dash/src/governance-object.cpp

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2016-12-20 14:26:45 +01:00
// 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 "core_io.h"
#include "governance.h"
#include "governance-classes.h"
#include "governance-object.h"
#include "governance-vote.h"
#include "masternodeman.h"
#include "messagesigner.h"
#include "util.h"
#include <univalue.h>
CGovernanceObject::CGovernanceObject()
: cs(),
nObjectType(GOVERNANCE_OBJECT_UNKNOWN),
nHashParent(),
nRevision(0),
nTime(0),
nDeletionTime(0),
nCollateralHash(),
strData(),
vinMasternode(),
vchSig(),
fCachedLocalValidity(false),
strLocalValidityError(),
fCachedFunding(false),
fCachedValid(true),
fCachedDelete(false),
fCachedEndorsed(false),
fDirtyCache(true),
fExpired(false),
fUnparsable(false),
mapCurrentMNVotes(),
mapOrphanVotes(),
fileVotes()
{
// PARSE JSON DATA STORAGE (STRDATA)
LoadData();
}
CGovernanceObject::CGovernanceObject(uint256 nHashParentIn, int nRevisionIn, int64_t nTimeIn, uint256 nCollateralHashIn, std::string strDataIn)
: cs(),
nObjectType(GOVERNANCE_OBJECT_UNKNOWN),
nHashParent(nHashParentIn),
nRevision(nRevisionIn),
nTime(nTimeIn),
nDeletionTime(0),
nCollateralHash(nCollateralHashIn),
strData(strDataIn),
vinMasternode(),
vchSig(),
fCachedLocalValidity(false),
strLocalValidityError(),
fCachedFunding(false),
fCachedValid(true),
fCachedDelete(false),
fCachedEndorsed(false),
fDirtyCache(true),
fExpired(false),
fUnparsable(false),
mapCurrentMNVotes(),
mapOrphanVotes(),
fileVotes()
{
// PARSE JSON DATA STORAGE (STRDATA)
LoadData();
}
CGovernanceObject::CGovernanceObject(const CGovernanceObject& other)
: cs(),
nObjectType(other.nObjectType),
nHashParent(other.nHashParent),
nRevision(other.nRevision),
nTime(other.nTime),
nDeletionTime(other.nDeletionTime),
nCollateralHash(other.nCollateralHash),
strData(other.strData),
vinMasternode(other.vinMasternode),
vchSig(other.vchSig),
fCachedLocalValidity(other.fCachedLocalValidity),
strLocalValidityError(other.strLocalValidityError),
fCachedFunding(other.fCachedFunding),
fCachedValid(other.fCachedValid),
fCachedDelete(other.fCachedDelete),
fCachedEndorsed(other.fCachedEndorsed),
fDirtyCache(other.fDirtyCache),
fExpired(other.fExpired),
fUnparsable(other.fUnparsable),
mapCurrentMNVotes(other.mapCurrentMNVotes),
mapOrphanVotes(other.mapOrphanVotes),
fileVotes(other.fileVotes)
{}
bool CGovernanceObject::ProcessVote(CNode* pfrom,
const CGovernanceVote& vote,
CGovernanceException& exception)
{
int nMNIndex = governance.GetMasternodeIndex(vote.GetVinMasternode());
if(nMNIndex < 0) {
std::ostringstream ostr;
ostr << "CGovernanceObject::ProcessVote -- Masternode index not found";
exception = CGovernanceException(ostr.str(), GOVERNANCE_EXCEPTION_WARNING);
if(mapOrphanVotes.Insert(vote.GetVinMasternode(), vote_time_pair_t(vote, GetAdjustedTime() + GOVERNANCE_ORPHAN_EXPIRATION_TIME))) {
if(pfrom) {
mnodeman.AskForMN(pfrom, vote.GetVinMasternode());
}
LogPrintf("%s\n", ostr.str());
}
else {
LogPrint("gobject", "%s\n", ostr.str());
}
return false;
}
vote_m_it it = mapCurrentMNVotes.find(nMNIndex);
if(it == mapCurrentMNVotes.end()) {
it = mapCurrentMNVotes.insert(vote_m_t::value_type(nMNIndex,vote_rec_t())).first;
}
vote_rec_t& recVote = it->second;
vote_signal_enum_t eSignal = vote.GetSignal();
if(eSignal == VOTE_SIGNAL_NONE) {
std::ostringstream ostr;
ostr << "CGovernanceObject::ProcessVote -- Vote signal: none";
LogPrint("gobject", "%s\n", ostr.str());
exception = CGovernanceException(ostr.str(), GOVERNANCE_EXCEPTION_WARNING);
return false;
}
if(eSignal > MAX_SUPPORTED_VOTE_SIGNAL) {
std::ostringstream ostr;
ostr << "CGovernanceObject::ProcessVote -- Unsupported vote signal: " << CGovernanceVoting::ConvertSignalToString(vote.GetSignal());
