Orphan block fill-up-memory attack prevention
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@ -2,16 +2,23 @@
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// Distributed under the MIT/X11 software license, see the accompanying
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// file license.txt or http://www.opensource.org/licenses/mit-license.php.
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#include "checkpoints.h"
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#include "uint256.h"
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#include "util.h"
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#include <boost/assign/list_of.hpp> // for 'map_list_of()'
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#include <boost/foreach.hpp>
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#include "headers.h"
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#include "checkpoints.h"
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namespace Checkpoints
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{
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typedef std::map<int, uint256> MapCheckpoints;
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//
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// What makes a good checkpoint block?
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// + Is surrounded by blocks with reasonable timestamps
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// (no blocks before with a timestamp after, none after with
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// timestamp before)
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// + Contains no strange transactions
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//
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static MapCheckpoints mapCheckpoints =
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boost::assign::map_list_of
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( 11111, uint256("0x0000000069e244f73d78e8fd29ba2fd2ed618bd6fa2ee92559f542fdb26e7c1d"))
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@ -36,8 +43,23 @@ namespace Checkpoints
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int GetTotalBlocksEstimate()
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{
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if (fTestNet) return 0; // Testnet has no checkpoints
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if (fTestNet) return 0;
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return mapCheckpoints.rbegin()->first;
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}
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CBlockIndex* GetLastCheckpoint(const std::map<uint256, CBlockIndex*>& mapBlockIndex)
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{
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if (fTestNet) return NULL;
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int64 nResult;
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BOOST_REVERSE_FOREACH(const MapCheckpoints::value_type& i, mapCheckpoints)
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{
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const uint256& hash = i.second;
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std::map<uint256, CBlockIndex*>::const_iterator t = mapBlockIndex.find(hash);
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if (t != mapBlockIndex.end())
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return t->second;
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}
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return NULL;
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}
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}
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@ -4,7 +4,11 @@
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#ifndef BITCOIN_CHECKPOINT_H
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#define BITCOIN_CHECKPOINT_H
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#include <map>
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#include "util.h"
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class uint256;
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class CBlockIndex;
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//
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// Block-chain checkpoints are compiled-in sanity checks.
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@ -17,6 +21,9 @@ namespace Checkpoints
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// Return conservative estimate of total number of blocks, 0 if unknown
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int GetTotalBlocksEstimate();
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// Returns last CBlockIndex* in mapBlockIndex that is a checkpoint
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CBlockIndex* GetLastCheckpoint(const std::map<uint256, CBlockIndex*>& mapBlockIndex);
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}
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#endif
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49
src/main.cpp
49
src/main.cpp
@ -659,11 +659,32 @@ int64 static GetBlockValue(int nHeight, int64 nFees)
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return nSubsidy + nFees;
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}
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static const int64 nTargetTimespan = 14 * 24 * 60 * 60; // two weeks
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static const int64 nTargetSpacing = 10 * 60;
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static const int64 nInterval = nTargetTimespan / nTargetSpacing;
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//
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// minimum amount of work that could possibly be required nTime after
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// minimum work required was nBase
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//
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unsigned int ComputeMinWork(unsigned int nBase, int64 nTime)
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{
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CBigNum bnResult;
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bnResult.SetCompact(nBase);
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while (nTime > 0 && bnResult < bnProofOfWorkLimit)
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{
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// Maximum 400% adjustment...
