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// Copyright (c) 2010 Satoshi Nakamoto
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// Copyright (c) 2009-2012 The Bitcoin developers
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// Distributed under the MIT/X11 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 "main.h"
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#include "db.h"
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#include "init.h"
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#include "bitcoinrpc.h"
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using namespace json_spirit;
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using namespace std;
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Value getgenerate(const Array& params, bool fHelp)
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{
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if (fHelp || params.size() != 0)
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throw runtime_error(
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"getgenerate\n"
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"Returns true or false.");
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return GetBoolArg("-gen");
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}
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Value setgenerate(const Array& params, bool fHelp)
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{
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if (fHelp || params.size() < 1 || params.size() > 2)
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throw runtime_error(
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"setgenerate <generate> [genproclimit]\n"
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"<generate> is true or false to turn generation on or off.\n"
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"Generation is limited to [genproclimit] processors, -1 is unlimited.");
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bool fGenerate = true;
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if (params.size() > 0)
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fGenerate = params[0].get_bool();
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if (params.size() > 1)
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{
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int nGenProcLimit = params[1].get_int();
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mapArgs["-genproclimit"] = itostr(nGenProcLimit);
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if (nGenProcLimit == 0)
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fGenerate = false;
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}
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mapArgs["-gen"] = (fGenerate ? "1" : "0");
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GenerateBitcoins(fGenerate, pwalletMain);
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return Value::null;
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}
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Value gethashespersec(const Array& params, bool fHelp)
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{
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if (fHelp || params.size() != 0)
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throw runtime_error(
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"gethashespersec\n"
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"Returns a recent hashes per second performance measurement while generating.");
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if (GetTimeMillis() - nHPSTimerStart > 8000)
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return (boost::int64_t)0;
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return (boost::int64_t)dHashesPerSec;
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}
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Value getmininginfo(const Array& params, bool fHelp)
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{
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if (fHelp || params.size() != 0)
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throw runtime_error(
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"getmininginfo\n"
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"Returns an object containing mining-related information.");
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Object obj;
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obj.push_back(Pair("blocks", (int)nBestHeight));
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obj.push_back(Pair("currentblocksize",(uint64_t)nLastBlockSize));
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obj.push_back(Pair("currentblocktx",(uint64_t)nLastBlockTx));
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obj.push_back(Pair("difficulty", (double)GetDifficulty()));
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obj.push_back(Pair("errors", GetWarnings("statusbar")));
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obj.push_back(Pair("generate", GetBoolArg("-gen")));
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obj.push_back(Pair("genproclimit", (int)GetArg("-genproclimit", -1)));
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obj.push_back(Pair("hashespersec", gethashespersec(params, false)));
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obj.push_back(Pair("pooledtx", (uint64_t)mempool.size()));
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obj.push_back(Pair("testnet", fTestNet));
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return obj;
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}
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Value getwork(const Array& params, bool fHelp)
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{
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if (fHelp || params.size() > 1)
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throw runtime_error(
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"getwork [data]\n"
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"If [data] is not specified, returns formatted hash data to work on:\n"
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" \"midstate\" : precomputed hash state after hashing the first half of the data (DEPRECATED)\n" // deprecated
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" \"data\" : block data\n"
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" \"hash1\" : formatted hash buffer for second hash (DEPRECATED)\n" // deprecated
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" \"target\" : little endian hash target\n"
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"If [data] is specified, tries to solve the block and returns true if it was successful.");
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if (vNodes.empty())
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throw JSONRPCError(RPC_CLIENT_NOT_CONNECTED, "Bitcoin is not connected!");
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if (IsInitialBlockDownload())
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throw JSONRPCError(RPC_CLIENT_IN_INITIAL_DOWNLOAD, "Bitcoin is downloading blocks...");
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typedef map<uint256, pair<CBlock*, CScript> > mapNewBlock_t;
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static mapNewBlock_t mapNewBlock; // FIXME: thread safety
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static vector<CBlockTemplate*> vNewBlockTemplate;
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static CReserveKey reservekey(pwalletMain);
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if (params.size() == 0)
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{
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// Update block
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static unsigned int nTransactionsUpdatedLast;