LogPrintf("%s\n", ostr.str());
exception = CGovernanceException(ostr.str(), GOVERNANCE_EXCEPTION_PERMANENT_ERROR, 20);
return false;
}
vote_instance_m_it it2 = recVote.mapInstances.find(int(eSignal));
if(it2 == recVote.mapInstances.end()) {
it2 = recVote.mapInstances.insert(vote_instance_m_t::value_type(int(eSignal), vote_instance_t())).first;
}
vote_instance_t& voteInstance = it2->second;
// Reject obsolete votes
if(vote.GetTimestamp() < voteInstance.nCreationTime) {
std::ostringstream ostr;
ostr << "CGovernanceObject::ProcessVote -- Obsolete vote";
LogPrint("gobject", "%s\n", ostr.str());
exception = CGovernanceException(ostr.str(), GOVERNANCE_EXCEPTION_NONE);
return false;
}
int64_t nNow = GetTime();
int64_t nVoteTimeUpdate = voteInstance.nTime;
if(governance.AreRateChecksEnabled()) {
int64_t nTimeDelta = nNow - voteInstance.nTime;
if(nTimeDelta < GOVERNANCE_UPDATE_MIN) {
std::ostringstream ostr;
ostr << "CGovernanceObject::ProcessVote -- Masternode voting too often"
<< ", MN outpoint = " << vote.GetVinMasternode().prevout.ToStringShort()
<< ", governance object hash = " << GetHash().ToString()
<< ", time delta = " << nTimeDelta;
LogPrint("gobject", "%s\n", ostr.str());
exception = CGovernanceException(ostr.str(), GOVERNANCE_EXCEPTION_TEMPORARY_ERROR);
nVoteTimeUpdate = nNow;
return false;
}
}
// Finally check that the vote is actually valid (done last because of cost of signature verification)
if(!vote.IsValid(true)) {
std::ostringstream ostr;
ostr << "CGovernanceObject::ProcessVote -- Invalid vote"
<< ", MN outpoint = " << vote.GetVinMasternode().prevout.ToStringShort()
<< ", governance object hash = " << GetHash().ToString()
<< ", vote hash = " << vote.GetHash().ToString();
LogPrintf("%s\n", ostr.str());
exception = CGovernanceException(ostr.str(), GOVERNANCE_EXCEPTION_PERMANENT_ERROR, 20);
governance.AddInvalidVote(vote);
return false;
}
if(!mnodeman.AddGovernanceVote(vote.GetVinMasternode(), vote.GetParentHash())) {
std::ostringstream ostr;
ostr << "CGovernanceObject::ProcessVote -- Unable to add governance vote"
<< ", MN outpoint = " << vote.GetVinMasternode().prevout.ToStringShort()
<< ", governance object hash = " << GetHash().ToString();
LogPrint("gobject", "%s\n", ostr.str());
exception = CGovernanceException(ostr.str(), GOVERNANCE_EXCEPTION_PERMANENT_ERROR);
return false;
}
voteInstance = vote_instance_t(vote.GetOutcome(), nVoteTimeUpdate, vote.GetTimestamp());
if(!fileVotes.HasVote(vote.GetHash())) {
fileVotes.AddVote(vote);
}
fDirtyCache = true;
return true;
}
void CGovernanceObject::RebuildVoteMap()
{
vote_m_t mapMNVotesNew;
for(vote_m_it it = mapCurrentMNVotes.begin(); it != mapCurrentMNVotes.end(); ++it) {
CTxIn vinMasternode;
if(mnodeman.GetMasternodeVinForIndexOld(it->first, vinMasternode)) {
int nNewIndex = mnodeman.GetMasternodeIndex(vinMasternode);
if((nNewIndex >= 0)) {
mapMNVotesNew[nNewIndex] = it->second;
}
}
}
mapCurrentMNVotes = mapMNVotesNew;
}
void CGovernanceObject::ClearMasternodeVotes()
{
vote_m_it it = mapCurrentMNVotes.begin();
while(it != mapCurrentMNVotes.end()) {
bool fIndexRebuilt = false;
CTxIn vinMasternode;
bool fRemove = true;
if(mnodeman.Get(it->first, vinMasternode, fIndexRebuilt)) {
if(mnodeman.Has(vinMasternode)) {
fRemove = false;
}
else {
fileVotes.RemoveVotesFromMasternode(vinMasternode);
}
}
if(fRemove) {
mapCurrentMNVotes.erase(it++);
}
else {
++it;
}
}
}
std::string CGovernanceObject::GetSignatureMessage() const
{
LOCK(cs);
std::string strMessage = nHashParent.ToString() + "|" +
boost::lexical_cast<std::string>(nRevision) + "|" +
boost::lexical_cast<std::string>(nTime) + "|" +
strData + "|" +
vinMasternode.prevout.ToStringShort() + "|" +
nCollateralHash.ToString();
return strMessage;
}
