e68172ed9f
Changes addrman to use the test-before-evict discipline in which an address is to be evicted from the tried table is first tested and if it is still online it is not evicted. Adds tests to provide test coverage for this change. This change was suggested as Countermeasure 3 in Eclipse Attacks on Bitcoin’s Peer-to-Peer Network, Ethan Heilman, Alison Kendler, Aviv Zohar, Sharon Goldberg. ePrint Archive Report 2015/263. March 2015.
641 lines
20 KiB
C++
641 lines
20 KiB
C++
// Copyright (c) 2012 Pieter Wuille
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// Copyright (c) 2012-2017 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#ifndef BITCOIN_ADDRMAN_H
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#define BITCOIN_ADDRMAN_H
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#include <netaddress.h>
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#include <protocol.h>
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#include <random.h>
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#include <sync.h>
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#include <timedata.h>
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#include <util.h>
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#include <map>
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#include <set>
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#include <stdint.h>
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#include <vector>
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/**
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* Extended statistics about a CAddress
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*/
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class CAddrInfo : public CAddress
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{
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public:
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//! last try whatsoever by us (memory only)
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int64_t nLastTry;
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//! last counted attempt (memory only)
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int64_t nLastCountAttempt;
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private:
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//! where knowledge about this address first came from
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CNetAddr source;
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//! last successful connection by us
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int64_t nLastSuccess;
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//! connection attempts since last successful attempt
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int nAttempts;
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//! reference count in new sets (memory only)
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int nRefCount;
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//! in tried set? (memory only)
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bool fInTried;
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//! position in vRandom
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int nRandomPos;
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friend class CAddrMan;
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public:
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ADD_SERIALIZE_METHODS;
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template <typename Stream, typename Operation>
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inline void SerializationOp(Stream& s, Operation ser_action) {
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READWRITE(*static_cast<CAddress*>(this));
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READWRITE(source);
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READWRITE(nLastSuccess);
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READWRITE(nAttempts);
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}
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void Init()
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{
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nLastSuccess = 0;
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nLastTry = 0;
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nLastCountAttempt = 0;
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nAttempts = 0;
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nRefCount = 0;
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fInTried = false;
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nRandomPos = -1;
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}
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CAddrInfo(const CAddress &addrIn, const CNetAddr &addrSource) : CAddress(addrIn), source(addrSource)
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{
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Init();
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}
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CAddrInfo() : CAddress(), source()
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{
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Init();
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}
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//! Calculate in which "tried" bucket this entry belongs
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int GetTriedBucket(const uint256 &nKey) const;
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//! Calculate in which "new" bucket this entry belongs, given a certain source
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int GetNewBucket(const uint256 &nKey, const CNetAddr& src) const;
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//! Calculate in which "new" bucket this entry belongs, using its default source
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int GetNewBucket(const uint256 &nKey) const
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{
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return GetNewBucket(nKey, source);
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}
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//! Calculate in which position of a bucket to store this entry.
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int GetBucketPosition(const uint256 &nKey, bool fNew, int nBucket) const;
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//! Determine whether the statistics about this entry are bad enough so that it can just be deleted
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bool IsTerrible(int64_t nNow = GetAdjustedTime()) const;
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//! Calculate the relative chance this entry should be given when selecting nodes to connect to
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double GetChance(int64_t nNow = GetAdjustedTime()) const;
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};
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/** Stochastic address manager
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*
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* Design goals:
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* * Keep the address tables in-memory, and asynchronously dump the entire table to peers.dat.
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* * Make sure no (localized) attacker can fill the entire table with his nodes/addresses.
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*
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* To that end:
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* * Addresses are organized into buckets.
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* * Addresses that have not yet been tried go into 1024 "new" buckets.
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* * Based on the address range (/16 for IPv4) of the source of information, 64 buckets are selected at random.
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* * The actual bucket is chosen from one of these, based on the range in which the address itself is located.
