refactor: trim and document assumptions for GetQuorum and friends

Some portions of the codebase make implicit assumptions that `GetQuorum`
will not return a `nullptr` by not performing checking for it or make
explicit assumptions by `assert`ing not-`nullptr`.

Let's document explicit assumptions, document implicit assumptions and
soften some hard assumptions where softening is possible.
This commit is contained in:
Kittywhiskers Van Gogh 2024-11-14 10:07:34 +00:00
parent 3aa51d6515
commit 8c9f57dac4
No known key found for this signature in database
GPG Key ID: 30CD0C065E5C4AAD
9 changed files with 75 additions and 36 deletions

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@ -140,7 +140,8 @@ bool CAssetUnlockPayload::VerifySig(const llmq::CQuorumManager& qman, const uint
const auto quorum = qman.GetQuorum(llmqType, quorumHash);
// quorum must be valid at this point. Let's check and throw error just in case
if (!quorum) {
return state.Invalid(TxValidationResult::TX_CONSENSUS, "internal-error");
LogPrintf("%s: ERROR! No quorum for credit pool found for hash=%s\n", __func__, quorumHash.ToString());
return state.Invalid(TxValidationResult::TX_CONSENSUS, "bad-assetunlock-quorum-internal-error");
}
const uint256 requestId = ::SerializeHash(std::make_pair(ASSETUNLOCK_REQUESTID_PREFIX, index));

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@ -96,6 +96,10 @@ bool MNHFTx::Verify(const llmq::CQuorumManager& qman, const uint256& quorumHash,
const Consensus::LLMQType& llmqType = Params().GetConsensus().llmqTypeMnhf;
const auto quorum = qman.GetQuorum(llmqType, quorumHash);
if (!quorum) {
return state.Invalid(TxValidationResult::TX_CONSENSUS, "bad-mnhf-missing-quorum");
}
const uint256 signHash = llmq::BuildSignHash(llmqType, quorum->qc->quorumHash, requestId, msgHash);
if (!sig.VerifyInsecure(quorum->qc->quorumPublicKey, signHash)) {
return state.Invalid(TxValidationResult::TX_CONSENSUS, "bad-mnhf-invalid");

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@ -187,14 +187,23 @@ bool CSimplifiedMNListDiff::BuildQuorumsDiff(const CBlockIndex* baseBlockIndex,
return true;
}
void CSimplifiedMNListDiff::BuildQuorumChainlockInfo(const llmq::CQuorumManager& qman, const CBlockIndex* blockIndex)
bool CSimplifiedMNListDiff::BuildQuorumChainlockInfo(const llmq::CQuorumManager& qman, const CBlockIndex* blockIndex)
{
// Group quorums (indexes corresponding to entries of newQuorums) per CBlockIndex containing the expected CL signature in CbTx.
// We want to avoid to load CbTx now, as more than one quorum will target the same block: hence we want to load CbTxs once per block (heavy operation).
std::multimap<const CBlockIndex*, uint16_t> workBaseBlockIndexMap;
for (const auto [idx, e] : enumerate(newQuorums)) {
// We assume that we have on hand, quorums that correspond to the hashes queried.
// If we cannot find them, something must have gone wrong and we should cease trying
// to build any further.
auto quorum = qman.GetQuorum(e.llmqType, e.quorumHash);
if (!quorum) {
LogPrintf("%s: ERROR! Unexpected missing quorum with llmqType=%d, quorumHash=%s\n", __func__,
ToUnderlying(e.llmqType), e.quorumHash.ToString());
return false;
}
// In case of rotation, all rotated quorums rely on the CL sig expected in the cycleBlock (the block of the first DKG) - 8
// In case of non-rotation, quorums rely on the CL sig expected in the block of the DKG - 8
const CBlockIndex* pWorkBaseBlockIndex =
@ -203,7 +212,7 @@ void CSimplifiedMNListDiff::BuildQuorumChainlockInfo(const llmq::CQuorumManager&
workBaseBlockIndexMap.insert(std::make_pair(pWorkBaseBlockIndex, idx));
}
for(auto it = workBaseBlockIndexMap.begin(); it != workBaseBlockIndexMap.end(); ) {
for (auto it = workBaseBlockIndexMap.begin(); it != workBaseBlockIndexMap.end();) {
// Process each key (CBlockIndex containing the expected CL signature in CbTx) of the std::multimap once
const CBlockIndex* pWorkBaseBlockIndex = it->first;
const auto cbcl = GetNonNullCoinbaseChainlock(pWorkBaseBlockIndex);
@ -224,6 +233,8 @@ void CSimplifiedMNListDiff::BuildQuorumChainlockInfo(const llmq::CQuorumManager&
it_sig->second.insert(idx_set.begin(), idx_set.end());
}
}
return true;
}
UniValue CSimplifiedMNListDiff::ToJson(bool extended) const
@ -366,7 +377,10 @@ bool BuildSimplifiedMNListDiff(CDeterministicMNManager& dmnman, const Chainstate
}
if (DeploymentActiveAfter(blockIndex, Params().GetConsensus(), Consensus::DEPLOYMENT_V20)) {
mnListDiffRet.BuildQuorumChainlockInfo(qman, blockIndex);
if (!mnListDiffRet.BuildQuorumChainlockInfo(qman, blockIndex)) {
errorRet = strprintf("failed to build quorum chainlock info");
return false;
}
}
// TODO store coinbase TX in CBlockIndex