void CGovernanceObject::SetMasternodeInfo(const CTxIn& vin)
{
vinMasternode = vin;
}
bool CGovernanceObject::Sign(CKey& keyMasternode, CPubKey& pubKeyMasternode)
{
std::string strError;
std::string strMessage = GetSignatureMessage();
LOCK(cs);
if(!CMessageSigner::SignMessage(strMessage, vchSig, keyMasternode)) {
LogPrintf("CGovernanceObject::Sign -- SignMessage() failed\n");
return false;
}
if(!CMessageSigner::VerifyMessage(pubKeyMasternode, vchSig, strMessage, strError)) {
LogPrintf("CGovernanceObject::Sign -- VerifyMessage() failed, error: %s\n", strError);
return false;
}
LogPrint("gobject", "CGovernanceObject::Sign -- pubkey id = %s, vin = %s\n",
pubKeyMasternode.GetID().ToString(), vinMasternode.prevout.ToStringShort());
return true;
}
bool CGovernanceObject::CheckSignature(CPubKey& pubKeyMasternode)
{
std::string strError;
std::string strMessage = GetSignatureMessage();
LOCK(cs);
if(!CMessageSigner::VerifyMessage(pubKeyMasternode, vchSig, strMessage, strError)) {
LogPrintf("CGovernance::CheckSignature -- VerifyMessage() failed, error: %s\n", strError);
return false;
}
return true;
}
int CGovernanceObject::GetObjectSubtype()
{
// todo - 12.1
// - detect subtype from strData json, obj["subtype"]
if(nObjectType == GOVERNANCE_OBJECT_TRIGGER) return TRIGGER_SUPERBLOCK;
return -1;
}
uint256 CGovernanceObject::GetHash() const
{
// CREATE HASH OF ALL IMPORTANT PIECES OF DATA
CHashWriter ss(SER_GETHASH, PROTOCOL_VERSION);
ss << nHashParent;
ss << nRevision;
ss << nTime;
ss << strData;
ss << vinMasternode;
ss << vchSig;
// fee_tx is left out on purpose
uint256 h1 = ss.GetHash();
DBG( printf("CGovernanceObject::GetHash %i %li %s\n", nRevision, nTime, strData.c_str()); );
return h1;
}
/**
Return the actual object from the strData JSON structure.
Returns an empty object on error.
*/
UniValue CGovernanceObject::GetJSONObject()
{
UniValue obj(UniValue::VOBJ);
if(strData.empty()) {
return obj;
}
UniValue objResult(UniValue::VOBJ);
GetData(objResult);
std::vector<UniValue> arr1 = objResult.getValues();
std::vector<UniValue> arr2 = arr1.at( 0 ).getValues();
obj = arr2.at( 1 );
return obj;
}
/**
* LoadData
* --------------------------------------------------------
*
* Attempt to load data from strData
*
*/
void CGovernanceObject::LoadData()
{
// todo : 12.1 - resolved
//return;
if(strData.empty()) {
return;
}
try {
// ATTEMPT TO LOAD JSON STRING FROM STRDATA
UniValue objResult(UniValue::VOBJ);
GetData(objResult);
DBG( cout << "CGovernanceObject::LoadData strData = "
<< GetDataAsString()
<< endl; );
UniValue obj = GetJSONObject();
nObjectType = obj["type"].get_int();
}
catch(std::exception& e) {
fUnparsable = true;
std::ostringstream ostr;
ostr << "CGovernanceObject::LoadData Error parsing JSON"
<< ", e.what() = " << e.what();
DBG( cout << ostr.str() << endl; );
LogPrintf("%s\n", ostr.str());
return;
}
catch(...) {
fUnparsable = true;
std::ostringstream ostr;
ostr << "CGovernanceObject::LoadData Unknown Error parsing JSON";
DBG( cout << ostr.str() << endl; );
LogPrintf("%s\n", ostr.str());
return;
}
}
/**
* GetData - Example usage:
* --------------------------------------------------------
*
* Decode governance object data into UniValue(VOBJ)
*
*/
void CGovernanceObject::GetData(UniValue& objResult)
{
UniValue o(UniValue::VOBJ);
std::string s = GetDataAsString();
o.read(s);
objResult = o;
}
/**
* GetData - As
* --------------------------------------------------------
*
*/
std::string CGovernanceObject::GetDataAsHex()
{
return strData;
}
std::string CGovernanceObject::GetDataAsString()
{
std::vector<unsigned char> v = ParseHex(strData);
std::string s(v.begin(), v.end());
return s;
}
void CGovernanceObject::UpdateLocalValidity()
{
// THIS DOES NOT CHECK COLLATERAL, THIS IS CHECKED UPON ORIGINAL ARRIVAL