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bnResult *= 4;
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// ... in best-case exactly 4-times-normal target time
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nTime -= nTargetTimespan*4;
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}
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if (bnResult > bnProofOfWorkLimit)
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bnResult = bnProofOfWorkLimit;
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return bnResult.GetCompact();
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}
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unsigned int static GetNextWorkRequired(const CBlockIndex* pindexLast)
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{
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const int64 nTargetTimespan = 14 * 24 * 60 * 60; // two weeks
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const int64 nTargetSpacing = 10 * 60;
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const int64 nInterval = nTargetTimespan / nTargetSpacing;
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// Genesis block
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if (pindexLast == NULL)
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@ -1340,6 +1361,28 @@ bool ProcessBlock(CNode* pfrom, CBlock* pblock)
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if (!pblock->CheckBlock())
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return error("ProcessBlock() : CheckBlock FAILED");
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CBlockIndex* pcheckpoint = Checkpoints::GetLastCheckpoint(mapBlockIndex);
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if (pcheckpoint && pblock->hashPrevBlock != hashBestChain)
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{
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// Extra checks to prevent "fill up memory by spamming with bogus blocks"
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int64 deltaTime = pblock->GetBlockTime() - pcheckpoint->nTime;
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if (deltaTime < 0)
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{
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pfrom->Misbehaving(100);
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return error("ProcessBlock() : block with timestamp before last checkpoint");
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}
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CBigNum bnNewBlock;
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bnNewBlock.SetCompact(pblock->nBits);
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CBigNum bnRequired;
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bnRequired.SetCompact(ComputeMinWork(pcheckpoint->nBits, deltaTime));
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if (bnNewBlock > bnRequired)
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{
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pfrom->Misbehaving(100);
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return error("ProcessBlock() : block with too little proof-of-work");
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}
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}
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// If don't already have its previous block, shunt it off to holding area until we get it
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if (!mapBlockIndex.count(pblock->hashPrevBlock))
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{
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@ -99,6 +99,7 @@ void IncrementExtraNonce(CBlock* pblock, CBlockIndex* pindexPrev, unsigned int&
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void FormatHashBuffers(CBlock* pblock, char* pmidstate, char* pdata, char* phash1);
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bool CheckWork(CBlock* pblock, CWallet& wallet, CReserveKey& reservekey);
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bool CheckProofOfWork(uint256 hash, unsigned int nBits);
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unsigned int ComputeMinWork(unsigned int nBase, int64 nTime);
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int GetNumBlocksOfPeers();
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bool IsInitialBlockDownload();
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std::string GetWarnings(std::string strFor);
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@ -1,6 +1,7 @@
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//
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// Unit tests for denial-of-service detection/prevention code
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//
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#include <boost/assign/list_of.hpp> // for 'map_list_of()'
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#include <boost/test/unit_test.hpp>
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#include <boost/foreach.hpp>
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@ -64,4 +65,54 @@ BOOST_AUTO_TEST_CASE(DoS_bantime)
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BOOST_CHECK(!CNode::IsBanned(addr.ip));
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}
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static bool CheckNBits(unsigned int nbits1, int64 time1, unsigned int nbits2, int64 time2)
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{
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if (time1 > time2)
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return CheckNBits(nbits2, time2, nbits1, time1);
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int64 deltaTime = time2-time1;
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CBigNum required;
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required.SetCompact(ComputeMinWork(nbits1, deltaTime));
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CBigNum have;
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have.SetCompact(nbits2);
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return (have <= required);
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}
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BOOST_AUTO_TEST_CASE(DoS_checknbits)
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{
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using namespace boost::assign; // for 'map_list_of()'
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// Timestamps,nBits from the bitcoin blockchain.
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// These are the block-chain checkpoint blocks
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typedef std::map<int64, unsigned int> BlockData;
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BlockData chainData =
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map_list_of(1239852051,486604799)(1262749024,486594666)
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(1279305360,469854461)(1280200847,469830746)(1281678674,469809688)
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(1296207707,453179945)(1302624061,453036989)(1309640330,437004818)
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(1313172719,436789733);
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// Make sure CheckNBits considers every combination of block-chain-lock-in-points
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// "sane":
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BOOST_FOREACH(const BlockData::value_type& i, chainData)
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{
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BOOST_FOREACH(const BlockData::value_type& j, chainData)
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{
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BOOST_CHECK(CheckNBits(i.second, i.first, j.second, j.first));
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}
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}
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// Test a couple of insane combinations:
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BlockData::value_type firstcheck = *(chainData.begin());
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BlockData::value_type lastcheck = *(chainData.rbegin());
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// First checkpoint difficulty at or a while after the last checkpoint time should fail when
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// compared to last checkpoint
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BOOST_CHECK(!CheckNBits(firstcheck.second, lastcheck.first+60*10, lastcheck.second, lastcheck.first));
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BOOST_CHECK(!CheckNBits(firstcheck.second, lastcheck.first+60*60*24*14, lastcheck.second, lastcheck.first));
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// ... but OK if enough time passed for difficulty to adjust downward:
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BOOST_CHECK(CheckNBits(firstcheck.second, lastcheck.first+60*60*24*365*4, lastcheck.second, lastcheck.first));
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}
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BOOST_AUTO_TEST_SUITE_END()
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