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* * One single address can occur in up to 8 different buckets to increase selection chances for addresses that
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* are seen frequently. The chance for increasing this multiplicity decreases exponentially.
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* * When adding a new address to a full bucket, a randomly chosen entry (with a bias favoring less recently seen
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* ones) is removed from it first.
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* * Addresses of nodes that are known to be accessible go into 256 "tried" buckets.
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* * Each address range selects at random 8 of these buckets.
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* * The actual bucket is chosen from one of these, based on the full address.
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* * When adding a new good address to a full bucket, a randomly chosen entry (with a bias favoring less recently
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* tried ones) is evicted from it, back to the "new" buckets.
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* * Bucket selection is based on cryptographic hashing, using a randomly-generated 256-bit key, which should not
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* be observable by adversaries.
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* * Several indexes are kept for high performance. Defining DEBUG_ADDRMAN will introduce frequent (and expensive)
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* consistency checks for the entire data structure.
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*/
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//! total number of buckets for tried addresses
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#define ADDRMAN_TRIED_BUCKET_COUNT_LOG2 8
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//! total number of buckets for new addresses
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#define ADDRMAN_NEW_BUCKET_COUNT_LOG2 10
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//! maximum allowed number of entries in buckets for new and tried addresses
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#define ADDRMAN_BUCKET_SIZE_LOG2 6
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//! over how many buckets entries with tried addresses from a single group (/16 for IPv4) are spread
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#define ADDRMAN_TRIED_BUCKETS_PER_GROUP 8
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//! over how many buckets entries with new addresses originating from a single group are spread
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#define ADDRMAN_NEW_BUCKETS_PER_SOURCE_GROUP 64
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//! in how many buckets for entries with new addresses a single address may occur
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#define ADDRMAN_NEW_BUCKETS_PER_ADDRESS 8
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//! how old addresses can maximally be
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#define ADDRMAN_HORIZON_DAYS 30
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//! after how many failed attempts we give up on a new node
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#define ADDRMAN_RETRIES 3
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//! how many successive failures are allowed ...
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#define ADDRMAN_MAX_FAILURES 10
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//! ... in at least this many days
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#define ADDRMAN_MIN_FAIL_DAYS 7
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//! how recent a successful connection should be before we allow an address to be evicted from tried
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#define ADDRMAN_REPLACEMENT_HOURS 4
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//! the maximum percentage of nodes to return in a getaddr call
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#define ADDRMAN_GETADDR_MAX_PCT 23
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//! the maximum number of nodes to return in a getaddr call
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#define ADDRMAN_GETADDR_MAX 2500
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//! Convenience
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#define ADDRMAN_TRIED_BUCKET_COUNT (1 << ADDRMAN_TRIED_BUCKET_COUNT_LOG2)
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#define ADDRMAN_NEW_BUCKET_COUNT (1 << ADDRMAN_NEW_BUCKET_COUNT_LOG2)
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#define ADDRMAN_BUCKET_SIZE (1 << ADDRMAN_BUCKET_SIZE_LOG2)
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//! the maximum number of tried addr collisions to store
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#define ADDRMAN_SET_TRIED_COLLISION_SIZE 10
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/**
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* Stochastical (IP) address manager
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*/
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class CAddrMan
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{
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private:
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//! critical section to protect the inner data structures
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mutable CCriticalSection cs;
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//! last used nId
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int nIdCount;
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//! table with information about all nIds
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std::map<int, CAddrInfo> mapInfo;
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//! find an nId based on its network address
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std::map<CNetAddr, int> mapAddr;
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//! randomly-ordered vector of all nIds
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std::vector<int> vRandom;
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// number of "tried" entries
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int nTried;
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//! list of "tried" buckets
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int vvTried[ADDRMAN_TRIED_BUCKET_COUNT][ADDRMAN_BUCKET_SIZE];
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//! number of (unique) "new" entries
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int nNew;
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//! list of "new" buckets
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int vvNew[ADDRMAN_NEW_BUCKET_COUNT][ADDRMAN_BUCKET_SIZE];
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//! last time Good was called (memory only)
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int64_t nLastGood;
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//! Holds addrs inserted into tried table that collide with existing entries. Test-before-evict discpline used to resolve these collisions.