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static CBlockIndex* pindexPrev;
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static int64 nStart;
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static CBlockTemplate* pblocktemplate;
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if (pindexPrev != pindexBest ||
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(nTransactionsUpdated != nTransactionsUpdatedLast && GetTime() - nStart > 60))
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{
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if (pindexPrev != pindexBest)
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{
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// Deallocate old blocks since they're obsolete now
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mapNewBlock.clear();
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BOOST_FOREACH(CBlockTemplate* pblocktemplate, vNewBlockTemplate)
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delete pblocktemplate;
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vNewBlockTemplate.clear();
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}
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// Clear pindexPrev so future getworks make a new block, despite any failures from here on
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pindexPrev = NULL;
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// Store the pindexBest used before CreateNewBlock, to avoid races
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nTransactionsUpdatedLast = nTransactionsUpdated;
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CBlockIndex* pindexPrevNew = pindexBest;
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nStart = GetTime();
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// Create new block
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pblocktemplate = CreateNewBlock(reservekey);
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if (!pblocktemplate)
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throw JSONRPCError(RPC_OUT_OF_MEMORY, "Out of memory");
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vNewBlockTemplate.push_back(pblocktemplate);
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// Need to update only after we know CreateNewBlock succeeded
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pindexPrev = pindexPrevNew;
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}
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CBlock* pblock = &pblocktemplate->block; // pointer for convenience
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// Update nTime
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pblock->UpdateTime(pindexPrev);
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pblock->nNonce = 0;
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// Update nExtraNonce
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static unsigned int nExtraNonce = 0;
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IncrementExtraNonce(pblock, pindexPrev, nExtraNonce);
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// Save
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mapNewBlock[pblock->hashMerkleRoot] = make_pair(pblock, pblock->vtx[0].vin[0].scriptSig);
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// Pre-build hash buffers
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char pmidstate[32];
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char pdata[128];
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char phash1[64];
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FormatHashBuffers(pblock, pmidstate, pdata, phash1);
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uint256 hashTarget = CBigNum().SetCompact(pblock->nBits).getuint256();
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Object result;
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result.push_back(Pair("midstate", HexStr(BEGIN(pmidstate), END(pmidstate)))); // deprecated
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result.push_back(Pair("data", HexStr(BEGIN(pdata), END(pdata))));
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result.push_back(Pair("hash1", HexStr(BEGIN(phash1), END(phash1)))); // deprecated
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result.push_back(Pair("target", HexStr(BEGIN(hashTarget), END(hashTarget))));
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return result;
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}
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else
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{
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// Parse parameters
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vector<unsigned char> vchData = ParseHex(params[0].get_str());
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if (vchData.size() != 128)
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throw JSONRPCError(RPC_INVALID_PARAMETER, "Invalid parameter");
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CBlock* pdata = (CBlock*)&vchData[0];
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// Byte reverse
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for (int i = 0; i < 128/4; i++)
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((unsigned int*)pdata)[i] = ByteReverse(((unsigned int*)pdata)[i]);
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// Get saved block
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if (!mapNewBlock.count(pdata->hashMerkleRoot))
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return false;
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CBlock* pblock = mapNewBlock[pdata->hashMerkleRoot].first;
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pblock->nTime = pdata->nTime;
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pblock->nNonce = pdata->nNonce;
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pblock->vtx[0].vin[0].scriptSig = mapNewBlock[pdata->hashMerkleRoot].second;
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pblock->hashMerkleRoot = pblock->BuildMerkleTree();
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return CheckWork(pblock, *pwalletMain, reservekey);
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}
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}
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Value getblocktemplate(const Array& params, bool fHelp)
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{
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if (fHelp || params.size() > 1)
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throw runtime_error(
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"getblocktemplate [params]\n"
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"Returns data needed to construct a block to work on:\n"
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" \"version\" : block version\n"
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" \"previousblockhash\" : hash of current highest block\n"
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" \"transactions\" : contents of non-coinbase transactions that should be included in the next block\n"
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" \"coinbaseaux\" : data that should be included in coinbase\n"
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" \"coinbasevalue\" : maximum allowable input to coinbase transaction, including the generation award and transaction fees\n"
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" \"target\" : hash target\n"
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" \"mintime\" : minimum timestamp appropriate for next block\n"
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" \"curtime\" : current timestamp\n"
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" \"mutable\" : list of ways the block template may be changed\n"
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" \"noncerange\" : range of valid nonces\n"
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" \"sigoplimit\" : limit of sigops in blocks\n"
