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@ -2550,10 +2550,10 @@ std::vector<CAddress> CConnman::GetAddresses(CNode& requestor, size_t max_addres
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.Write(local_socket_bytes.data(), local_socket_bytes.size())
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.Finalize();
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const auto current_time = GetTime<std::chrono::microseconds>();
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if (m_addr_response_caches.find(cache_id) == m_addr_response_caches.end() ||
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m_addr_response_caches[cache_id].m_update_addr_response < current_time) {
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m_addr_response_caches[cache_id].m_addrs_response_cache = GetAddresses(max_addresses, max_pct);
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auto r = m_addr_response_caches.emplace(cache_id, CachedAddrResponse{});
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CachedAddrResponse& cache_entry = r.first->second;
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if (cache_entry.m_cache_entry_expiration < current_time) { // If emplace() added new one it has expiration 0.
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cache_entry.m_addrs_response_cache = GetAddresses(max_addresses, max_pct);
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// Choosing a proper cache lifetime is a trade-off between the privacy leak minimization
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// and the usefulness of ADDR responses to honest users.
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//
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@ -2578,9 +2578,9 @@ std::vector<CAddress> CConnman::GetAddresses(CNode& requestor, size_t max_addres
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// nodes to be "terrible" (see IsTerrible()) if the timestamps are older than 30 days,
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// max. 24 hours of "penalty" due to cache shouldn't make any meaningful difference
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// in terms of the freshness of the response.
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m_addr_response_caches[cache_id].m_update_addr_response = current_time + std::chrono::hours(21) + GetRandMillis(std::chrono::hours(6));
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cache_entry.m_cache_entry_expiration = current_time + std::chrono::hours(21) + GetRandMillis(std::chrono::hours(6));
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}
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return m_addr_response_caches[cache_id].m_addrs_response_cache;
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return cache_entry.m_addrs_response_cache;
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}
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bool CConnman::AddNode(const std::string& strNode)
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