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std::set<int> m_tried_collisions;
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protected:
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//! secret key to randomize bucket select with
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uint256 nKey;
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//! Source of random numbers for randomization in inner loops
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FastRandomContext insecure_rand;
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//! Find an entry.
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CAddrInfo* Find(const CNetAddr& addr, int *pnId = nullptr);
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//! find an entry, creating it if necessary.
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//! nTime and nServices of the found node are updated, if necessary.
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CAddrInfo* Create(const CAddress &addr, const CNetAddr &addrSource, int *pnId = nullptr);
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//! Swap two elements in vRandom.
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void SwapRandom(unsigned int nRandomPos1, unsigned int nRandomPos2);
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//! Move an entry from the "new" table(s) to the "tried" table
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void MakeTried(CAddrInfo& info, int nId);
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//! Delete an entry. It must not be in tried, and have refcount 0.
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void Delete(int nId);
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//! Clear a position in a "new" table. This is the only place where entries are actually deleted.
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void ClearNew(int nUBucket, int nUBucketPos);
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//! Mark an entry "good", possibly moving it from "new" to "tried".
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void Good_(const CService &addr, bool test_before_evict, int64_t time);
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//! Add an entry to the "new" table.
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bool Add_(const CAddress &addr, const CNetAddr& source, int64_t nTimePenalty);
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//! Mark an entry as attempted to connect.
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void Attempt_(const CService &addr, bool fCountFailure, int64_t nTime);
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//! Select an address to connect to, if newOnly is set to true, only the new table is selected from.
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CAddrInfo Select_(bool newOnly);
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//! See if any to-be-evicted tried table entries have been tested and if so resolve the collisions.
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void ResolveCollisions_();
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//! Return a random to-be-evicted tried table address.
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CAddrInfo SelectTriedCollision_();
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//! Wraps GetRandInt to allow tests to override RandomInt and make it determinismistic.
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virtual int RandomInt(int nMax);
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#ifdef DEBUG_ADDRMAN
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//! Perform consistency check. Returns an error code or zero.
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int Check_();
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#endif
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//! Select several addresses at once.
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void GetAddr_(std::vector<CAddress> &vAddr);
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//! Mark an entry as currently-connected-to.
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void Connected_(const CService &addr, int64_t nTime);
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//! Update an entry's service bits.
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void SetServices_(const CService &addr, ServiceFlags nServices);
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public:
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/**
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* serialized format:
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* * version byte (currently 1)
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* * 0x20 + nKey (serialized as if it were a vector, for backward compatibility)
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* * nNew
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* * nTried
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* * number of "new" buckets XOR 2**30
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* * all nNew addrinfos in vvNew
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* * all nTried addrinfos in vvTried
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* * for each bucket:
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* * number of elements
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* * for each element: index
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*
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* 2**30 is xorred with the number of buckets to make addrman deserializer v0 detect it
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* as incompatible. This is necessary because it did not check the version number on
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* deserialization.
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*
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* Notice that vvTried, mapAddr and vVector are never encoded explicitly;
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* they are instead reconstructed from the other information.
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*
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* vvNew is serialized, but only used if ADDRMAN_UNKNOWN_BUCKET_COUNT didn't change,
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* otherwise it is reconstructed as well.
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*
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* This format is more complex, but significantly smaller (at most 1.5 MiB), and supports
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* changes to the ADDRMAN_ parameters without breaking the on-disk structure.
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*
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* We don't use ADD_SERIALIZE_METHODS since the serialization and deserialization code has
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* very little in common.
