// Copyright (c) 2014-2017 The Dash Core developers // Distributed under the MIT/X11 software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include "activemasternode.h" #include "init.h" #include "main.h" #include "masternode-payments.h" #include "masternode-sync.h" #include "masternodeconfig.h" #include "masternodeman.h" #include "privatesend-client.h" #include "privatesend-server.h" #include "rpcserver.h" #include "util.h" #include "utilmoneystr.h" #include #include #include void EnsureWalletIsUnlocked(); UniValue privatesend(const UniValue& params, bool fHelp) { if (fHelp || params.size() != 1) throw std::runtime_error( "privatesend \"command\"\n" "\nArguments:\n" "1. \"command\" (string or set of strings, required) The command to execute\n" "\nAvailable commands:\n" " start - Start mixing\n" " stop - Stop mixing\n" " reset - Reset mixing\n" ); if(params[0].get_str() == "start") { { LOCK(pwalletMain->cs_wallet); EnsureWalletIsUnlocked(); } if(fMasterNode) return "Mixing is not supported from masternodes"; privateSendClient.fEnablePrivateSend = true; bool result = privateSendClient.DoAutomaticDenominating(); return "Mixing " + (result ? "started successfully" : ("start failed: " + privateSendClient.GetStatus() + ", will retry")); } if(params[0].get_str() == "stop") { privateSendClient.fEnablePrivateSend = false; return "Mixing was stopped"; } if(params[0].get_str() == "reset") { privateSendClient.ResetPool(); return "Mixing was reset"; } return "Unknown command, please see \"help privatesend\""; } UniValue getpoolinfo(const UniValue& params, bool fHelp) { if (fHelp || params.size() != 0) throw std::runtime_error( "getpoolinfo\n" "Returns an object containing mixing pool related information.\n"); CPrivateSend privateSend = fMasterNode ? (CPrivateSend)privateSendServer : (CPrivateSend)privateSendClient; UniValue obj(UniValue::VOBJ); obj.push_back(Pair("state", privateSend.GetStateString())); obj.push_back(Pair("mixing_mode", (!fMasterNode && privateSendClient.fPrivateSendMultiSession) ? "multi-session" : "normal")); obj.push_back(Pair("queue", privateSend.GetQueueSize())); obj.push_back(Pair("entries", privateSend.GetEntriesCount())); obj.push_back(Pair("status", privateSendClient.GetStatus())); if (privateSendClient.infoMixingMasternode.fInfoValid) { obj.push_back(Pair("outpoint", privateSendClient.infoMixingMasternode.vin.prevout.ToStringShort())); obj.push_back(Pair("addr", privateSendClient.infoMixingMasternode.addr.ToString())); } if (pwalletMain) { obj.push_back(Pair("keys_left", pwalletMain->nKeysLeftSinceAutoBackup)); obj.push_back(Pair("warnings", pwalletMain->nKeysLeftSinceAutoBackup < PRIVATESEND_KEYS_THRESHOLD_WARNING ? "WARNING: keypool is almost depleted!" : "")); } return obj; } UniValue masternode(const UniValue& params, bool fHelp) { std::string strCommand; if (params.size() >= 1) { strCommand = params[0].get_str(); } if (strCommand == "start-many") throw JSONRPCError(RPC_INVALID_PARAMETER, "DEPRECATED, please use start-all instead"); if (fHelp || (strCommand != "start" && strCommand != "start-alias" && strCommand != "start-all" && strCommand != "start-missing" && strCommand != "start-disabled" && strCommand != "list" && strCommand != "list-conf" && strCommand != "count" && strCommand != "debug" && strCommand != "current" && strCommand != "winner" && strCommand != "winners" && strCommand != "genkey" && strCommand != "connect" && strCommand != "outputs" && strCommand != "status")) throw std::runtime_error( "masternode \"command\"...