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@ -170,7 +170,7 @@ public:
bool BuildQuorumsDiff(const CBlockIndex* baseBlockIndex, const CBlockIndex* blockIndex,
const llmq::CQuorumBlockProcessor& quorum_block_processor);
void BuildQuorumChainlockInfo(const llmq::CQuorumManager& qman, const CBlockIndex* blockIndex);
bool BuildQuorumChainlockInfo(const llmq::CQuorumManager& qman, const CBlockIndex* blockIndex);
[[nodiscard]] UniValue ToJson(bool extended = false) const;
};

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@ -602,8 +602,17 @@ std::vector<CQuorumCPtr> CQuorumManager::ScanQuorums(Consensus::LLMQType llmqTyp
assert(pQuorumBaseBlockIndex);
// populate cache for keepOldConnections most recent quorums only
bool populate_cache = vecResultQuorums.size() < static_cast<size_t>(llmq_params_opt->keepOldConnections);
// We assume that every quorum asked for is available to us on hand, if this
// fails then we can assume that something has gone wrong and we should stop
// trying to process any further and return a blank.
auto quorum = GetQuorum(llmqType, pQuorumBaseBlockIndex, populate_cache);
assert(quorum != nullptr);
if (!quorum) {
LogPrintf("%s: ERROR! Unexpected missing quorum with llmqType=%d, blockHash=%s, populate_cache=%s\n",
__func__, ToUnderlying(llmqType), pQuorumBaseBlockIndex->GetBlockHash().ToString(),
populate_cache ? "true" : "false");
return {};
}
vecResultQuorums.emplace_back(quorum);
}
@ -742,7 +751,7 @@ PeerMsgRet CQuorumManager::ProcessMessage(CNode& pfrom, const std::string& msg_t
return sendQDATA(CQuorumDataRequest::Errors::QUORUM_BLOCK_NOT_FOUND, request_limit_exceeded);
}
const CQuorumCPtr pQuorum = GetQuorum(request.GetLLMQType(), pQuorumBaseBlockIndex);
const auto pQuorum = GetQuorum(request.GetLLMQType(), pQuorumBaseBlockIndex);
if (pQuorum == nullptr) {
return sendQDATA(CQuorumDataRequest::Errors::QUORUM_NOT_FOUND, request_limit_exceeded);
}

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@ -588,7 +588,7 @@ static bool PreVerifyRecoveredSig(const CQuorumManager& quorum_manager, const CR
return false;
}
CQuorumCPtr quorum = quorum_manager.GetQuorum(llmqType, recoveredSig.getQuorumHash());
auto quorum = quorum_manager.GetQuorum(llmqType, recoveredSig.getQuorumHash());
if (!quorum) {
LogPrint(BCLog::LLMQ, "CSigningManager::%s -- quorum %s not found\n", __func__,
@ -681,7 +681,7 @@ void CSigningManager::CollectPendingRecoveredSigsToVerify(
auto llmqType = recSig->getLlmqType();
auto quorumKey = std::make_pair(recSig->getLlmqType(), recSig->getQuorumHash());
if (!retQuorums.count(quorumKey)) {
CQuorumCPtr quorum = qman.GetQuorum(llmqType, recSig->getQuorumHash());
auto quorum = qman.GetQuorum(llmqType, recSig->getQuorumHash());
if (!quorum) {
LogPrint(BCLog::LLMQ, "CSigningManager::%s -- quorum %s not found, node=%d\n", __func__,
recSig->getQuorumHash().ToString(), nodeId);
@ -881,7 +881,7 @@ bool CSigningManager::AsyncSignIfMember(Consensus::LLMQType llmqType, CSigShares
if (m_mn_activeman == nullptr) return false;
if (m_mn_activeman->GetProTxHash().IsNull()) return false;
const CQuorumCPtr quorum = [&]() {
const auto quorum = [&]() {
if (quorumHash.IsNull()) {
// This might end up giving different results on different members
// This might happen when we are on the brink of confirming a new quorum