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*/
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template<typename Stream>
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void Serialize(Stream &s) const
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{
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LOCK(cs);
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unsigned char nVersion = 1;
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s << nVersion;
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s << ((unsigned char)32);
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s << nKey;
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s << nNew;
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s << nTried;
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int nUBuckets = ADDRMAN_NEW_BUCKET_COUNT ^ (1 << 30);
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s << nUBuckets;
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std::map<int, int> mapUnkIds;
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int nIds = 0;
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for (const auto& entry : mapInfo) {
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mapUnkIds[entry.first] = nIds;
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const CAddrInfo &info = entry.second;
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if (info.nRefCount) {
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assert(nIds != nNew); // this means nNew was wrong, oh ow
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s << info;
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nIds++;
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}
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}
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nIds = 0;
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for (const auto& entry : mapInfo) {
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const CAddrInfo &info = entry.second;
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if (info.fInTried) {
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assert(nIds != nTried); // this means nTried was wrong, oh ow
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s << info;
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nIds++;
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}
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}
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for (int bucket = 0; bucket < ADDRMAN_NEW_BUCKET_COUNT; bucket++) {
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int nSize = 0;
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for (int i = 0; i < ADDRMAN_BUCKET_SIZE; i++) {
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if (vvNew[bucket][i] != -1)
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nSize++;
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}
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s << nSize;
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for (int i = 0; i < ADDRMAN_BUCKET_SIZE; i++) {
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if (vvNew[bucket][i] != -1) {
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int nIndex = mapUnkIds[vvNew[bucket][i]];
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s << nIndex;
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}
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}
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}
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}
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template<typename Stream>
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void Unserialize(Stream& s)
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{
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LOCK(cs);
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Clear();
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unsigned char nVersion;
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s >> nVersion;
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unsigned char nKeySize;
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s >> nKeySize;
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if (nKeySize != 32) throw std::ios_base::failure("Incorrect keysize in addrman deserialization");
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s >> nKey;
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s >> nNew;
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s >> nTried;
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int nUBuckets = 0;
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s >> nUBuckets;
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if (nVersion != 0) {
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nUBuckets ^= (1 << 30);
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}
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if (nNew > ADDRMAN_NEW_BUCKET_COUNT * ADDRMAN_BUCKET_SIZE) {
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throw std::ios_base::failure("Corrupt CAddrMan serialization, nNew exceeds limit.");
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}
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if (nTried > ADDRMAN_TRIED_BUCKET_COUNT * ADDRMAN_BUCKET_SIZE) {
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throw std::ios_base::failure("Corrupt CAddrMan serialization, nTried exceeds limit.");
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}
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// Deserialize entries from the new table.
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for (int n = 0; n < nNew; n++) {
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CAddrInfo &info = mapInfo[n];
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s >> info;
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mapAddr[info] = n;
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info.nRandomPos = vRandom.size();
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vRandom.push_back(n);
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if (nVersion != 1 || nUBuckets != ADDRMAN_NEW_BUCKET_COUNT) {
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// In case the new table data cannot be used (nVersion unknown, or bucket count wrong),
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// immediately try to give them a reference based on their primary source address.
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int nUBucket = info.GetNewBucket(nKey);
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int nUBucketPos = info.GetBucketPosition(nKey, true, nUBucket);
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if (vvNew[nUBucket][nUBucketPos] == -1) {
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vvNew[nUBucket][nUBucketPos] = n;
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info.nRefCount++;
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}
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}
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}
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nIdCount = nNew;
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// Deserialize entries from the tried table.
