// Copyright (c) 2014-2017 The Dash Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include "spork.h" #include "base58.h" #include "chainparams.h" #include "validation.h" #include "messagesigner.h" #include "net_processing.h" #include "netmessagemaker.h" #include CSporkManager sporkManager; std::map mapSporks; std::map mapSporkDefaults = { {SPORK_2_INSTANTSEND_ENABLED, 0}, // ON {SPORK_3_INSTANTSEND_BLOCK_FILTERING, 0}, // ON {SPORK_5_INSTANTSEND_MAX_VALUE, 1000}, // 1000 Dash {SPORK_6_NEW_SIGS, 4070908800ULL}, // OFF {SPORK_8_MASTERNODE_PAYMENT_ENFORCEMENT, 4070908800ULL}, // OFF {SPORK_9_SUPERBLOCKS_ENABLED, 4070908800ULL}, // OFF {SPORK_10_MASTERNODE_PAY_UPDATED_NODES, 4070908800ULL}, // OFF {SPORK_12_RECONSIDER_BLOCKS, 0}, // 0 BLOCKS {SPORK_14_REQUIRE_SENTINEL_FLAG, 4070908800ULL}, // OFF }; void CSporkManager::ProcessSpork(CNode* pfrom, const std::string& strCommand, CDataStream& vRecv, CConnman& connman) { if(fLiteMode) return; // disable all Dash specific functionality if (strCommand == NetMsgType::SPORK) { CSporkMessage spork; vRecv >> spork; uint256 hash = spork.GetHash(); std::string strLogMsg; { LOCK(cs_main); pfrom->setAskFor.erase(hash); if(!chainActive.Tip()) return; strLogMsg = strprintf("SPORK -- hash: %s id: %d value: %10d bestHeight: %d peer=%d", hash.ToString(), spork.nSporkID, spork.nValue, chainActive.Height(), pfrom->id); } if(mapSporksActive.count(spork.nSporkID)) { if (mapSporksActive[spork.nSporkID].nTimeSigned >= spork.nTimeSigned) { LogPrint("spork", "%s seen\n", strLogMsg); return; } else { LogPrintf("%s updated\n", strLogMsg); } } else { LogPrintf("%s new\n", strLogMsg); } if(!spork.CheckSignature(sporkPubKeyID)) { LOCK(cs_main); LogPrintf("CSporkManager::ProcessSpork -- ERROR: invalid signature\n"); Misbehaving(pfrom->GetId(), 100); return; } mapSporks[hash] = spork; mapSporksActive[spork.nSporkID] = spork; spork.Relay(connman); //does a task if needed ExecuteSpork(spork.nSporkID, spork.nValue); } else if (strCommand == NetMsgType::GETSPORKS) { std::map::iterator it = mapSporksActive.begin(); while(it != mapSporksActive.end()) { connman.PushMessage(pfrom, CNetMsgMaker(pfrom->GetSendVersion()).Make(NetMsgType::SPORK, it->second)); it++; } } } void CSporkManager::ExecuteSpork(int nSporkID, int nValue) { //correct fork via spork technology if(nSporkID == SPORK_12_RECONSIDER_BLOCKS && nValue > 0) { // allow to reprocess 24h of blocks max, which should be enough to resolve any issues int64_t nMaxBlocks = 576; // this potentially can be a heavy operation, so only allow this to be executed once per 10 minutes int64_t nTimeout = 10 * 60; static int64_t nTimeExecuted = 0; // i.e. it was never executed before if(GetTime() - nTimeExecuted < nTimeout) { LogPrint("spork", "CSporkManager::ExecuteSpork -- ERROR: Trying to reconsider blocks, too soon - %d/%d\n", GetTime() - nTimeExecuted, nTimeout); return; } if(nValue > nMaxBlocks) { LogPrintf("CSporkManager::ExecuteSpork -- ERROR: Trying to reconsider too many blocks %d/%d\n", nValue, nMaxBlocks); return; } LogPrintf("CSporkManager::ExecuteSpork -- Reconsider Last %d Blocks\n", nValue); ReprocessBlocks(nValue); nTimeExecuted = GetTime(); } } bool CSporkManager::UpdateSpork(int