Hush Full Node software. We were censored from Github, this is where all development happens now.
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244 lines
9.3 KiB
244 lines
9.3 KiB
// Copyright (c) 2009-2010 Satoshi Nakamoto
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// Copyright (c) 2009-2014 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 "crypto/equihash.h"
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#include "primitives/block.h"
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#include "streams.h"
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#include "uint256.h"
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#include "util.h"
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#include "sodium.h"
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#ifdef ENABLE_RUST
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#include "librustzcash.h"
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#endif // ENABLE_RUST
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uint32_t komodo_chainactive_timestamp();
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extern uint32_t ASSETCHAINS_ALGO, ASSETCHAINS_EQUIHASH;
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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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unsigned int nProofOfWorkLimit = UintToArith256(params.powLimit).GetCompact();
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// Genesis block
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if (pindexLast == NULL )
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return nProofOfWorkLimit;
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// Find the first block in the averaging interval
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const CBlockIndex* pindexFirst = pindexLast;
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arith_uint256 bnTot {0};
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for (int i = 0; pindexFirst && i < params.nPowAveragingWindow; i++) {
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arith_uint256 bnTmp;
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bnTmp.SetCompact(pindexFirst->nBits);
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bnTot += bnTmp;
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pindexFirst = pindexFirst->pprev;
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}
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// Check we have enough blocks
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if (pindexFirst == NULL)
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return nProofOfWorkLimit;
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arith_uint256 bnAvg {bnTot / params.nPowAveragingWindow};
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return CalculateNextWorkRequired(bnAvg, pindexLast->GetMedianTimePast(), pindexFirst->GetMedianTimePast(), params);
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}
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unsigned int CalculateNextWorkRequired(arith_uint256 bnAvg,
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int64_t nLastBlockTime, int64_t nFirstBlockTime,
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const Consensus::Params& params)
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{
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// Limit adjustment step
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// Use medians to prevent time-warp attacks
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int64_t nActualTimespan = nLastBlockTime - nFirstBlockTime;
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LogPrint("pow", " nActualTimespan = %d before dampening\n", nActualTimespan);
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nActualTimespan = params.AveragingWindowTimespan() + (nActualTimespan - params.AveragingWindowTimespan())/4;
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LogPrint("pow", " nActualTimespan = %d before bounds\n", nActualTimespan);
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if (nActualTimespan < params.MinActualTimespan())
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nActualTimespan = params.MinActualTimespan();
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if (nActualTimespan > params.MaxActualTimespan())
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nActualTimespan = params.MaxActualTimespan();
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// Retarget
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const arith_uint256 bnPowLimit = UintToArith256(params.powLimit);
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arith_uint256 bnNew {bnAvg};
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bnNew /= params.AveragingWindowTimespan();
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bnNew *= nActualTimespan;
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if (bnNew > bnPowLimit)
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bnNew = bnPowLimit;
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/// debug print
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LogPrint("pow", "GetNextWorkRequired RETARGET\n");
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LogPrint("pow", "params.AveragingWindowTimespan() = %d nActualTimespan = %d\n", params.AveragingWindowTimespan(), nActualTimespan);
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LogPrint("pow", "Current average: %08x %s\n", bnAvg.GetCompact(), bnAvg.ToString());
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LogPrint("pow", "After: %08x %s\n", bnNew.GetCompact(), bnNew.ToString());
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return bnNew.GetCompact();
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}
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bool CheckEquihashSolution(const CBlockHeader *pblock, const CChainParams& params)
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{
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if (ASSETCHAINS_ALGO != ASSETCHAINS_EQUIHASH)
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return true;
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unsigned int n = params.EquihashN();
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unsigned int k = params.EquihashK();
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// Hash state
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crypto_generichash_blake2b_state state;
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EhInitialiseState(n, k, state);
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// I = the block header minus nonce and solution.
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CEquihashInput I{*pblock};
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// I||V
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CDataStream ss(SER_NETWORK, PROTOCOL_VERSION);
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ss << I;
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ss << pblock->nNonce;
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// H(I||V||...
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crypto_generichash_blake2b_update(&state, (unsigned char*)&ss[0], ss.size());
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#ifdef ENABLE_RUST
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// Ensure that our Rust interactions are working in production builds. This is
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// temporary and should be removed.