\n" "Set of commands to execute masternode related actions\n" "\nArguments:\n" "1. \"command\" (string or set of strings, required) The command to execute\n" "\nAvailable commands:\n" " count - Print number of all known masternodes (optional: 'ps', 'enabled', 'all', 'qualify')\n" " current - Print info on current masternode winner to be paid the next block (calculated locally)\n" " debug - Print masternode status\n" " genkey - Generate new masternodeprivkey\n" " outputs - Print masternode compatible outputs\n" " start - Start local Hot masternode configured in dash.conf\n" " start-alias - Start single remote masternode by assigned alias configured in masternode.conf\n" " start- - Start remote masternodes configured in masternode.conf (: 'all', 'missing', 'disabled')\n" " status - Print masternode status information\n" " list - Print list of all known masternodes (see masternodelist for more info)\n" " list-conf - Print masternode.conf in JSON format\n" " winner - Print info on next masternode winner to vote for\n" " winners - Print list of masternode winners\n" ); if (strCommand == "list") { UniValue newParams(UniValue::VARR); // forward params but skip "list" for (unsigned int i = 1; i < params.size(); i++) { newParams.push_back(params[i]); } return masternodelist(newParams, fHelp); } if(strCommand == "connect") { if (params.size() < 2) throw JSONRPCError(RPC_INVALID_PARAMETER, "Masternode address required"); std::string strAddress = params[1].get_str(); CService addr = CService(strAddress); CNode *pnode = ConnectNode((CAddress)addr, NULL); if(!pnode) throw JSONRPCError(RPC_INTERNAL_ERROR, strprintf("Couldn't connect to masternode %s", strAddress)); return "successfully connected"; } if (strCommand == "count") { if (params.size() > 2) throw JSONRPCError(RPC_INVALID_PARAMETER, "Too many parameters"); if (params.size() == 1) return mnodeman.size(); std::string strMode = params[1].get_str(); if (strMode == "ps") return mnodeman.CountEnabled(MIN_PRIVATESEND_PEER_PROTO_VERSION); if (strMode == "enabled") return mnodeman.CountEnabled(); int nCount; mnodeman.GetNextMasternodeInQueueForPayment(true, nCount); if (strMode == "qualify") return nCount; if (strMode == "all") return strprintf("Total: %d (PS Compatible: %d / Enabled: %d / Qualify: %d)", mnodeman.size(), mnodeman.CountEnabled(MIN_PRIVATESEND_PEER_PROTO_VERSION), mnodeman.CountEnabled(), nCount); } if (strCommand == "current" || strCommand == "winner") { int nCount; int nHeight; CMasternode* winner = NULL; { LOCK(cs_main); nHeight = chainActive.Height() + (strCommand == "current" ? 1 : 10); } mnodeman.UpdateLastPaid(); winner = mnodeman.GetNextMasternodeInQueueForPayment(nHeight, true, nCount); if(!winner) return "unknown"; UniValue obj(UniValue::VOBJ); obj.push_back(Pair("height", nHeight)); obj.push_back(Pair("IP:port", winner->addr.ToString())); obj.push_back(Pair("protocol", (int64_t)winner->nProtocolVersion)); obj.push_back(Pair("vin", winner->vin.prevout.ToStringShort())); obj.push_back(Pair("payee", CBitcoinAddress(winner->pubKeyCollateralAddress.GetID()).ToString())); obj.push_back(Pair("lastseen", (winner->lastPing == CMasternodePing()) ? winner->sigTime : winner->lastPing.sigTime)); obj.push_back(Pair("activeseconds", (winner->lastPing == CMasternodePing()) ? 