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int nLost = 0;
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for (int n = 0; n < nTried; n++) {
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CAddrInfo info;
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s >> info;
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int nKBucket = info.GetTriedBucket(nKey);
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int nKBucketPos = info.GetBucketPosition(nKey, false, nKBucket);
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if (vvTried[nKBucket][nKBucketPos] == -1) {
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info.nRandomPos = vRandom.size();
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info.fInTried = true;
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vRandom.push_back(nIdCount);
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mapInfo[nIdCount] = info;
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mapAddr[info] = nIdCount;
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vvTried[nKBucket][nKBucketPos] = nIdCount;
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nIdCount++;
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} else {
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nLost++;
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}
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}
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nTried -= nLost;
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// Deserialize positions in the new table (if possible).
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for (int bucket = 0; bucket < nUBuckets; bucket++) {
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int nSize = 0;
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s >> nSize;
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for (int n = 0; n < nSize; n++) {
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int nIndex = 0;
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s >> nIndex;
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if (nIndex >= 0 && nIndex < nNew) {
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CAddrInfo &info = mapInfo[nIndex];
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int nUBucketPos = info.GetBucketPosition(nKey, true, bucket);
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if (nVersion == 1 && nUBuckets == ADDRMAN_NEW_BUCKET_COUNT && vvNew[bucket][nUBucketPos] == -1 && info.nRefCount < ADDRMAN_NEW_BUCKETS_PER_ADDRESS) {
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info.nRefCount++;
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vvNew[bucket][nUBucketPos] = nIndex;
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}
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}
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}
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}
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// Prune new entries with refcount 0 (as a result of collisions).
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int nLostUnk = 0;
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for (std::map<int, CAddrInfo>::const_iterator it = mapInfo.begin(); it != mapInfo.end(); ) {
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if (it->second.fInTried == false && it->second.nRefCount == 0) {
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std::map<int, CAddrInfo>::const_iterator itCopy = it++;
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Delete(itCopy->first);
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nLostUnk++;
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} else {
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it++;
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}
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}
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if (nLost + nLostUnk > 0) {
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LogPrint(BCLog::ADDRMAN, "addrman lost %i new and %i tried addresses due to collisions\n", nLostUnk, nLost);
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}
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Check();
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}
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void Clear()
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{
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LOCK(cs);
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std::vector<int>().swap(vRandom);
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nKey = GetRandHash();
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for (size_t bucket = 0; bucket < ADDRMAN_NEW_BUCKET_COUNT; bucket++) {
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for (size_t entry = 0; entry < ADDRMAN_BUCKET_SIZE; entry++) {
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vvNew[bucket][entry] = -1;
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}
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}
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for (size_t bucket = 0; bucket < ADDRMAN_TRIED_BUCKET_COUNT; bucket++) {
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for (size_t entry = 0; entry < ADDRMAN_BUCKET_SIZE; entry++) {
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vvTried[bucket][entry] = -1;
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}
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}
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nIdCount = 0;
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nTried = 0;
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nNew = 0;
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nLastGood = 1; //Initially at 1 so that "never" is strictly worse.
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mapInfo.clear();
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mapAddr.clear();
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}
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CAddrMan()
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{
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Clear();
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}
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~CAddrMan()
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{
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|
nKey.SetNull();
|
|
}
|
|
|
|
//! Return the number of (unique) addresses in all tables.
|
|
size_t size() const
|
|
{
|
|
LOCK(cs); // TODO: Cache this in an atomic to avoid this overhead
|
|
return vRandom.size();
|
|
}
|
|
|
|
//! Consistency check
|
|
void Check()
|
|
{
|
|
#ifdef DEBUG_ADDRMAN
|
|
{
|
|
LOCK(cs);
|
|
int err;
|
|
if ((err=Check_()))
|
|
LogPrintf("ADDRMAN CONSISTENCY CHECK FAILED!!! err=%i\n", err);
|
|
}
|
|
#endif
|
|
}
|
|
|
|
//! Add a single address.
