/* * Copyright (C) 2019 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #pragma once #include #include #include #include #include #include #include #include "ResolverStats.h" #include "stats.pb.h" namespace android::net { // The overall information of a StatsRecords. struct StatsData { StatsData(const netdutils::IPSockAddr& ipSockAddr) : serverSockAddr(ipSockAddr) { lastUpdate = std::chrono::steady_clock::now(); }; // Server socket address. netdutils::IPSockAddr serverSockAddr; // The most recent number of records being accumulated. int total = 0; // The map used to store the number of each rcode. std::map rcodeCounts; // The aggregated RTT in microseconds. // For DNS-over-TCP, it includes TCP handshake. // For DNS-over-TLS, it might include TCP handshake plus SSL handshake. std::chrono::microseconds latencyUs = {}; // The last update timestamp. std::chrono::time_point lastUpdate; int averageLatencyMs() const; std::string toString() const; // For testing. bool operator==(const StatsData& o) const; friend std::ostream& operator<<(std::ostream& os, const StatsData& data) { return os << data.toString(); } }; // A circular buffer based class used to store the statistics for a server with a protocol. class StatsRecords { public: struct Record { int rcode; std::chrono::microseconds latencyUs; }; StatsRecords(const netdutils::IPSockAddr& ipSockAddr, size_t size); void push(const Record& record); const StatsData& getStatsData() const { return mStatsData; } // Quantifies the quality based on the current quality factors and the latency, and normalize // the value to a score between 0 to 100. double score() const; void incrementSkippedCount(); private: void updateStatsData(const Record& record, const bool add); void updatePenalty(const Record& record); std::deque mRecords; size_t mCapacity; StatsData mStatsData; // A quality factor used to distinguish if the server can't be evaluated by latency alone, such // as instant failure on connect. int mPenalty = 0; // A quality factor used to prevent starvation. int mSkippedCount = 0; // The maximum of the quantified result. As the sorting is on the basis of server latency, limit // the maximal value of the quantity to 10000 in correspondence with the maximal cleartext // query timeout 10000 milliseconds. This helps normalize the value of the quality to a score. static constexpr int kMaxQuality = 10000; }; // DnsStats class manages the statistics of DNS servers per netId. // The class itself is not thread-safe. class DnsStats { public: using ServerStatsMap = std::map; // Add |servers| to the map, and remove no-longer-used servers. // Return true if they are successfully added; otherwise, return false. bool setServers(const std::vector& servers, Protocol protocol); // Return true if |record| is successfully added into |server|'s stats; otherwise, return false. bool addStats(const netdutils::IPSockAddr& server, const DnsQueryEvent& record); std::vector getSortedServers(Protocol protocol) const; void dump(netdutils::DumpWriter& dw); // For testing. std::vector getStats(Protocol protocol) const; // TODO: Compatible support for getResolverInfo(). static constexpr size_t kLogSize = 128; private: std::map mStats; }; } // namespace android::net