0 : (winner->lastPing.sigTime - winner->sigTime))); return obj; } if (strCommand == "debug") { if(activeMasternode.nState != ACTIVE_MASTERNODE_INITIAL || !masternodeSync.IsBlockchainSynced()) return activeMasternode.GetStatus(); CTxIn vin; CPubKey pubkey; CKey key; if(!pwalletMain || !pwalletMain->GetMasternodeVinAndKeys(vin, pubkey, key)) throw JSONRPCError(RPC_INVALID_PARAMETER, "Missing masternode input, please look at the documentation for instructions on masternode creation"); return activeMasternode.GetStatus(); } if (strCommand == "start") { if(!fMasterNode) throw JSONRPCError(RPC_INTERNAL_ERROR, "You must set masternode=1 in the configuration"); { LOCK(pwalletMain->cs_wallet); EnsureWalletIsUnlocked(); } if(activeMasternode.nState != ACTIVE_MASTERNODE_STARTED){ activeMasternode.nState = ACTIVE_MASTERNODE_INITIAL; // TODO: consider better way activeMasternode.ManageState(); } return activeMasternode.GetStatus(); } if (strCommand == "start-alias") { if (params.size() < 2) throw JSONRPCError(RPC_INVALID_PARAMETER, "Please specify an alias"); { LOCK(pwalletMain->cs_wallet); EnsureWalletIsUnlocked(); } std::string strAlias = params[1].get_str(); bool fFound = false; UniValue statusObj(UniValue::VOBJ); statusObj.push_back(Pair("alias", strAlias)); BOOST_FOREACH(CMasternodeConfig::CMasternodeEntry mne, masternodeConfig.getEntries()) { if(mne.getAlias() == strAlias) { fFound = true; std::string strError; CMasternodeBroadcast mnb; bool fResult = CMasternodeBroadcast::Create(mne.getIp(), mne.getPrivKey(), mne.getTxHash(), mne.getOutputIndex(), strError, mnb); statusObj.push_back(Pair("result", fResult ? "successful" : "failed")); if(fResult) { mnodeman.UpdateMasternodeList(mnb); mnb.Relay(); } else { statusObj.push_back(Pair("errorMessage", strError)); } mnodeman.NotifyMasternodeUpdates(); break; } } if(!fFound) { statusObj.push_back(Pair("result", "failed")); statusObj.push_back(Pair("errorMessage", "Could not find alias in config. Verify with list-conf.")); } return statusObj; } if (strCommand == "start-all" || strCommand == "start-missing" || strCommand == "start-disabled") { { LOCK(pwalletMain->cs_wallet); EnsureWalletIsUnlocked(); } if((strCommand == "start-missing" || strCommand == "start-disabled") && !masternodeSync.IsMasternodeListSynced()) { throw JSONRPCError(RPC_CLIENT_IN_INITIAL_DOWNLOAD, "You can't use this command until masternode list is synced"); } int nSuccessful = 0; int nFailed = 0; UniValue resultsObj(UniValue::VOBJ); BOOST_FOREACH(CMasternodeConfig::CMasternodeEntry mne, masternodeConfig.getEntries()) { std::string strError; CTxIn vin = CTxIn(uint256S(mne.getTxHash()), uint32_t(atoi(mne.getOutputIndex().c_str()))); CMasternode *pmn = mnodeman.Find(vin); CMasternodeBroadcast mnb; if(strCommand == "start-missing" && pmn) continue; if(strCommand == "start-disabled" && pmn && pmn->IsEnabled()) continue; bool fResult = CMasternodeBroadcast::Create(mne.getIp(), mne.getPrivKey(), mne.getTxHash(), mne.getOutputIndex(), strError, mnb); UniValue statusObj(UniValue::VOBJ); statusObj.push_back(Pair("alias", mne.getAlias())); statusObj.push_back(Pair("result", fResult ? "successful" : "failed")); if (fResult) { nSuccessful++; mnodeman.UpdateMasternodeList(mnb); mnb.Relay(); } else { nFailed++; statusObj.push_back(Pair("errorMessage", strError)); } resultsObj.push_back(Pair("status", statusObj)); } mnodeman.NotifyMasternodeUpdates(); UniValue returnObj(UniValue::VOBJ); returnObj.push_back(Pair("overall", strprintf("Successfully started %d masternodes, failed to start %d, total %d", nSuccessful, nFailed, nSuccessful + nFailed))); returnObj.push_back(Pair("detail", resultsObj)); return returnObj; } if (strCommand == "genkey") { CKey secret; secret.MakeNewKey(false); return CBitcoinSecret(secret).ToString(); } if (strCommand == "list-conf") { UniValue resultObj(UniValue::VOBJ); BOOST_FOREACH(CMasternodeConfig::CMasternodeEntry mne, masternodeConfig.getEntries()) { CTxIn vin = CTxIn(uint256S(mne.getTxHash()), uint32_t(atoi(mne.getOutputIndex().c_str()))); CMasternode *pmn = mnodeman.Find(vin); std::string strStatus = pmn ? pmn->GetStatus() : "MISSING"; UniValue mnObj(UniValue::VOBJ); mnObj.push_back(Pair("alias", mne.getAlias())); mnObj.push_back(Pair("address", mne.getIp())); mnObj.push_back(Pair("privateKey", mne.getPrivKey())); mnObj.push_back(Pair("txHash", mne.getTxHash())); mnObj.push_back(Pair("outputIndex", mne.getOutputIndex())); mnObj.push_back(Pair("status", strStatus)); resultObj.push_back(Pair("masternode", mnObj)); } return resultObj; } if (strCommand == "outputs") { // Find possible candidates std::vector vPossibleCoins; pwalletMain->AvailableCoins(vPossibleCoins, true, NULL, false, ONLY_1000); UniValue obj(UniValue::VOBJ); BOOST_FOREACH(COutput& out, vPossibleCoins) { obj.push_back(Pair(out.tx->GetHash().ToString(), strprintf("%d", out.i))); } return obj; } if (strCommand == "status") { if (!fMasterNode) throw JSONRPCError(RPC_INTERNAL_ERROR, "This is not a masternode"); UniValue mnObj(UniValue::VOBJ); mnObj.push_back(Pair("vin", activeMasternode.vin.ToString())); mnObj.push_back(Pair("service", activeMasternode.service.ToString())); CMasternode mn; if(mnodeman.Get(activeMasternode.vin, mn)) { mnObj.push_back(Pair("payee", CBitcoinAddress(mn.pubKeyCollateralAddress.GetID()).ToString())); } mnObj.push_back(Pair("status", activeMasternode.GetStatus())); return mnObj; } if (strCommand == "winners") { int nHeight; { LOCK(cs_main); CBlockIndex* pindex = chainActive.Tip(); if(!pindex) return NullUniValue; nHeight = pindex->nHeight; } int nLast = 10; std::string strFilter = ""; if (params.size() >= 2) { nLast = atoi(params[1].get_str()); } if (params.size() == 3) { strFilter = params[2].get_str(); } if (params.size() > 3) throw JSONRPCError(RPC_INVALID_PARAMETER, "Correct usage is 'masternode winners ( \"count\" \"filter\" )'"); UniValue obj(UniValue::VOBJ); for(int i = nHeight - nLast; i < nHeight + 20; i++) { std::string strPayment = GetRequiredPaymentsString(i); if (strFilter !="" && strPayment.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strprintf("%d", i), strPayment)); } return obj; } return NullUniValue; } UniValue masternodelist(const UniValue& params, bool fHelp) { std::string strMode = "status"; std::string strFilter = ""; if (params.size() >= 1) strMode = params[0].get_str(); if (params.size() == 2) strFilter = params[1].get_str(); if (fHelp || ( strMode != "activeseconds" && strMode != "addr" && strMode != "full" && strMode != "lastseen" && strMode != "lastpaidtime" && strMode != "lastpaidblock" && strMode != "protocol" && strMode != "payee" && strMode != "rank" && strMode != "status")) { throw std::runtime_error( "masternodelist ( \"mode\" \"filter\" )\n" "Get a list of masternodes in different modes\n" "\nArguments:\n" "1. \"mode\" (string, optional/required to use filter, defaults = status) The mode to run list in\n" "2. \"filter\" (string, optional) Filter results. Partial match by outpoint by default in all modes,\n" " additional matches in some modes are also available\n" "\nAvailable modes:\n" " activeseconds - Print number of seconds masternode recognized by the network as enabled\n" " (since latest issued \"masternode start/start-many/start-alias\")\n" " addr - Print ip address associated with a masternode (can be additionally filtered, partial match)\n" " full - Print info in format 'status protocol payee lastseen activeseconds lastpaidtime lastpaidblock IP'\n" " (can be additionally filtered, partial match)\n" " lastpaidblock - Print the last block height a node was paid on the network\n" " lastpaidtime - Print the last time a node was paid on the network\n" " lastseen - Print timestamp of when