nSporkID, int64_t nValue, CConnman& connman) { CSporkMessage spork = CSporkMessage(nSporkID, nValue, GetAdjustedTime()); if(spork.Sign(sporkPrivKey)) { spork.Relay(connman); mapSporks[spork.GetHash()] = spork; mapSporksActive[nSporkID] = spork; return true; } return false; } // grab the spork, otherwise say it's off bool CSporkManager::IsSporkActive(int nSporkID) { int64_t r = -1; if(mapSporksActive.count(nSporkID)){ r = mapSporksActive[nSporkID].nValue; } else if (mapSporkDefaults.count(nSporkID)) { r = mapSporkDefaults[nSporkID]; } else { LogPrint("spork", "CSporkManager::IsSporkActive -- Unknown Spork ID %d\n", nSporkID); r = 4070908800ULL; // 2099-1-1 i.e. off by default } return r < GetAdjustedTime(); } // grab the value of the spork on the network, or the default int64_t CSporkManager::GetSporkValue(int nSporkID) { if (mapSporksActive.count(nSporkID)) return mapSporksActive[nSporkID].nValue; if (mapSporkDefaults.count(nSporkID)) { return mapSporkDefaults[nSporkID]; } LogPrint("spork", "CSporkManager::GetSporkValue -- Unknown Spork ID %d\n", nSporkID); return -1; } int CSporkManager::GetSporkIDByName(const std::string& strName) { if (strName == "SPORK_2_INSTANTSEND_ENABLED") return SPORK_2_INSTANTSEND_ENABLED; if (strName == "SPORK_3_INSTANTSEND_BLOCK_FILTERING") return SPORK_3_INSTANTSEND_BLOCK_FILTERING; if (strName == "SPORK_5_INSTANTSEND_MAX_VALUE") return SPORK_5_INSTANTSEND_MAX_VALUE; if (strName == "SPORK_6_NEW_SIGS") return SPORK_6_NEW_SIGS; if (strName == "SPORK_8_MASTERNODE_PAYMENT_ENFORCEMENT") return SPORK_8_MASTERNODE_PAYMENT_ENFORCEMENT; if (strName == "SPORK_9_SUPERBLOCKS_ENABLED") return SPORK_9_SUPERBLOCKS_ENABLED; if (strName == "SPORK_10_MASTERNODE_PAY_UPDATED_NODES") return SPORK_10_MASTERNODE_PAY_UPDATED_NODES; if (strName == "SPORK_12_RECONSIDER_BLOCKS") return SPORK_12_RECONSIDER_BLOCKS; if (strName == "SPORK_14_REQUIRE_SENTINEL_FLAG") return SPORK_14_REQUIRE_SENTINEL_FLAG; LogPrint("spork", "CSporkManager::GetSporkIDByName -- Unknown Spork name '%s'\n", strName); return -1; } std::string CSporkManager::GetSporkNameByID(int nSporkID) { switch (nSporkID) { case SPORK_2_INSTANTSEND_ENABLED: return "SPORK_2_INSTANTSEND_ENABLED"; case SPORK_3_INSTANTSEND_BLOCK_FILTERING: return "SPORK_3_INSTANTSEND_BLOCK_FILTERING"; case SPORK_5_INSTANTSEND_MAX_VALUE: return "SPORK_5_INSTANTSEND_MAX_VALUE"; case SPORK_6_NEW_SIGS: return "SPORK_6_NEW_SIGS"; case SPORK_8_MASTERNODE_PAYMENT_ENFORCEMENT: return "SPORK_8_MASTERNODE_PAYMENT_ENFORCEMENT"; case SPORK_9_SUPERBLOCKS_ENABLED: return "SPORK_9_SUPERBLOCKS_ENABLED"; case SPORK_10_MASTERNODE_PAY_UPDATED_NODES: return "SPORK_10_MASTERNODE_PAY_UPDATED_NODES"; case SPORK_12_RECONSIDER_BLOCKS: return "SPORK_12_RECONSIDER_BLOCKS"; case SPORK_14_REQUIRE_SENTINEL_FLAG: return "SPORK_14_REQUIRE_SENTINEL_FLAG"; default: LogPrint("spork", "CSporkManager::GetSporkNameByID -- Unknown Spork ID %d\n", nSporkID); return "Unknown"; } } bool CSporkManager::SetSporkAddress(const std::string& strAddress) { CBitcoinAddress address(strAddress); if (!address.IsValid() || !address.GetKeyID(sporkPubKeyID)) { LogPrintf("CSporkManager::SetSporkAddress -- Failed to parse spork address\n"); return