|
|
bool Add(const CAddress &addr, const CNetAddr& source, int64_t nTimePenalty = 0)
|
|
{
|
|
LOCK(cs);
|
|
bool fRet = false;
|
|
Check();
|
|
fRet |= Add_(addr, source, nTimePenalty);
|
|
Check();
|
|
if (fRet) {
|
|
LogPrint(BCLog::ADDRMAN, "Added %s from %s: %i tried, %i new\n", addr.ToStringIPPort(), source.ToString(), nTried, nNew);
|
|
}
|
|
return fRet;
|
|
}
|
|
|
|
//! Add multiple addresses.
|
|
bool Add(const std::vector<CAddress> &vAddr, const CNetAddr& source, int64_t nTimePenalty = 0)
|
|
{
|
|
LOCK(cs);
|
|
int nAdd = 0;
|
|
Check();
|
|
for (std::vector<CAddress>::const_iterator it = vAddr.begin(); it != vAddr.end(); it++)
|
|
nAdd += Add_(*it, source, nTimePenalty) ? 1 : 0;
|
|
Check();
|
|
if (nAdd) {
|
|
LogPrint(BCLog::ADDRMAN, "Added %i addresses from %s: %i tried, %i new\n", nAdd, source.ToString(), nTried, nNew);
|
|
}
|
|
return nAdd > 0;
|
|
}
|
|
|
|
//! Mark an entry as accessible.
|
|
void Good(const CService &addr, bool test_before_evict = true, int64_t nTime = GetAdjustedTime())
|
|
{
|
|
LOCK(cs);
|
|
Check();
|
|
Good_(addr, test_before_evict, nTime);
|
|
Check();
|
|
}
|
|
|
|
//! Mark an entry as connection attempted to.
|
|
void Attempt(const CService &addr, bool fCountFailure, int64_t nTime = GetAdjustedTime())
|
|
{
|
|
LOCK(cs);
|
|
Check();
|
|
Attempt_(addr, fCountFailure, nTime);
|
|
Check();
|
|
}
|
|
|
|
//! See if any to-be-evicted tried table entries have been tested and if so resolve the collisions.
|
|
void ResolveCollisions()
|
|
{
|
|
LOCK(cs);
|
|
Check();
|
|
ResolveCollisions_();
|
|
Check();
|
|
}
|
|
|
|
//! Randomly select an address in tried that another address is attempting to evict.
|
|
CAddrInfo SelectTriedCollision()
|
|
{
|
|
CAddrInfo ret;
|
|
{
|
|
LOCK(cs);
|
|
Check();
|
|
ret = SelectTriedCollision_();
|
|
Check();
|
|
}
|
|
return ret;
|
|
}
|
|
|
|
/**
|
|
* Choose an address to connect to.
|
|
*/
|
|
CAddrInfo Select(bool newOnly = false)
|
|
{
|
|
CAddrInfo addrRet;
|
|
{
|
|
LOCK(cs);
|
|
Check();
|
|
addrRet = Select_(newOnly);
|
|
Check();
|
|
}
|
|
return addrRet;
|
|
}
|
|
|
|
//! Return a bunch of addresses, selected at random.
|
|
std::vector<CAddress> GetAddr()
|
|
{
|
|
Check();
|
|
std::vector<CAddress> vAddr;
|
|
{
|
|
LOCK(cs);
|
|
GetAddr_(vAddr);
|
|
}
|
|
Check();
|
|
return vAddr;
|
|
}
|
|
|
|
//! Mark an entry as currently-connected-to.
|
|
void Connected(const CService &addr, int64_t nTime = GetAdjustedTime())
|
|
{
|
|
LOCK(cs);
|
|
Check();
|
|
Connected_(addr, nTime);
|
|
Check();
|
|
}
|
|
|
|
void SetServices(const CService &addr, ServiceFlags nServices)
|
|
{
|
|
LOCK(cs);
|
|
Check();
|
|
SetServices_(addr, nServices);
|
|
Check();
|
|
}
|
|
|
|
};
|
|
|
|
#endif // BITCOIN_ADDRMAN_H
|