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" \"sizelimit\" : limit of block size\n"
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" \"bits\" : compressed target of next block\n"
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" \"height\" : height of the next block\n"
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"See https://en.bitcoin.it/wiki/BIP_0022 for full specification.");
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std::string strMode = "template";
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if (params.size() > 0)
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{
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const Object& oparam = params[0].get_obj();
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const Value& modeval = find_value(oparam, "mode");
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if (modeval.type() == str_type)
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strMode = modeval.get_str();
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else if (modeval.type() == null_type)
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{
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/* Do nothing */
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}
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else
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throw JSONRPCError(RPC_INVALID_PARAMETER, "Invalid mode");
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}
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if (strMode != "template")
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throw JSONRPCError(RPC_INVALID_PARAMETER, "Invalid mode");
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if (vNodes.empty())
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throw JSONRPCError(RPC_CLIENT_NOT_CONNECTED, "Bitcoin is not connected!");
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if (IsInitialBlockDownload())
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throw JSONRPCError(RPC_CLIENT_IN_INITIAL_DOWNLOAD, "Bitcoin is downloading blocks...");
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static CReserveKey reservekey(pwalletMain);
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// Update block
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static unsigned int nTransactionsUpdatedLast;
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static CBlockIndex* pindexPrev;
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static int64 nStart;
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static CBlockTemplate* pblocktemplate;
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if (pindexPrev != pindexBest ||
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(nTransactionsUpdated != nTransactionsUpdatedLast && GetTime() - nStart > 5))
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{
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// Clear pindexPrev so future calls make a new block, despite any failures from here on
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pindexPrev = NULL;
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// Store the pindexBest used before CreateNewBlock, to avoid races
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nTransactionsUpdatedLast = nTransactionsUpdated;
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CBlockIndex* pindexPrevNew = pindexBest;
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nStart = GetTime();
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// Create new block
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if(pblocktemplate)
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{
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delete pblocktemplate;
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pblocktemplate = NULL;
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}
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pblocktemplate = CreateNewBlock(reservekey);
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if (!pblocktemplate)
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throw JSONRPCError(RPC_OUT_OF_MEMORY, "Out of memory");
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// Need to update only after we know CreateNewBlock succeeded
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pindexPrev = pindexPrevNew;
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}
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CBlock* pblock = &pblocktemplate->block; // pointer for convenience
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// Update nTime
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pblock->UpdateTime(pindexPrev);
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pblock->nNonce = 0;
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Array transactions;
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map<uint256, int64_t> setTxIndex;
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int i = 0;
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BOOST_FOREACH (CTransaction& tx, pblock->vtx)
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{
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uint256 txHash = tx.GetHash();
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setTxIndex[txHash] = i++;
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if (tx.IsCoinBase())
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continue;
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Object entry;
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CDataStream ssTx(SER_NETWORK, PROTOCOL_VERSION);
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ssTx << tx;
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entry.push_back(Pair("data", HexStr(ssTx.begin(), ssTx.end())));
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entry.push_back(Pair("hash", txHash.GetHex()));
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Ultraprune
This switches bitcoin's transaction/block verification logic to use a
"coin database", which contains all unredeemed transaction output scripts,
amounts and heights.
The name ultraprune comes from the fact that instead of a full transaction
index, we only (need to) keep an index with unspent outputs. For now, the
blocks themselves are kept as usual, although they are only necessary for
serving, rescanning and reorganizing.
The basic datastructures are CCoins (representing the coins of a single
transaction), and CCoinsView (representing a state of the coins database).
There are several implementations for CCoinsView. A dummy, one backed by
the coins database (coins.dat), one backed by the memory pool, and one
that adds a cache on top of it. FetchInputs, ConnectInputs, ConnectBlock,
DisconnectBlock, ... now operate on a generic CCoinsView.
The block switching logic now builds a single cached CCoinsView with
changes to be committed to the database before any changes are made.
This means no uncommitted changes are ever read from the database, and
should ease the transition to another database layer which does not
support transactions (but does support atomic writes), like LevelDB.
For the getrawtransaction() RPC call, access to a txid-to-disk index
would be preferable. As this index is not necessary or even useful
for any other part of the implementation, it is not provided. Instead,
getrawtransaction() uses the coin database to find the block height,
and then scans that block to find the requested transaction. This is
slow, but should suffice for debug purposes.
13 years ago
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Array deps;
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BOOST_FOREACH (const CTxIn &in, tx.vin)
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{
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Ultraprune
This switches bitcoin's transaction/block verification logic to use a
"coin database", which contains all unredeemed transaction output scripts,
amounts and heights.
