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c4a3cd6a13
4d51e9b
Assert ConnectBlock block and pIndex are the same block (NicolasDorier)972714c
pow: GetNextWorkRequired never called with NULL pindexLast (Daniel Cousens)cc44c8f
ContextualCheckBlockHeader should never have pindexPrev to NULL (NicolasDorier) Tree-SHA512: 7cc568bf9417267c335f21ec3d1505b26e56e5b3d5f4d3dbb555279489800aaa65a3bcd7bc376e274dd102912aec16ddbb18de2e2060b2667b41eb979cd9321e
247 lines
9.4 KiB
C++
247 lines
9.4 KiB
C++
// Copyright (c) 2009-2010 Satoshi Nakamoto
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// Copyright (c) 2009-2015 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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#include "pow.h"
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#include "arith_uint256.h"
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#include "chain.h"
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#include "chainparams.h"
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#include "primitives/block.h"
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#include "uint256.h"
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#include <math.h>
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unsigned int static KimotoGravityWell(const CBlockIndex* pindexLast, const Consensus::Params& params) {
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const CBlockIndex *BlockLastSolved = pindexLast;
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const CBlockIndex *BlockReading = pindexLast;
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uint64_t PastBlocksMass = 0;
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int64_t PastRateActualSeconds = 0;
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int64_t PastRateTargetSeconds = 0;
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double PastRateAdjustmentRatio = double(1);
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arith_uint256 PastDifficultyAverage;
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arith_uint256 PastDifficultyAveragePrev;
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double EventHorizonDeviation;
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double EventHorizonDeviationFast;
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double EventHorizonDeviationSlow;
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uint64_t pastSecondsMin = params.nPowTargetTimespan * 0.025;
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uint64_t pastSecondsMax = params.nPowTargetTimespan * 7;
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uint64_t PastBlocksMin = pastSecondsMin / params.nPowTargetSpacing;
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uint64_t PastBlocksMax = pastSecondsMax / params.nPowTargetSpacing;
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if (BlockLastSolved == NULL || BlockLastSolved->nHeight == 0 || (uint64_t)BlockLastSolved->nHeight < PastBlocksMin) { return UintToArith256(params.powLimit).GetCompact(); }
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for (unsigned int i = 1; BlockReading && BlockReading->nHeight > 0; i++) {
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if (PastBlocksMax > 0 && i > PastBlocksMax) { break; }
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PastBlocksMass++;
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PastDifficultyAverage.SetCompact(BlockReading->nBits);
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if (i > 1) {
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// handle negative arith_uint256
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if(PastDifficultyAverage >= PastDifficultyAveragePrev)
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PastDifficultyAverage = ((PastDifficultyAverage - PastDifficultyAveragePrev) / i) + PastDifficultyAveragePrev;
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else
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PastDifficultyAverage = PastDifficultyAveragePrev - ((PastDifficultyAveragePrev - PastDifficultyAverage) / i);
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}
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PastDifficultyAveragePrev = PastDifficultyAverage;
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PastRateActualSeconds = BlockLastSolved->GetBlockTime() - BlockReading->GetBlockTime();
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PastRateTargetSeconds = params.nPowTargetSpacing * PastBlocksMass;
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PastRateAdjustmentRatio = double(1);
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if (PastRateActualSeconds < 0) { PastRateActualSeconds = 0; }
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if (PastRateActualSeconds != 0 && PastRateTargetSeconds != 0) {
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PastRateAdjustmentRatio = double(PastRateTargetSeconds) / double(PastRateActualSeconds);
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}
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EventHorizonDeviation = 1 + (0.7084 * pow((double(PastBlocksMass)/double(28.2)), -1.228));
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EventHorizonDeviationFast = EventHorizonDeviation;
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EventHorizonDeviationSlow = 1 / EventHorizonDeviation;
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if (PastBlocksMass >= PastBlocksMin) {
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if ((PastRateAdjustmentRatio <= EventHorizonDeviationSlow) || (PastRateAdjustmentRatio >= EventHorizonDeviationFast))
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{ assert(BlockReading); break; }
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}
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if (BlockReading->pprev == NULL) { assert(BlockReading); break; }
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BlockReading = BlockReading->pprev;
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}
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arith_uint256 bnNew(PastDifficultyAverage);
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if (PastRateActualSeconds != 0 && PastRateTargetSeconds != 0) {
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bnNew *= PastRateActualSeconds;
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bnNew /= PastRateTargetSeconds;
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}
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if (bnNew > UintToArith256(params.powLimit)) {
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bnNew = UintToArith256(params.powLimit);
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}
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return bnNew.GetCompact();
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}
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unsigned int static DarkGravityWave(const CBlockIndex* pindexLast, const CBlockHeader *pblock, const Consensus::Params& params) {
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/* current difficulty formula, dash - DarkGravity v3, written by Evan Duffield - evan@dash.org */
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const arith_uint256 bnPowLimit = UintToArith256(params.powLimit);
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int64_t nPastBlocks = 24;
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// make sure we have at least (nPastBlocks + 1) blocks, otherwise just return powLimit
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if (!pindexLast || pindexLast->nHeight < nPastBlocks) {
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return bnPowLimit.GetCompact();
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}
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if (params.fPowAllowMinDifficultyBlocks) {
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// recent block is more than 2 hours old
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if (pblock->GetBlockTime() > pindexLast->GetBlockTime() + 2 * 60 * 60) {
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return bnPowLimit.GetCompact();
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}
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// recent block is more than 10 minutes old
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if (pblock->GetBlockTime() > pindexLast->GetBlockTime() + params.nPowTargetSpacing * 4) {
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arith_uint256 bnNew = arith_uint256().SetCompact(pindexLast->nBits) * 10;
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if (bnNew > bnPowLimit) {
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bnNew = bnPowLimit;
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}
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return bnNew.GetCompact();
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}
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}
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const CBlockIndex *pindex = pindexLast;
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arith_uint256 bnPastTargetAvg;
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for (unsigned int nCountBlocks = 1; nCountBlocks <= nPastBlocks; nCountBlocks++) {
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arith_uint256 bnTarget = arith_uint256().SetCompact(pindex->nBits);
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if (nCountBlocks == 1) {
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bnPastTargetAvg = bnTarget;
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} else {
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// NOTE: that's not an average really...
