202 lines
6.1 KiB
C++
202 lines
6.1 KiB
C++
#include <stdint.h>
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#include <math.h>
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#include <set>
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#include <map>
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#include <vector>
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#include <deque>
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#include "netbase.h"
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#include "protocol.h"
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#include "util.h"
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#define TAU 86400.0
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#define MIN_RETRY 1000
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std::string static inline ToString(const CIPPort &ip) {
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std::string str = ip.ToString();
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while (str.size() < 22) str += ' ';
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return str;
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}
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class CAddrInfo {
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private:
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CIPPort ip;
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uint64_t services;
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int64 lastTry;
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int64 ourLastTry;
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double reliability;
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double timing;
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double weight;
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double count;
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int total;
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int success;
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public:
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double GetCount() const { return count; }
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double GetAvgAge() const { return timing/weight; }
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double GetReliability() const { return reliability/weight; }
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bool IsGood() {
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return (weight > 0 && GetReliability() > 0.8 && GetAvgAge() < 86400 && ip.GetPort() == 8333 && ip.IsRoutable());
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}
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bool IsTerrible() {
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return ((weight > 0.1 && GetCount() > 5 && GetReliability() < 0.05) || (weight > 0.5 && GetReliability() < 0.2 && GetAvgAge() > 7200 && GetCount() > 5));
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}
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void Update(bool good);
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friend class CAddrDb;
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IMPLEMENT_SERIALIZE (
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int version = 0;
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READWRITE(version);
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READWRITE(ip);
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READWRITE(services);
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READWRITE(lastTry);
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READWRITE(ourLastTry);
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READWRITE(reliability);
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READWRITE(timing);
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READWRITE(weight);
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READWRITE(count);
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READWRITE(total);
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READWRITE(success);
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)
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};
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// seen nodes
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// / \
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// (a) banned nodes available nodes--------------
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// / | \
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// tracked nodes (b) unknown nodes (e) active nodes
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// / \
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// (d) good nodes (c) non-good nodes
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class CAddrDb {
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private:
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mutable CCriticalSection cs;
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int nId; // number of address id's
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std::map<int, CAddrInfo> idToInfo; // map address id to address info (b,c,d,e)
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std::map<CIPPort, int> ipToId; // map ip to id (b,c,d,e)
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std::deque<int> ourId; // sequence of tried nodes, in order we have tried connecting to them (c,d)
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std::set<int> unkId; // set of nodes not yet tried (b)
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std::set<int> goodId; // set of good nodes (d, good e)
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std::map<CIPPort, time_t> banned; // nodes that are banned, with their unban time (a)
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bool fDirty;
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protected:
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// internal routines that assume proper locks are acquired
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void Add_(const CAddress &addr); // add an address
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bool Get_(CIPPort &ip, int& wait); // get an IP to test (must call Good_, Bad_, or Skipped_ on result afterwards)
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void Good_(const CIPPort &ip); // mark an IP as good (must have been returned by Get_)
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void Bad_(const CIPPort &ip, int ban); // mark an IP as bad (and optionally ban it) (must have been returned by Get_)
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void Skipped_(const CIPPort &ip); // mark an IP as skipped (must have been returned by Get_)
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int Lookup_(const CIPPort &ip); // look up id of an IP
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void GetIPs_(std::set<CIP>& ips, int max, bool fOnlyIPv4); // get a random set of IPs (shared lock only)
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public:
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// seriazlization code
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// format:
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// nVersion (0 for now)
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// nOur (number of ips in (c,d))
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// nUnk (number of ips in (b))
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// CAddrInfo[nOur]
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// CAddrInfo[nUnk]
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// banned
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// acquires a shared lock (this does not suffice for read mode, but we assume that only happens at startup, single-threaded)
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// this way, dumping does not interfere with GetIPs_, which is called from the DNS thread
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IMPLEMENT_SERIALIZE (({
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int nVersion = 0;
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READWRITE(nVersion);
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SHARED_CRITICAL_BLOCK(cs) {
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if (fWrite) {
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CAddrDb *db = const_cast<CAddrDb*>(this);
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int nOur = ourId.size();
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int nUnk = unkId.size();
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READWRITE(nOur);
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READWRITE(nUnk);
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for (std::deque<int>::const_iterator it = ourId.begin(); it != ourId.end(); it++) {
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std::map<int, CAddrInfo>::iterator ci = db->idToInfo.find(*it);
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READWRITE((*ci).second);
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}
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for (std::set<int>::const_iterator it = unkId.begin(); it != unkId.end(); it++) {
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std::map<int, CAddrInfo>::iterator ci = db->idToInfo.find(*it);
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READWRITE((*ci).second);
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}
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} else {
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CAddrDb *db = const_cast<CAddrDb*>(this);
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db->nId = 0;
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int nOur, nUnk;
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READWRITE(nOur);
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READWRITE(nUnk);
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for (int i=0; i<nOur; i++) {
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CAddrInfo info;
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READWRITE(info);
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if (!info.IsTerrible()) {
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int id = db->nId++;
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db->idToInfo[id] = info;
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db->ipToId[info.ip] = id;
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db->ourId.push_back(id);
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if (info.IsGood()) db->goodId.insert(id);
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}
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}
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for (int i=0; i<nUnk; i++) {
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CAddrInfo info;
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READWRITE(info);
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if (!info.IsTerrible()) {
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int id = db->nId++;
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db->idToInfo[id] = info;
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db->ipToId[info.ip] = id;
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db->unkId.insert(id);
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}
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}
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db->fDirty = true;
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}
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READWRITE(banned);
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}
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});)
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// print statistics
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void Stats() {
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SHARED_CRITICAL_BLOCK(cs) {
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if (fDirty) {
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printf("**** %i available (%i tracked, %i new, %i active), %i banned; %i good\n",
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(int)idToInfo.size(),
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(int)ourId.size(),
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(int)unkId.size(),
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(int)idToInfo.size() - (int)ourId.size() - (int)unkId.size(),
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(int)banned.size(),
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(int)goodId.size());
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fDirty = false; // hopefully atomic
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}
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}
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}
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void Add(const CAddress &addr) {
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CRITICAL_BLOCK(cs)
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Add_(addr);
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}
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void Add(const std::vector<CAddress> &vAddr) {
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CRITICAL_BLOCK(cs)
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for (int i=0; i<vAddr.size(); i++)
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Add_(vAddr[i]);
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}
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void Good(const CIPPort &addr) {
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CRITICAL_BLOCK(cs)
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Good_(addr);
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}
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void Skipped(const CIPPort &addr) {
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CRITICAL_BLOCK(cs)
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Skipped_(addr);
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}
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void Bad(const CIPPort &addr, int ban = 0) {
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CRITICAL_BLOCK(cs)
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Bad_(addr, ban);
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}
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bool Get(CIPPort &ip, int& wait) {
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CRITICAL_BLOCK(cs)
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return Get_(ip, wait);
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}
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void GetIPs(std::set<CIP>& ips, int max, bool fOnlyIPv4 = true) {
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SHARED_CRITICAL_BLOCK(cs)
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GetIPs_(ips, max, fOnlyIPv4);
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}
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};
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