullopt if no commitment should be mined // Will return a null commitment if no mineable commitment is known and none was mined yet std::optional> CQuorumBlockProcessor::GetMineableCommitments(const Consensus::LLMQParams& llmqParams, int nHeight) const { AssertLockHeld(cs_main); std::vector ret; if (GetNumCommitmentsRequired(llmqParams, nHeight) == 0) { // no commitment required return std::nullopt; } // Note: This function can be called for new blocks assert(nHeight <= ::ChainActive().Height() + 1); const auto *const pindex = ::ChainActive().Height() < nHeight ? ::ChainActive().Tip() : ::ChainActive().Tip()->GetAncestor(nHeight); bool rotation_enabled = utils::IsQuorumRotationEnabled(llmqParams.type, pindex); size_t quorums_num = rotation_enabled ? llmqParams.signingActiveQuorumCount : 1; std::stringstream ss; for (const auto quorumIndex : irange::range(quorums_num)) { CFinalCommitment cf; uint256 quorumHash = GetQuorumBlockHash(llmqParams, nHeight, quorumIndex); if (quorumHash.IsNull()) { break; } if (HasMinedCommitment(llmqParams.type, quorumHash)) continue; LOCK(minableCommitmentsCs); auto k = std::make_pair(llmqParams.type, quorumHash); auto it = minableCommitmentsByQuorum.find(k); if (it == minableCommitmentsByQuorum.end()) { // null commitment required cf = CFinalCommitment(llmqParams, quorumHash); cf.quorumIndex = static_cast(quorumIndex); if (rotation_enabled) { cf.nVersion = CFinalCommitment::INDEXED_QUORUM_VERSION; } ss << "{ created nversion[" << cf.nVersion << "] quorumIndex[" << cf.quorumIndex << "] }"; } else { cf = minableCommitments.at(it->second); ss << "{ cached nversion[" << cf.nVersion << "] quorumIndex[" << cf.quorumIndex << "] }"; } ret.push_back(std::move(cf)); } LogPrint(BCLog::LLMQ, "GetMineableCommitments cf height[%d] content: %s\n", nHeight, ss.str()); if (ret.empty()) { return std::nullopt; } return std::make_optional(ret); } bool CQuorumBlockProcessor::GetMineableCommitmentsTx(const Consensus::LLMQParams& llmqParams, int nHeight, std::vector& ret) const { AssertLockHeld(cs_main); std::optional> qcs = GetMineableCommitments(llmqParams, nHeight); if (!qcs.has_value()) { return false; } for (const auto& f : qcs.value()) { CFinalCommitmentTxPayload qc; qc.nHeight = nHeight; qc.commitment = f; CMutableTransaction tx; tx.nVersion = 3; tx.nType = TRANSACTION_QUORUM_COMMITMENT; SetTxPayload(tx, qc); ret.push_back(MakeTransactionRef(tx)); } return true; } } // namespace llmq