a masternode was last seen on the network\n" " payee - Print Dash address associated with a masternode (can be additionally filtered,\n" " partial match)\n" " protocol - Print protocol of a masternode (can be additionally filtered, exact match))\n" " rank - Print rank of a masternode based on current block\n" " status - Print masternode status: PRE_ENABLED / ENABLED / EXPIRED / WATCHDOG_EXPIRED / NEW_START_REQUIRED /\n" " UPDATE_REQUIRED / POSE_BAN / OUTPOINT_SPENT (can be additionally filtered, partial match)\n" ); } if (strMode == "full" || strMode == "lastpaidtime" || strMode == "lastpaidblock") { mnodeman.UpdateLastPaid(); } UniValue obj(UniValue::VOBJ); if (strMode == "rank") { std::vector > vMasternodeRanks = mnodeman.GetMasternodeRanks(); BOOST_FOREACH(PAIRTYPE(int, CMasternode)& s, vMasternodeRanks) { std::string strOutpoint = s.second.vin.prevout.ToStringShort(); if (strFilter !="" && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, s.first)); } } else { std::vector vMasternodes = mnodeman.GetFullMasternodeVector(); BOOST_FOREACH(CMasternode& mn, vMasternodes) { std::string strOutpoint = mn.vin.prevout.ToStringShort(); if (strMode == "activeseconds") { if (strFilter !="" && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, (int64_t)(mn.lastPing.sigTime - mn.sigTime))); } else if (strMode == "addr") { std::string strAddress = mn.addr.ToString(); if (strFilter !="" && strAddress.find(strFilter) == std::string::npos && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, strAddress)); } else if (strMode == "full") { std::ostringstream streamFull; streamFull << std::setw(18) << mn.GetStatus() << " " << mn.nProtocolVersion << " " << CBitcoinAddress(mn.pubKeyCollateralAddress.GetID()).ToString() << " " << (int64_t)mn.lastPing.sigTime << " " << std::setw(8) << (int64_t)(mn.lastPing.sigTime - mn.sigTime) << " " << std::setw(10) << mn.GetLastPaidTime() << " " << std::setw(6) << mn.GetLastPaidBlock() << " " << mn.addr.ToString(); std::string strFull = streamFull.str(); if (strFilter !="" && strFull.find(strFilter) == std::string::npos && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, strFull)); } else if (strMode == "lastpaidblock") { if (strFilter !="" && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, mn.GetLastPaidBlock())); } else if (strMode == "lastpaidtime") { if (strFilter !="" && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, mn.GetLastPaidTime())); } else if (strMode == "lastseen") { if (strFilter !="" && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, (int64_t)mn.lastPing.sigTime)); } else if (strMode == "payee") { CBitcoinAddress address(mn.pubKeyCollateralAddress.GetID()); std::string strPayee = address.ToString(); if (strFilter !="" && strPayee.find(strFilter) == std::string::npos && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, strPayee)); } else if (strMode == "protocol") { if (strFilter !="" && strFilter != strprintf("%d", mn.nProtocolVersion) && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, (int64_t)mn.nProtocolVersion)); } else if (strMode == "status") { std::string strStatus = mn.GetStatus(); if (strFilter !="" && strStatus.find(strFilter) == std::string::npos && strOutpoint.find(strFilter) == std::string::npos) continue; obj.push_back(Pair(strOutpoint, strStatus)); } } } return obj; } bool DecodeHexVecMnb(std::vector& vecMnb, std::string strHexMnb) { if (!IsHex(strHexMnb)) return false; std::vector mnbData(ParseHex(strHexMnb)); CDataStream ssData(mnbData, SER_NETWORK, PROTOCOL_VERSION); try { ssData >> vecMnb; } catch (const std::exception&) { return false; } return true; } UniValue masternodebroadcast(const UniValue& params, bool fHelp) { std::string strCommand; if (params.size() >= 1) strCommand = params[0].get_str(); if (fHelp || (strCommand != "create-alias" && strCommand != "create-all" && strCommand != "decode" && strCommand != "relay")) throw std::runtime_error( "masternodebroadcast \"command\"...