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@ -962,6 +962,16 @@ static bool CompareNodeTXTime(const NodeEvictionCandidate &a, const NodeEviction |
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return a.nTimeConnected > b.nTimeConnected; |
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return a.nTimeConnected > b.nTimeConnected; |
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} |
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} |
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//! Sort an array by the specified comparator, then erase the last K elements.
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template<typename T, typename Comparator> |
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static void EraseLastKElements(std::vector<T> &elements, Comparator comparator, size_t k) |
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{ |
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std::sort(elements.begin(), elements.end(), comparator); |
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size_t eraseSize = std::min(k, elements.size()); |
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elements.erase(elements.end() - eraseSize, elements.end()); |
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} |
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/** Try to find a connection to evict when the node is full.
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/** Try to find a connection to evict when the node is full.
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* Extreme care must be taken to avoid opening the node to attacker |
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* Extreme care must be taken to avoid opening the node to attacker |
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* triggered network partitioning. |
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* triggered network partitioning. |
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@ -991,42 +1001,23 @@ bool CConnman::AttemptToEvictConnection() |
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} |
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} |
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} |
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} |
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if (vEvictionCandidates.empty()) return false; |
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// Protect connections with certain characteristics
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// Protect connections with certain characteristics
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// Deterministically select 4 peers to protect by netgroup.
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// Deterministically select 4 peers to protect by netgroup.
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// An attacker cannot predict which netgroups will be protected
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// An attacker cannot predict which netgroups will be protected
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std::sort(vEvictionCandidates.begin(), vEvictionCandidates.end(), CompareNetGroupKeyed); |
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EraseLastKElements(vEvictionCandidates, CompareNetGroupKeyed, 4); |
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vEvictionCandidates.erase(vEvictionCandidates.end() - std::min(4, static_cast<int>(vEvictionCandidates.size())), vEvictionCandidates.end()); |
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if (vEvictionCandidates.empty()) return false; |
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// Protect the 8 nodes with the lowest minimum ping time.
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// Protect the 8 nodes with the lowest minimum ping time.
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// An attacker cannot manipulate this metric without physically moving nodes closer to the target.
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// An attacker cannot manipulate this metric without physically moving nodes closer to the target.
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std::sort(vEvictionCandidates.begin(), vEvictionCandidates.end(), ReverseCompareNodeMinPingTime); |
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EraseLastKElements(vEvictionCandidates, ReverseCompareNodeMinPingTime, 8); |
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vEvictionCandidates.erase(vEvictionCandidates.end() - std::min(8, static_cast<int>(vEvictionCandidates.size())), vEvictionCandidates.end()); |
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if (vEvictionCandidates.empty()) return false; |
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// Protect 4 nodes that most recently sent us transactions.
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// Protect 4 nodes that most recently sent us transactions.
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// An attacker cannot manipulate this metric without performing useful work.
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// An attacker cannot manipulate this metric without performing useful work.
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std::sort(vEvictionCandidates.begin(), vEvictionCandidates.end(), CompareNodeTXTime); |
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EraseLastKElements(vEvictionCandidates, CompareNodeTXTime, 4); |
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vEvictionCandidates.erase(vEvictionCandidates.end() - std::min(4, static_cast<int>(vEvictionCandidates.size())), vEvictionCandidates.end()); |
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if (vEvictionCandidates.empty()) return false; |
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// Protect 4 nodes that most recently sent us blocks.
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// Protect 4 nodes that most recently sent us blocks.
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// An attacker cannot manipulate this metric without performing useful work.
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// An attacker cannot manipulate this metric without performing useful work.
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std::sort(vEvictionCandidates.begin(), vEvictionCandidates.end(), CompareNodeBlockTime); |
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EraseLastKElements(vEvictionCandidates, CompareNodeBlockTime, 4); |
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vEvictionCandidates.erase(vEvictionCandidates.end() - std::min(4, static_cast<int>(vEvictionCandidates.size())), vEvictionCandidates.end()); |
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if (vEvictionCandidates.empty()) return false; |
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// Protect the half of the remaining nodes which have been connected the longest.
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// Protect the half of the remaining nodes which have been connected the longest.
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// This replicates the non-eviction implicit behavior, and precludes attacks that start later.
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// This replicates the non-eviction implicit behavior, and precludes attacks that start later.
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std::sort(vEvictionCandidates.begin(), vEvictionCandidates.end(), ReverseCompareNodeTimeConnected); |
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EraseLastKElements(vEvictionCandidates, ReverseCompareNodeTimeConnected, vEvictionCandidates.size() / 2); |
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vEvictionCandidates.erase(vEvictionCandidates.end() - static_cast<int>(vEvictionCandidates.size() / 2), vEvictionCandidates.end()); |
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if (vEvictionCandidates.empty()) return false; |
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if (vEvictionCandidates.empty()) return false; |
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@ -1037,12 +1028,12 @@ bool CConnman::AttemptToEvictConnection() |
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int64_t nMostConnectionsTime = 0; |
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int64_t nMostConnectionsTime = 0; |
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std::map<uint64_t, std::vector<NodeEvictionCandidate> > mapNetGroupNodes; |
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std::map<uint64_t, std::vector<NodeEvictionCandidate> > mapNetGroupNodes; |
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for (const NodeEvictionCandidate &node : vEvictionCandidates) { |
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for (const NodeEvictionCandidate &node : vEvictionCandidates) { |
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mapNetGroupNodes[node.nKeyedNetGroup].push_back(node); |
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std::vector<NodeEvictionCandidate> &group = mapNetGroupNodes[node.nKeyedNetGroup]; |
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int64_t grouptime = mapNetGroupNodes[node.nKeyedNetGroup][0].nTimeConnected; |
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group.push_back(node); |
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size_t groupsize = mapNetGroupNodes[node.nKeyedNetGroup].size(); |
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int64_t grouptime = group[0].nTimeConnected; |
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if (groupsize > nMostConnections || (groupsize == nMostConnections && grouptime > nMostConnectionsTime)) { |
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if (group.size() > nMostConnections || (group.size() == nMostConnections && grouptime > nMostConnectionsTime)) { |
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nMostConnections = groupsize; |
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nMostConnections = group.size(); |
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nMostConnectionsTime = grouptime; |
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nMostConnectionsTime = grouptime; |
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naMostConnections = node.nKeyedNetGroup; |
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naMostConnections = node.nKeyedNetGroup; |
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} |
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} |
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