The name ultraprune comes from the fact that instead of a full transaction
index, we only (need to) keep an index with unspent outputs. For now, the
blocks themselves are kept as usual, although they are only necessary for
serving, rescanning and reorganizing.
The basic datastructures are CCoins (representing the coins of a single
transaction), and CCoinsView (representing a state of the coins database).
There are several implementations for CCoinsView. A dummy, one backed by
the coins database (coins.dat), one backed by the memory pool, and one
that adds a cache on top of it. FetchInputs, ConnectInputs, ConnectBlock,
DisconnectBlock, ... now operate on a generic CCoinsView.
The block switching logic now builds a single cached CCoinsView with
changes to be committed to the database before any changes are made.
This means no uncommitted changes are ever read from the database, and
should ease the transition to another database layer which does not
support transactions (but does support atomic writes), like LevelDB.
For the getrawtransaction() RPC call, access to a txid-to-disk index
would be preferable. As this index is not necessary or even useful
for any other part of the implementation, it is not provided. Instead,
getrawtransaction() uses the coin database to find the block height,
and then scans that block to find the requested transaction. This is
slow, but should suffice for debug purposes.
13 years ago
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if (setTxIndex.count(in.prevout.hash))
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deps.push_back(setTxIndex[in.prevout.hash]);
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}
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entry.push_back(Pair("depends", deps));
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int index_in_template = &tx - pblock->vtx.data();
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entry.push_back(Pair("fee", pblocktemplate->vTxFees[index_in_template]));
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entry.push_back(Pair("sigops", pblocktemplate->vTxSigOps[index_in_template]));
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transactions.push_back(entry);
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}
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Object aux;
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aux.push_back(Pair("flags", HexStr(COINBASE_FLAGS.begin(), COINBASE_FLAGS.end())));
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uint256 hashTarget = CBigNum().SetCompact(pblock->nBits).getuint256();
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static Array aMutable;
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if (aMutable.empty())
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{
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aMutable.push_back("time");
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|
|
|
aMutable.push_back("transactions");
|
|
|
|
aMutable.push_back("prevblock");
|
|
|
|
}
|
|
|
|
|
|
|
|
Object result;
|
|
|
|
result.push_back(Pair("version", pblock->nVersion));
|
|
|
|
result.push_back(Pair("previousblockhash", pblock->hashPrevBlock.GetHex()));
|
|
|
|
result.push_back(Pair("transactions", transactions));
|
|
|
|
result.push_back(Pair("coinbaseaux", aux));
|
|
|
|
result.push_back(Pair("coinbasevalue", (int64_t)pblock->vtx[0].vout[0].nValue));
|
|
|
|
result.push_back(Pair("target", hashTarget.GetHex()));
|
|
|
|
result.push_back(Pair("mintime", (int64_t)pindexPrev->GetMedianTimePast()+1));
|
|
|
|
result.push_back(Pair("mutable", aMutable));
|
|
|
|
result.push_back(Pair("noncerange", "00000000ffffffff"));
|
|
|
|
result.push_back(Pair("sigoplimit", (int64_t)MAX_BLOCK_SIGOPS));
|
|
|
|
result.push_back(Pair("sizelimit", (int64_t)MAX_BLOCK_SIZE));
|
|
|
|
result.push_back(Pair("curtime", (int64_t)pblock->nTime));
|
|
|
|
result.push_back(Pair("bits", HexBits(pblock->nBits)));
|
|
|
|
result.push_back(Pair("height", (int64_t)(pindexPrev->nHeight+1)));
|
|
|
|
|
|
|
|
return result;
|
|
|
|
}
|
|
|
|
|
|
|
|
Value submitblock(const Array& params, bool fHelp)
|
|
|
|
{
|
|
|
|
if (fHelp || params.size() < 1 || params.size() > 2)
|
|
|
|
throw runtime_error(
|
|
|
|
"submitblock <hex data> [optional-params-obj]\n"
|
|
|
|
"[optional-params-obj] parameter is currently ignored.\n"
|
|
|
|
"Attempts to submit new block to network.\n"
|
|
|
|
"See https://en.bitcoin.it/wiki/BIP_0022 for full specification.");
|
|
|
|
|
|
|
|
vector<unsigned char> blockData(ParseHex(params[0].get_str()));
|
|
|
|
CDataStream ssBlock(blockData, SER_NETWORK, PROTOCOL_VERSION);
|
Ultraprune
This switches bitcoin's transaction/block verification logic to use a
"coin database", which contains all unredeemed transaction output scripts,
amounts and heights.