\n" "Set of commands to create and relay masternode broadcast messages\n" "\nArguments:\n" "1. \"command\" (string or set of strings, required) The command to execute\n" "\nAvailable commands:\n" " create-alias - Create single remote masternode broadcast message by assigned alias configured in masternode.conf\n" " create-all - Create remote masternode broadcast messages for all masternodes configured in masternode.conf\n" " decode - Decode masternode broadcast message\n" " relay - Relay masternode broadcast message to the network\n" ); if (strCommand == "create-alias") { // wait for reindex and/or import to finish if (fImporting || fReindex) throw JSONRPCError(RPC_INTERNAL_ERROR, "Wait for reindex and/or import to finish"); if (params.size() < 2) throw JSONRPCError(RPC_INVALID_PARAMETER, "Please specify an alias"); { LOCK(pwalletMain->cs_wallet); EnsureWalletIsUnlocked(); } bool fFound = false; std::string strAlias = params[1].get_str(); UniValue statusObj(UniValue::VOBJ); std::vector vecMnb; statusObj.push_back(Pair("alias", strAlias)); BOOST_FOREACH(CMasternodeConfig::CMasternodeEntry mne, masternodeConfig.getEntries()) { if(mne.getAlias() == strAlias) { fFound = true; std::string strError; CMasternodeBroadcast mnb; bool fResult = CMasternodeBroadcast::Create(mne.getIp(), mne.getPrivKey(), mne.getTxHash(), mne.getOutputIndex(), strError, mnb, true); statusObj.push_back(Pair("result", fResult ? "successful" : "failed")); if(fResult) { vecMnb.push_back(mnb); CDataStream ssVecMnb(SER_NETWORK, PROTOCOL_VERSION); ssVecMnb << vecMnb; statusObj.push_back(Pair("hex", HexStr(ssVecMnb.begin(), ssVecMnb.end()))); } else { statusObj.push_back(Pair("errorMessage", strError)); } break; } } if(!fFound) { statusObj.push_back(Pair("result", "not found")); statusObj.push_back(Pair("errorMessage", "Could not find alias in config. Verify with list-conf.")); } return statusObj; } if (strCommand == "create-all") { // wait for reindex and/or import to finish if (fImporting || fReindex) throw JSONRPCError(RPC_INTERNAL_ERROR, "Wait for reindex and/or import to finish"); { LOCK(pwalletMain->cs_wallet); EnsureWalletIsUnlocked(); } std::vector mnEntries; mnEntries = masternodeConfig.getEntries(); int nSuccessful = 0; int nFailed = 0; UniValue resultsObj(UniValue::VOBJ); std::vector vecMnb; BOOST_FOREACH(CMasternodeConfig::CMasternodeEntry mne, masternodeConfig.getEntries()) { std::string strError; CMasternodeBroadcast mnb; bool fResult = CMasternodeBroadcast::Create(mne.getIp(), mne.getPrivKey(), mne.getTxHash(), mne.getOutputIndex(), strError, mnb, true); UniValue statusObj(UniValue::VOBJ); statusObj.push_back(Pair("alias", mne.getAlias())); statusObj.push_back(Pair("result", fResult ? "successful" : "failed")); if(fResult) { nSuccessful++; vecMnb.push_back(mnb); } else { nFailed++; statusObj.push_back(Pair("errorMessage", strError)); } resultsObj.push_back(Pair("status", statusObj)); } CDataStream ssVecMnb(SER_NETWORK, PROTOCOL_VERSION); ssVecMnb << vecMnb; UniValue returnObj(UniValue::VOBJ); returnObj.push_back(Pair("overall", strprintf("Successfully created broadcast messages for %d masternodes, failed to create %d, total %d", nSuccessful, nFailed, nSuccessful + nFailed))); returnObj.push_back(Pair("detail", resultsObj)); returnObj.push_back(Pair("hex", HexStr(ssVecMnb.begin(), ssVecMnb.end()))); return