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{
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assert(librustzcash_xor(0x0f0f0f0f0f0f0f0f, 0x1111111111111111) == 0x1e1e1e1e1e1e1e1e);
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}
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#endif // ENABLE_RUST
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bool isValid;
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EhIsValidSolution(n, k, state, pblock->nSolution, isValid);
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if (!isValid)
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return error("CheckEquihashSolution(): invalid solution");
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return true;
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}
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int32_t komodo_chosennotary(int32_t *notaryidp,int32_t height,uint8_t *pubkey33,uint32_t timestamp);
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int32_t komodo_is_special(int32_t height,uint8_t pubkey33[33],uint32_t timestamp);
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int32_t komodo_currentheight();
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CBlockIndex *komodo_chainactive(int32_t height);
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void komodo_index2pubkey33(uint8_t *pubkey33,CBlockIndex *pindex,int32_t height);
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extern int32_t KOMODO_CHOSEN_ONE;
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extern char ASSETCHAINS_SYMBOL[];
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#define KOMODO_ELECTION_GAP 2000
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int32_t komodo_eligiblenotary(uint8_t pubkeys[66][33],int32_t *mids,int32_t *nonzpkeysp,int32_t height);
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int32_t KOMODO_LOADINGBLOCKS;
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extern std::string NOTARY_PUBKEY;
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bool CheckProofOfWork(int32_t height,uint8_t *pubkey33,uint256 hash, unsigned int nBits, const Consensus::Params& params)
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{
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extern int32_t KOMODO_REWIND;
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bool fNegative,fOverflow; int32_t i,nonzpkeys=0,nonz=0,special=0,special2=0,notaryid=-1,duplicate,flag = 0, mids[66]; uint32_t timestamp = 0;
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arith_uint256 bnTarget; CBlockIndex *pindex; uint8_t pubkeys[66][33];
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timestamp = komodo_chainactive_timestamp();
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bnTarget.SetCompact(nBits, &fNegative, &fOverflow);
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if ( height == 0 )
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height = komodo_currentheight() + 1;
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special = komodo_chosennotary(¬aryid,height,pubkey33,timestamp);
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flag = komodo_eligiblenotary(pubkeys,mids,&nonzpkeys,height);
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if ( height > 34000 && ASSETCHAINS_SYMBOL[0] == 0 ) // 0 -> non-special notary
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{
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for (i=0; i<33; i++)
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{
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if ( pubkey33[i] != 0 )
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nonz++;
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}
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if ( nonz == 0 )
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return(true); // will come back via different path with pubkey set
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special2 = komodo_is_special(height,pubkey33,timestamp);
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if ( notaryid >= 0 )
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{
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if ( height > 10000 && height < 80000 && (special != 0 || special2 > 0) )
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flag = 1;
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else if ( height >= 80000 && height < 108000 && special2 > 0 )
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flag = 1;
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else if ( height >= 108000 && special2 > 0 )
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flag = ((height % KOMODO_ELECTION_GAP) > 64 || (height % KOMODO_ELECTION_GAP) == 0);
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if ( flag != 0 )
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bnTarget.SetCompact(KOMODO_MINDIFF_NBITS,&fNegative,&fOverflow);
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}
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}
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if (fNegative || bnTarget == 0 || fOverflow || bnTarget > UintToArith256(params.powLimit))
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return error("CheckProofOfWork(): nBits below minimum work");
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// Check proof of work matches claimed amount
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if ( UintToArith256(hash) > bnTarget )
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{
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if ( 0 && (height < 235300 || height >= 236000) && KOMODO_LOADINGBLOCKS == 0 && height > 188000 )
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//&& )//186269, 182507&& komodo_chainactive(height) != 0 && nonzpkeys > 0
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{
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for (i=31; i>=0; i--)
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printf("%02x",((uint8_t *)&hash)[i]);
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printf(" hash vs ");
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for (i=31; i>=0; i--)
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printf("%02x",((uint8_t *)&bnTarget)[i]);
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printf(" ht.%d special.%d notaryid.%d ht.%d mod.%d error\n",height,special,notaryid,height,(height % 35));
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for (i=0; i<33; i++)
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printf("%02x",pubkey33[i]);
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printf(" <- pubkey\n");
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for (i=0; i<66; i++)
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printf("%d ",mids[i]);
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printf(" minerids from ht.%d\n",height);
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if ( KOMODO_REWIND == 0 && (notaryid >= 0 || height > 225000) )
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{
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fprintf(stderr,"pow error height.%d loading.%d notaryid.%d\n",height,KOMODO_LOADINGBLOCKS,notaryid);
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return error("CheckProofOfWork(): hash doesn't match nBits");
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} else fprintf(stderr,"skip return error height.%d loading.%d\n",height,KOMODO_LOADINGBLOCKS);
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} //else fprintf(stderr,"skip height.%d loading.%d\n",height,KOMODO_LOADINGBLOCKS);
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}
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if ( 0 && height > 248000 )
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{
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for (i=31; i>=0; i--)
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fprintf(stderr,"%02x",((uint8_t *)&hash)[i]);
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fprintf(stderr," hash vs ");
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for (i=31; i>=0; i--)
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fprintf(stderr,"%02x",((uint8_t *)&bnTarget)[i]);
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fprintf(stderr," POW ok for ht.%d notaryid.%d: ",height,notaryid);
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for (i=0; i<33; i++)
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fprintf(stderr,"%02x",pubkey33[i]);
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fprintf(stderr,"\n");
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}
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return true;
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}
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arith_uint256 GetBlockProof(const CBlockIndex& block)
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{
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arith_uint256 bnTarget;
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bool fNegative;
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bool fOverflow;
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bnTarget.SetCompact(block.nBits, &fNegative, &fOverflow);
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if (fNegative || fOverflow || bnTarget == 0)
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return 0;
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// We need to compute 2**256 / (bnTarget+1), but we can't represent 2**256
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// as it's too large for a arith_uint256. However, as 2**256 is at least as large
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// as bnTarget+1, it is equal to ((2**256 - bnTarget - 1) / (bnTarget+1)) + 1,
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// or ~bnTarget / (nTarget+1) + 1.
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return (~bnTarget / (bnTarget + 1)) + 1;
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}
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int64_t GetBlockProofEquivalentTime(const CBlockIndex& to, const CBlockIndex& from, const CBlockIndex& tip, const Consensus::Params& params)
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{
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arith_uint256 r;
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int sign = 1;
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if (to.nChainWork > from.nChainWork) {
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r = to.nChainWork - from.nChainWork;
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} else {
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r = from.nChainWork - to.nChainWork;
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sign = -1;
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}
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r = r * arith_uint256(params.nPowTargetSpacing) / GetBlockProof(tip);
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if (r.bits() > 63) {
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return sign * std::numeric_limits<int64_t>::max();
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}
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return sign * r.GetLow64();
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}
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