/****************************************************************************** * Copyright © 2014-2019 The SuperNET Developers. * * * * See the AUTHORS, DEVELOPER-AGREEMENT and LICENSE files at * * the top-level directory of this distribution for the individual copyright * * holder information and the developer policies on copyright and licensing. * * * * Unless otherwise agreed in a custom licensing agreement, no part of the * * SuperNET software, including this file may be copied, modified, propagated * * or distributed except according to the terms contained in the LICENSE file * * * * Removal or modification of this copyright notice is prohibited. * * * ******************************************************************************/ #include "amount.h" #include "chain.h" #include "chainparams.h" #include "checkpoints.h" #include "crosschain.h" #include "notarisationdb.h" #include "importcoin.h" #include "base58.h" #include "consensus/validation.h" #include "cc/eval.h" #include "cc/utils.h" #include "main.h" #include "primitives/transaction.h" #include "rpc/server.h" #include "sync.h" #include "util.h" #include "script/script.h" #include "script/script_error.h" #include "script/sign.h" #include "script/standard.h" #include #include #include using namespace std; int32_t komodo_MoM(int32_t *notarized_htp,uint256 *MoMp,uint256 *kmdtxidp,int32_t nHeight,uint256 *MoMoMp,int32_t *MoMoMoffsetp,int32_t *MoMoMdepthp,int32_t *kmdstartip,int32_t *kmdendip); int32_t komodo_MoMoMdata(char *hexstr,int32_t hexsize,struct komodo_ccdataMoMoM *mdata,char *symbol,int32_t kmdheight,int32_t notarized_height); struct komodo_ccdata_entry *komodo_allMoMs(int32_t *nump,uint256 *MoMoMp,int32_t kmdstarti,int32_t kmdendi); uint256 komodo_calcMoM(int32_t height,int32_t MoMdepth); extern std::string ASSETCHAINS_SELFIMPORT; int komodo_nextheight(); uint256 Parseuint256(char *hexstr); int32_t GetSelfimportProof(TxProof &proof,CTransaction burnTx,uint256 hash); UniValue assetchainproof(const UniValue& params, bool fHelp) { uint256 hash; // parse params and get notarisation data for tx if ( fHelp || params.size() != 1) throw runtime_error("assetchainproof needs a txid"); hash = uint256S(params[0].get_str()); CTransaction tx; auto proof = GetAssetchainProof(hash,tx); auto proofData = E_MARSHAL(ss << proof); return HexStr(proofData); } UniValue crosschainproof(const UniValue& params, bool fHelp) { UniValue ret(UniValue::VOBJ); //fprintf(stderr,"crosschainproof needs to be implemented\n"); return(ret); } UniValue height_MoM(const UniValue& params, bool fHelp) { int32_t height,depth,notarized_height,MoMoMdepth,MoMoMoffset,kmdstarti,kmdendi; uint256 MoM,MoMoM,kmdtxid; uint32_t timestamp = 0; UniValue ret(UniValue::VOBJ); UniValue a(UniValue::VARR); if ( fHelp || params.size() != 1 ) throw runtime_error("height_MoM height\n"); LOCK(cs_main); height = atoi(params[0].get_str().c_str()); if ( height <= 0 ) { if ( chainActive.Tip() == 0 ) { ret.push_back(Pair("error",(char *)"no active chain yet")); return(ret); } height = chainActive.Tip()->GetHeight(); } //fprintf(stderr,"height_MoM height.%d\n",height); depth = komodo_MoM(¬arized_height,&MoM,&kmdtxid,height,&MoMoM,&MoMoMoffset,&MoMoMdepth,&kmdstarti,&kmdendi); ret.push_back(Pair("coin",(char *)(ASSETCHAINS_SYMBOL[0] == 0 ? "KMD" : ASSETCHAINS_SYMBOL))); ret.push_back(Pair("height",height)); ret.push_back(Pair("timestamp",(uint64_t)timestamp)); if ( depth > 0 ) { ret.push_back(Pair("depth",depth)); ret.push_back(Pair("notarized_height",notarized_height)); ret.push_back(Pair("MoM",MoM.GetHex())); ret.push_back(Pair("kmdtxid",kmdtxid.GetHex())); if ( ASSETCHAINS_SYMBOL[0] != 0 ) { ret.push_back(Pair("MoMoM",MoMoM.GetHex())); ret.push_back(Pair("MoMoMoffset",MoMoMoffset)); ret.push_back(Pair("MoMoMdepth",MoMoMdepth)); ret.push_back(Pair("kmdstarti",kmdstarti)); ret.push_back(Pair("kmdendi",kmdendi)); } } else