returnObj; } if (strCommand == "decode") { if (params.size() != 2) throw JSONRPCError(RPC_INVALID_PARAMETER, "Correct usage is 'masternodebroadcast decode \"hexstring\"'"); std::vector vecMnb; if (!DecodeHexVecMnb(vecMnb, params[1].get_str())) throw JSONRPCError(RPC_DESERIALIZATION_ERROR, "Masternode broadcast message decode failed"); int nSuccessful = 0; int nFailed = 0; int nDos = 0; UniValue returnObj(UniValue::VOBJ); BOOST_FOREACH(CMasternodeBroadcast& mnb, vecMnb) { UniValue resultObj(UniValue::VOBJ); if(mnb.CheckSignature(nDos)) { nSuccessful++; resultObj.push_back(Pair("vin", mnb.vin.ToString())); resultObj.push_back(Pair("addr", mnb.addr.ToString())); resultObj.push_back(Pair("pubKeyCollateralAddress", CBitcoinAddress(mnb.pubKeyCollateralAddress.GetID()).ToString())); resultObj.push_back(Pair("pubKeyMasternode", CBitcoinAddress(mnb.pubKeyMasternode.GetID()).ToString())); resultObj.push_back(Pair("vchSig", EncodeBase64(&mnb.vchSig[0], mnb.vchSig.size()))); resultObj.push_back(Pair("sigTime", mnb.sigTime)); resultObj.push_back(Pair("protocolVersion", mnb.nProtocolVersion)); resultObj.push_back(Pair("nLastDsq", mnb.nLastDsq)); UniValue lastPingObj(UniValue::VOBJ); lastPingObj.push_back(Pair("vin", mnb.lastPing.vin.ToString())); lastPingObj.push_back(Pair("blockHash", mnb.lastPing.blockHash.ToString())); lastPingObj.push_back(Pair("sigTime", mnb.lastPing.sigTime)); lastPingObj.push_back(Pair("vchSig", EncodeBase64(&mnb.lastPing.vchSig[0], mnb.lastPing.vchSig.size()))); resultObj.push_back(Pair("lastPing", lastPingObj)); } else { nFailed++; resultObj.push_back(Pair("errorMessage", "Masternode broadcast signature verification failed")); } returnObj.push_back(Pair(mnb.GetHash().ToString(), resultObj)); } returnObj.push_back(Pair("overall", strprintf("Successfully decoded broadcast messages for %d masternodes, failed to decode %d, total %d", nSuccessful, nFailed, nSuccessful + nFailed))); return returnObj; } if (strCommand == "relay") { if (params.size() < 2 || params.size() > 3) throw JSONRPCError(RPC_INVALID_PARAMETER, "masternodebroadcast relay \"hexstring\" ( fast )\n" "\nArguments:\n" "1. \"hex\" (string, required) Broadcast messages hex string\n" "2. fast (string, optional) If none, using safe method\n"); std::vector vecMnb; if (!DecodeHexVecMnb(vecMnb, params[1].get_str())) throw JSONRPCError(RPC_DESERIALIZATION_ERROR, "Masternode broadcast message decode failed"); int nSuccessful = 0; int nFailed = 0; bool fSafe = params.size() == 2; UniValue returnObj(UniValue::VOBJ); // verify all signatures first, bailout if any of them broken BOOST_FOREACH(CMasternodeBroadcast& mnb, vecMnb) { UniValue resultObj(UniValue::VOBJ); resultObj.push_back(Pair("vin", mnb.vin.ToString())); resultObj.push_back(Pair("addr", mnb.addr.ToString())); int nDos = 0; bool fResult; if (mnb.CheckSignature(nDos)) { if (fSafe) { fResult = mnodeman.CheckMnbAndUpdateMasternodeList(NULL, mnb, nDos); } else { mnodeman.UpdateMasternodeList(mnb); mnb.Relay(); fResult = true; } mnodeman.NotifyMasternodeUpdates(); } else fResult = false; if(fResult) { nSuccessful++; resultObj.push_back(Pair(mnb.GetHash().ToString(), "successful")); } else { nFailed++; resultObj.push_back(Pair("errorMessage", "Masternode broadcast signature verification failed")); } returnObj.push_back(Pair(mnb.GetHash().ToString(), resultObj)); } returnObj.push_back(Pair("overall", strprintf("Successfully relayed broadcast messages for %d masternodes, failed to relay %d, total %d", nSuccessful, nFailed, nSuccessful + nFailed))); return returnObj; } return NullUniValue; }