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@ -549,15 +549,14 @@ bool CSigSharesManager::PreVerifyBatchedSigShares(const CActiveMasternodeManager
return true;
}
void CSigSharesManager::CollectPendingSigSharesToVerify(
size_t maxUniqueSessions,
std::unordered_map<NodeId, std::vector<CSigShare>>& retSigShares,
std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher>& retQuorums)
bool CSigSharesManager::CollectPendingSigSharesToVerify(
size_t maxUniqueSessions, std::unordered_map<NodeId, std::vector<CSigShare>>& retSigShares,
std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher>& retQuorums)
{
{
LOCK(cs);
if (nodeStates.empty()) {
return;
return false;
}
// This will iterate node states in random order and pick one sig share at a time. This avoids processing
@ -590,7 +589,7 @@ void CSigSharesManager::CollectPendingSigSharesToVerify(
rnd);
if (retSigShares.empty()) {
return;
return false;
}
}
@ -605,11 +604,20 @@ void CSigSharesManager::CollectPendingSigSharesToVerify(
continue;
}
CQuorumCPtr quorum = qman.GetQuorum(llmqType, sigShare.getQuorumHash());
assert(quorum != nullptr);
auto quorum = qman.GetQuorum(llmqType, sigShare.getQuorumHash());
// Despite constructing a convenience map, we assume that the quorum *must* be present.
// The absence of it might indicate an inconsistent internal state, so we should report
// nothing instead of reporting flawed data.
if (!quorum) {
LogPrintf("%s: ERROR! Unexpected missing quorum with llmqType=%d, quorumHash=%s\n", __func__,
ToUnderlying(llmqType), sigShare.getQuorumHash().ToString());
return false;
}
retQuorums.try_emplace(k, quorum);
}
}
return true;
}
bool CSigSharesManager::ProcessPendingSigShares(const CConnman& connman)
@ -618,8 +626,8 @@ bool CSigSharesManager::ProcessPendingSigShares(const CConnman& connman)
std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher> quorums;
const size_t nMaxBatchSize{32};
CollectPendingSigSharesToVerify(nMaxBatchSize, sigSharesByNodes, quorums);
if (sigSharesByNodes.empty()) {
bool collect_status = CollectPendingSigSharesToVerify(nMaxBatchSize, sigSharesByNodes, quorums);
if (!collect_status || sigSharesByNodes.empty()) {
return false;
}
@ -1269,11 +1277,14 @@ void CSigSharesManager::Cleanup()
// Find quorums which became inactive
for (auto it = quorums.begin(); it != quorums.end(); ) {
if (IsQuorumActive(it->first.first, qman, it->first.second)) {
it->second = qman.GetQuorum(it->first.first, it->first.second);
++it;
} else {
it = quorums.erase(it);
auto quorum = qman.GetQuorum(it->first.first, it->first.second);
if (quorum) {
it->second = quorum;
++it;
continue;
}
}
it = quorums.erase(it);
}
{

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@ -452,9 +452,9 @@ private:
static bool PreVerifyBatchedSigShares(const CActiveMasternodeManager& mn_activeman, const CQuorumManager& quorum_manager,
const CSigSharesNodeState::SessionInfo& session, const CBatchedSigShares& batchedSigShares, bool& retBan);
void CollectPendingSigSharesToVerify(size_t maxUniqueSessions,
std::unordered_map<NodeId, std::vector<CSigShare>>& retSigShares,
std::unordered_map<std::pair<Consensus::LLMQType, uint256>, CQuorumCPtr, StaticSaltedHasher>& retQuorums);
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);
void ProcessPendingSigShares(const std::vector<CSigShare>& sigSharesToProcess,

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@ -255,7 +255,7 @@ static RPCHelpMan quorum_info()
includeSkShare = ParseBoolV(request.params[2], "includeSkShare");
}
auto quorum = llmq_ctx.qman->GetQuorum(llmqType, quorumHash);
const auto quorum = llmq_ctx.qman->GetQuorum(llmqType, quorumHash);
if (!quorum) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "quorum not found");
}
@ -451,13 +451,13 @@ static UniValue quorum_sign_helper(const JSONRPCRequest& request, Consensus::LLM
if (fSubmit) {
return llmq_ctx.sigman->AsyncSignIfMember(llmqType, *llmq_ctx.shareman, id, msgHash, quorumHash);
} else {
llmq::CQuorumCPtr pQuorum;
if (quorumHash.IsNull()) {
pQuorum = llmq::SelectQuorumForSigning(llmq_params_opt.value(), chainman.ActiveChain(), *llmq_ctx.qman, id);
} else {
pQuorum = llmq_ctx.qman->GetQuorum(llmqType, quorumHash);
}
const auto pQuorum = [&]() {
if (quorumHash.IsNull()) {
return llmq::SelectQuorumForSigning(llmq_params_opt.value(), chainman.ActiveChain(), *llmq_ctx.qman, id);
} else {
return llmq_ctx.qman->GetQuorum(llmqType, quorumHash);
}
}();
if (pQuorum == nullptr) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "quorum not found");
@ -592,7 +592,7 @@ static RPCHelpMan quorum_verify()
}
uint256 quorumHash(ParseHashV(request.params[4], "quorumHash"));
llmq::CQuorumCPtr quorum = llmq_ctx.qman->GetQuorum(llmqType, quorumHash);
const auto quorum = llmq_ctx.qman->GetQuorum(llmqType, quorumHash);
if (!quorum) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "quorum not found");