ret.push_back(Pair("error",(char *)"no MoM for height")); return ret; } UniValue MoMoMdata(const UniValue& params, bool fHelp) { if ( fHelp || params.size() != 3 ) throw runtime_error("MoMoMdata symbol kmdheight ccid\n"); UniValue ret(UniValue::VOBJ); char* symbol = (char *)params[0].get_str().c_str(); int kmdheight = atoi(params[1].get_str().c_str()); uint32_t ccid = atoi(params[2].get_str().c_str()); ret.push_back(Pair("coin",symbol)); ret.push_back(Pair("kmdheight",kmdheight)); ret.push_back(Pair("ccid", (int) ccid)); uint256 destNotarisationTxid; std::vector moms; uint256 MoMoM = CalculateProofRoot(symbol, ccid, kmdheight, moms, destNotarisationTxid); UniValue valMoms(UniValue::VARR); for (int i=0; i= height ) throw runtime_error("calc_MoM illegal height or MoMdepth\n"); //fprintf(stderr,"height_MoM height.%d\n",height); MoM = komodo_calcMoM(height,MoMdepth); ret.push_back(Pair("coin",(char *)(ASSETCHAINS_SYMBOL[0] == 0 ? "KMD" : ASSETCHAINS_SYMBOL))); ret.push_back(Pair("height",height)); ret.push_back(Pair("MoMdepth",MoMdepth)); ret.push_back(Pair("MoM",MoM.GetHex())); return ret; } UniValue migrate_converttoexport(const UniValue& params, bool fHelp) { uint32_t ccid = ASSETCHAINS_CC; if (fHelp || params.size() != 3) throw runtime_error( "migrate_converttoexport rawTx dest_symbol export_amount\n" "\nConvert a raw transaction to a cross-chain export.\n" "If neccesary, the transaction should be funded using fundrawtransaction.\n" "Finally, the transaction should be signed using signrawtransaction\n" "The finished export transaction, plus the payouts, should be passed to " "the \"migrate_createimporttransaction\" method on a KMD node to get the corresponding " "import transaction.\n" ); if (ASSETCHAINS_CC < KOMODO_FIRSTFUNGIBLEID) throw runtime_error("-ac_cc < KOMODO_FIRSTFUNGIBLEID"); if (ASSETCHAINS_SYMBOL[0] == 0) throw runtime_error("Must be called on assetchain"); vector txData(ParseHexV(params[0], "argument 1")); CMutableTransaction tx; if (!E_UNMARSHAL(txData, ss >> tx)) throw JSONRPCError(RPC_DESERIALIZATION_ERROR, "TX decode failed"); string targetSymbol = params[1].get_str(); if (targetSymbol.size() == 0 || targetSymbol.size() > 32) throw runtime_error("targetSymbol length must be >0 and <=32"); CAmount burnAmount = AmountFromValue(params[2]); if (burnAmount <= 0) throw JSONRPCError(RPC_TYPE_ERROR, "Invalid amount for export"); { CAmount needed = 0; for (int i=0; i 0 ) { throw runtime_error("self-import chains cant be fungible"); /*if ( ASSETCHAINS_SELFIMPORT == targetSymbol || ASSETCHAINS_SELFIMPORT == "GATEWAY" ) { ccid = 0xffffffff; } // else maybe clusters of self-import chains can be supported?*/ } CTxOut burnOut = MakeBurnOutput(burnAmount, ccid, targetSymbol, tx.vout); UniValue ret(UniValue::VOBJ); ret.push_back(Pair("payouts", HexStr(E_MARSHAL(ss << tx.vout)))); tx.vout.clear(); tx.vout.push_back(burnOut); ret.push_back(Pair("exportTx", HexStr(E_MARSHAL(ss << tx)))); return ret; } /* * The process to migrate funds * * Create a transaction on assetchain: * * generaterawtransaction * migrate_converttoexport * fundrawtransaction * signrawtransaction * * migrate_createimportransaction * migrate_completeimporttransaction */ UniValue migrate_createimporttransaction(const UniValue& params, bool fHelp) { if (fHelp || params.size() != 2) throw runtime_error("migrate_createimporttransaction burnTx payouts\n\n" "Create an importTx given a burnTx and the corresponding payouts, hex encoded"); if (ASSETCHAINS_CC < KOMODO_FIRSTFUNGIBLEID) throw runtime_error("-ac_cc < KOMODO_FIRSTFUNGIBLEID"); if (ASSETCHAINS_SYMBOL[0] == 0) throw runtime_error("Must be called on assetchain"); vector txData(ParseHexV(params[0], "argument 1")); CTransaction burnTx; if (!E_UNMARSHAL(txData, ss >> burnTx)) throw