false; } return true; } bool CSporkManager::SetPrivKey(const std::string& strPrivKey) { CKey key; CPubKey pubKey; if(!CMessageSigner::GetKeysFromSecret(strPrivKey, key, pubKey)) { LogPrintf("CSporkManager::SetPrivKey -- Failed to parse private key\n"); return false; } if (pubKey.GetID() != sporkPubKeyID) { LogPrintf("CSporkManager::SetPrivKey -- New private key does not belong to spork address\n"); return false; } CSporkMessage spork; if (spork.Sign(key)) { // Test signing successful, proceed LogPrintf("CSporkManager::SetPrivKey -- Successfully initialized as spork signer\n"); sporkPrivKey = key; return true; } else { LogPrintf("CSporkManager::SetPrivKey -- Test signing failed\n"); return false; } } uint256 CSporkMessage::GetHash() const { return SerializeHash(*this); } uint256 CSporkMessage::GetSignatureHash() const { return GetHash(); } bool CSporkMessage::Sign(const CKey& key) { CKeyID pubKeyId = key.GetPubKey().GetID(); std::string strError = ""; if (sporkManager.IsSporkActive(SPORK_6_NEW_SIGS)) { uint256 hash = GetSignatureHash(); if(!CHashSigner::SignHash(hash, key, vchSig)) { LogPrintf("CSporkMessage::Sign -- SignHash() failed\n"); return false; } if (!CHashSigner::VerifyHash(hash, pubKeyId, vchSig, strError)) { LogPrintf("CSporkMessage::Sign -- VerifyHash() failed, error: %s\n", strError); return false; } } else { std::string strMessage = boost::lexical_cast(nSporkID) + boost::lexical_cast(nValue) + boost::lexical_cast(nTimeSigned); if(!CMessageSigner::SignMessage(strMessage, vchSig, key)) { LogPrintf("CSporkMessage::Sign -- SignMessage() failed\n"); return false; } if(!CMessageSigner::VerifyMessage(pubKeyId, vchSig, strMessage, strError)) { LogPrintf("CSporkMessage::Sign -- VerifyMessage() failed, error: %s\n", strError); return false; } } return true; } bool CSporkMessage::CheckSignature(const CKeyID& pubKeyId) const { std::string strError = ""; if (sporkManager.IsSporkActive(SPORK_6_NEW_SIGS)) { uint256 hash = GetSignatureHash(); if (!CHashSigner::VerifyHash(hash, pubKeyId, vchSig, strError)) { // Note: unlike for many other messages when SPORK_6_NEW_SIGS is ON sporks with sigs in old format // and newer timestamps should not be accepted, so if we failed here - that's it LogPrintf("CSporkMessage::CheckSignature -- VerifyHash() failed, error: %s\n", strError); return false; } } else { std::string strMessage = boost::lexical_cast(nSporkID) + boost::lexical_cast(nValue) + boost::lexical_cast(nTimeSigned); if (!CMessageSigner::VerifyMessage(pubKeyId, vchSig, strMessage, strError)){ LogPrintf("CSporkMessage::CheckSignature -- VerifyMessage() failed, error: %s\n", strError); // Note: unlike for other messages we have to check for new format even with SPORK_6_NEW_SIGS // inactive because SPORK_6_NEW_SIGS default is OFF and it is not the first spork to sync // (and even if it would, spork order can't be guaranteed anyway). uint256 hash = GetSignatureHash(); if (!CHashSigner::VerifyHash(hash, pubKeyId, vchSig, strError)) { LogPrintf("CSporkMessage::CheckSignature -- VerifyHash() failed, error: %s\n", strError); return false; } } } return true; } void CSporkMessage::Relay(CConnman& connman) { CInv inv(MSG_SPORK, GetHash()); connman.RelayInv(inv); }