The name ultraprune comes from the fact that instead of a full transaction
index, we only (need to) keep an index with unspent outputs. For now, the
blocks themselves are kept as usual, although they are only necessary for
serving, rescanning and reorganizing.
The basic datastructures are CCoins (representing the coins of a single
transaction), and CCoinsView (representing a state of the coins database).
There are several implementations for CCoinsView. A dummy, one backed by
the coins database (coins.dat), one backed by the memory pool, and one
that adds a cache on top of it. FetchInputs, ConnectInputs, ConnectBlock,
DisconnectBlock, ... now operate on a generic CCoinsView.
The block switching logic now builds a single cached CCoinsView with
changes to be committed to the database before any changes are made.
This means no uncommitted changes are ever read from the database, and
should ease the transition to another database layer which does not
support transactions (but does support atomic writes), like LevelDB.
For the getrawtransaction() RPC call, access to a txid-to-disk index
would be preferable. As this index is not necessary or even useful
for any other part of the implementation, it is not provided. Instead,
getrawtransaction() uses the coin database to find the block height,
and then scans that block to find the requested transaction. This is
slow, but should suffice for debug purposes.
13 years ago
|
|
|
CBlock pblock;
|
|
|
|
try {
|
Ultraprune
This switches bitcoin's transaction/block verification logic to use a
"coin database", which contains all unredeemed transaction output scripts,
amounts and heights.
The name ultraprune comes from the fact that instead of a full transaction
index, we only (need to) keep an index with unspent outputs. For now, the
blocks themselves are kept as usual, although they are only necessary for
serving, rescanning and reorganizing.
The basic datastructures are CCoins (representing the coins of a single
transaction), and CCoinsView (representing a state of the coins database).
There are several implementations for CCoinsView. A dummy, one backed by
the coins database (coins.dat), one backed by the memory pool, and one
that adds a cache on top of it. FetchInputs, ConnectInputs, ConnectBlock,
DisconnectBlock, ... now operate on a generic CCoinsView.
The block switching logic now builds a single cached CCoinsView with
changes to be committed to the database before any changes are made.
This means no uncommitted changes are ever read from the database, and
should ease the transition to another database layer which does not
support transactions (but does support atomic writes), like LevelDB.
For the getrawtransaction() RPC call, access to a txid-to-disk index
would be preferable. As this index is not necessary or even useful
for any other part of the implementation, it is not provided. Instead,
getrawtransaction() uses the coin database to find the block height,
and then scans that block to find the requested transaction. This is
slow, but should suffice for debug purposes.
13 years ago
|
|
|
ssBlock >> pblock;
|
|
|
|
}
|
|
|
|
catch (std::exception &e) {
|
|
|
|
throw JSONRPCError(RPC_DESERIALIZATION_ERROR, "Block decode failed");
|
|
|
|
}
|
|
|
|
|
Ultraprune
This switches bitcoin's transaction/block verification logic to use a
"coin database", which contains all unredeemed transaction output scripts,
amounts and heights.
The name ultraprune comes from the fact that instead of a full transaction
index, we only (need to) keep an index with unspent outputs. For now, the
blocks themselves are kept as usual, although they are only necessary for
serving, rescanning and reorganizing.
The basic datastructures are CCoins (representing the coins of a single
transaction), and CCoinsView (representing a state of the coins database).
There are several implementations for CCoinsView. A dummy, one backed by
the coins database (coins.dat), one backed by the memory pool, and one
that adds a cache on top of it. FetchInputs, ConnectInputs, ConnectBlock,
DisconnectBlock, ... now operate on a generic CCoinsView.
The block switching logic now builds a single cached CCoinsView with
changes to be committed to the database before any changes are made.
This means no uncommitted changes are ever read from the database, and
should ease the transition to another database layer which does not
support transactions (but does support atomic writes), like LevelDB.
For the getrawtransaction() RPC call, access to a txid-to-disk index
would be preferable. As this index is not necessary or even useful
for any other part of the implementation, it is not provided. Instead,
getrawtransaction() uses the coin database to find the block height,
and then scans that block to find the requested transaction. This is
slow, but should suffice for debug purposes.
13 years ago
|
|
|
bool fAccepted = ProcessBlock(NULL, &pblock);
|
|
|
|
if (!fAccepted)
|
|
|
|
return "rejected";
|
|
|
|
|
|
|
|
return Value::null;
|
|
|
|
}
|