runtime_error("Couldn't parse burnTx"); vector payouts; if (!E_UNMARSHAL(ParseHexV(params[1], "argument 2"), ss >> payouts)) throw runtime_error("Couldn't parse payouts"); uint256 txid = burnTx.GetHash(); TxProof proof = GetAssetchainProof(burnTx.GetHash(),burnTx); CTransaction importTx = MakeImportCoinTransaction(proof, burnTx, payouts); return HexStr(E_MARSHAL(ss << importTx)); } UniValue migrate_completeimporttransaction(const UniValue& params, bool fHelp) { if (fHelp || params.size() != 1) throw runtime_error("migrate_completeimporttransaction importTx\n\n" "Takes a cross chain import tx with proof generated on assetchain " "and extends proof to target chain proof root"); if (ASSETCHAINS_SYMBOL[0] != 0) throw runtime_error("Must be called on KMD"); CTransaction importTx; if (!E_UNMARSHAL(ParseHexV(params[0], "argument 1"), ss >> importTx)) throw runtime_error("Couldn't parse importTx"); CompleteImportTransaction(importTx); return HexStr(E_MARSHAL(ss << importTx)); } UniValue selfimport(const UniValue& params, bool fHelp) { CMutableTransaction mtx = CreateNewContextualCMutableTransaction(Params().GetConsensus(), komodo_nextheight()); TxProof proof; CTransaction burnTx,tx; CTxOut burnOut,savevout; uint64_t burnAmount; uint256 txid,blockHash; std::vector vouts; if ( ASSETCHAINS_SELFIMPORT.size() == 0 ) throw runtime_error("selfimport only works on -ac_import chains"); if (fHelp || params.size() != 2) throw runtime_error("selfimport txid burnamount\n\n" "creates signed selfimport transaction from txid"); txid = Parseuint256((char *)params[0].get_str().c_str()); burnAmount = atof(params[1].get_str().c_str()) * COIN + 0.00000000499999; // txid is just used to specify the import recv address // in reality it would be rawtx from the other chain and maybe better to specify address if ( GetTransaction(txid,tx,blockHash,false) == 0 ) throw runtime_error("selfimport couldnt find txid"); savevout = tx.vout[0]; mtx = tx; mtx.vout.clear(); mtx.vout.resize(1); mtx.vout[0] = savevout; mtx.vout[0].nValue = burnAmount; vouts = mtx.vout; burnOut = MakeBurnOutput(burnAmount,0xffffffff,ASSETCHAINS_SELFIMPORT,vouts); mtx = tx; mtx.vout.clear(); mtx.vout.push_back(burnOut); burnTx = mtx; if ( GetSelfimportProof(proof,tx,txid) < 0 ) throw std::runtime_error("Failed validating selfimport"); return HexStr(E_MARSHAL(ss << MakeImportCoinTransaction(proof,burnTx,vouts))); } UniValue getNotarisationsForBlock(const UniValue& params, bool fHelp) { if (fHelp || params.size() != 1) throw runtime_error("getNotarisationsForBlock blockHash\n\n" "Takes a block hash and returns notarisation transactions " "within the block"); uint256 blockHash = uint256S(params[0].get_str()); NotarisationsInBlock nibs; GetBlockNotarisations(blockHash, nibs); UniValue out(UniValue::VARR); BOOST_FOREACH(const Notarisation& n, nibs) { UniValue item(UniValue::VARR); item.push_back(n.first.GetHex()); item.push_back(HexStr(E_MARSHAL(ss << n.second))); out.push_back(item); } return out; } UniValue scanNotarisationsDB(const UniValue& params, bool fHelp) { if (fHelp || params.size() < 2 || params.size() > 3) throw runtime_error("scanNotarisationsDB blockHeight symbol [blocksLimit=1440]\n\n" "Scans notarisationsdb backwards from height for a notarisation" " of given symbol"); int height = atoi(params[0].get_str().c_str()); std::string symbol = params[1].get_str().c_str(); int limit = 1440; if (params.size() > 2) { limit = atoi(params[2].get_str().c_str()); } if (height == 0) { height = chainActive.Height(); } Notarisation nota; int matchedHeight = ScanNotarisationsDB(height, symbol, limit, nota); if (!matchedHeight) return NullUniValue; UniValue out(UniValue::VOBJ); out.pushKV("height", matchedHeight); out.pushKV("hash", nota.first.GetHex()); out.pushKV("opreturn", HexStr(E_MARSHAL(ss << nota.second))); return out; }