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bnPastTargetAvg = (bnPastTargetAvg * nCountBlocks + bnTarget) / (nCountBlocks + 1);
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}
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if(nCountBlocks != nPastBlocks) {
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assert(pindex->pprev); // should never fail
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pindex = pindex->pprev;
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}
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}
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arith_uint256 bnNew(bnPastTargetAvg);
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int64_t nActualTimespan = pindexLast->GetBlockTime() - pindex->GetBlockTime();
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// NOTE: is this accurate? nActualTimespan counts it for (nPastBlocks - 1) blocks only...
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int64_t nTargetTimespan = nPastBlocks * params.nPowTargetSpacing;
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if (nActualTimespan < nTargetTimespan/3)
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nActualTimespan = nTargetTimespan/3;
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if (nActualTimespan > nTargetTimespan*3)
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nActualTimespan = nTargetTimespan*3;
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// Retarget
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bnNew *= nActualTimespan;
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bnNew /= nTargetTimespan;
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if (bnNew > bnPowLimit) {
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bnNew = bnPowLimit;
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}
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return bnNew.GetCompact();
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}
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unsigned int GetNextWorkRequiredBTC(const CBlockIndex* pindexLast, const CBlockHeader *pblock, const Consensus::Params& params)
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{
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assert(pindexLast != NULL);
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unsigned int nProofOfWorkLimit = UintToArith256(params.powLimit).GetCompact();
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// Only change once per interval
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if ((pindexLast->nHeight+1) % params.DifficultyAdjustmentInterval() != 0)
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{
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if (params.fPowAllowMinDifficultyBlocks)
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{
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// Special difficulty rule for testnet:
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// If the new block's timestamp is more than 2* 2.5 minutes
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// then allow mining of a min-difficulty block.
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if (pblock->GetBlockTime() > pindexLast->GetBlockTime() + params.nPowTargetSpacing*2)
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return nProofOfWorkLimit;
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else
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{
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// Return the last non-special-min-difficulty-rules-block
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const CBlockIndex* pindex = pindexLast;
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while (pindex->pprev && pindex->nHeight % params.DifficultyAdjustmentInterval() != 0 && pindex->nBits == nProofOfWorkLimit)
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pindex = pindex->pprev;
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return pindex->nBits;
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}
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}
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return pindexLast->nBits;
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}
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// Go back by what we want to be 1 day worth of blocks
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int nHeightFirst = pindexLast->nHeight - (params.DifficultyAdjustmentInterval()-1);
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assert(nHeightFirst >= 0);
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const CBlockIndex* pindexFirst = pindexLast->GetAncestor(nHeightFirst);
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assert(pindexFirst);
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return CalculateNextWorkRequired(pindexLast, pindexFirst->GetBlockTime(), params);
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}
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unsigned int GetNextWorkRequired(const CBlockIndex* pindexLast, const CBlockHeader *pblock, const Consensus::Params& params)
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{
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// this is only active on devnets
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if (pindexLast->nHeight < params.nMinimumDifficultyBlocks) {
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unsigned int nProofOfWorkLimit = UintToArith256(params.powLimit).GetCompact();
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return nProofOfWorkLimit;
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}
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// Most recent algo first
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if (pindexLast->nHeight + 1 >= params.nPowDGWHeight) {
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return DarkGravityWave(pindexLast, pblock, params);
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}
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else if (pindexLast->nHeight + 1 >= params.nPowKGWHeight) {
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return KimotoGravityWell(pindexLast, params);
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}
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else {
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return GetNextWorkRequiredBTC(pindexLast, pblock, params);
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}
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}
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// for DIFF_BTC only!
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unsigned int CalculateNextWorkRequired(const CBlockIndex* pindexLast, int64_t nFirstBlockTime, const Consensus::Params& params)
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{
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if (params.fPowNoRetargeting)
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return pindexLast->nBits;
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// Limit adjustment step
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int64_t nActualTimespan = pindexLast->GetBlockTime() - nFirstBlockTime;
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if (nActualTimespan < params.nPowTargetTimespan/4)
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nActualTimespan = params.nPowTargetTimespan/4;
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if (nActualTimespan > params.nPowTargetTimespan*4)
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nActualTimespan = params.nPowTargetTimespan*4;
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// Retarget
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const arith_uint256 bnPowLimit = UintToArith256(params.powLimit);
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arith_uint256 bnNew;
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bnNew.SetCompact(pindexLast->nBits);
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bnNew *= nActualTimespan;
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bnNew /= params.nPowTargetTimespan;
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if (bnNew > bnPowLimit)
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bnNew = bnPowLimit;
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return bnNew.GetCompact();
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}
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bool CheckProofOfWork(uint256 hash, unsigned int nBits, const Consensus::Params& params)
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{
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bool fNegative;
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bool fOverflow;
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arith_uint256 bnTarget;
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bnTarget.SetCompact(nBits, &fNegative, &fOverflow);
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// Check range
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if (fNegative || bnTarget == 0 || fOverflow || bnTarget > UintToArith256(params.powLimit))
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return false;
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// Check proof of work matches claimed amount
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if (UintToArith256(hash) > bnTarget)
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return false;
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return true;
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}
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