fCachedLocalValidity = IsValidLocally(strLocalValidityError, false);
};
bool CGovernanceObject::IsValidLocally(std::string& strError, bool fCheckCollateral)
{
bool fMissingMasternode = false;
bool fMissingConfirmations = false;
return IsValidLocally(strError, fMissingMasternode, fMissingConfirmations, fCheckCollateral);
}
bool CGovernanceObject::IsValidLocally(std::string& strError, bool& fMissingMasternode, bool& fMissingConfirmations, bool fCheckCollateral)
{
fMissingMasternode = false;
fMissingConfirmations = false;
if(fUnparsable) {
strError = "Object data unparseable";
return false;
}
switch(nObjectType) {
case GOVERNANCE_OBJECT_PROPOSAL:
case GOVERNANCE_OBJECT_TRIGGER:
case GOVERNANCE_OBJECT_WATCHDOG:
break;
default:
strError = strprintf("Invalid object type %d", nObjectType);
return false;
}
// IF ABSOLUTE NO COUNT (NO-YES VALID VOTES) IS MORE THAN 10% OF THE NETWORK MASTERNODES, OBJ IS INVALID
// CHECK COLLATERAL IF REQUIRED (HIGH CPU USAGE)
if(fCheckCollateral) {
if((nObjectType == GOVERNANCE_OBJECT_TRIGGER) || (nObjectType == GOVERNANCE_OBJECT_WATCHDOG)) {
std::string strOutpoint = vinMasternode.prevout.ToStringShort();
masternode_info_t infoMn = mnodeman.GetMasternodeInfo(vinMasternode);
if(!infoMn.fInfoValid) {
fMissingMasternode = true;
strError = "Masternode not found: " + strOutpoint;
return false;
}
// Check that we have a valid MN signature
if(!CheckSignature(infoMn.pubKeyMasternode)) {
strError = "Invalid masternode signature for: " + strOutpoint + ", pubkey id = " + infoMn.pubKeyMasternode.GetID().ToString();
return false;
}
return true;
}
if (!IsCollateralValid(strError, fMissingConfirmations))
return false;
}
/*
TODO
- There might be an issue with multisig in the coinbase on mainnet, we will add support for it in a future release.
- Post 12.2+ (test multisig coinbase transaction)
*/
// 12.1 - todo - compile error
// if(address.IsPayToScriptHash()) {
// strError = "Governance system - multisig is not currently supported";
// return false;
// }
return true;
}
CAmount CGovernanceObject::GetMinCollateralFee()
{
// Only 1 type has a fee for the moment but switch statement allows for future object types
switch(nObjectType) {
case GOVERNANCE_OBJECT_PROPOSAL: return GOVERNANCE_PROPOSAL_FEE_TX;
case GOVERNANCE_OBJECT_TRIGGER: return 0;
case GOVERNANCE_OBJECT_WATCHDOG: return 0;
default: return MAX_MONEY;
}
}
bool CGovernanceObject::IsCollateralValid(std::string& strError, bool& fMissingConfirmations)
{
strError = "";
fMissingConfirmations = false;
CAmount nMinFee = GetMinCollateralFee();
uint256 nExpectedHash = GetHash();
CTransaction txCollateral;
uint256 nBlockHash;
// RETRIEVE TRANSACTION IN QUESTION
if(!GetTransaction(nCollateralHash, txCollateral, Params().GetConsensus(), nBlockHash, true)){
strError = strprintf("Can't find collateral tx %s", txCollateral.ToString());
LogPrintf("CGovernanceObject::IsCollateralValid -- %s\n", strError);
return false;
}
if(txCollateral.vout.size() < 1) {
strError = strprintf("tx vout size less than 1 | %d", txCollateral.vout.size());
LogPrintf("CGovernanceObject::IsCollateralValid -- %s\n", strError);
return false;
}
// LOOK FOR SPECIALIZED GOVERNANCE SCRIPT (PROOF OF BURN)
CScript findScript;
findScript << OP_RETURN << ToByteVector(nExpectedHash);
DBG( cout << "IsCollateralValid: txCollateral.vout.size() = " << txCollateral.vout.size() << endl; );
DBG( cout << "IsCollateralValid: findScript = " << ScriptToAsmStr( findScript, false ) << endl; );
DBG( cout << "IsCollateralValid: nMinFee = " << nMinFee << endl; );
bool foundOpReturn = false;
BOOST_FOREACH(const CTxOut o, txCollateral.vout) {
DBG( cout << "IsCollateralValid txout : " << o.ToString()
<< ", o.nValue = " << o.nValue
<< ", o.scriptPubKey = " << ScriptToAsmStr( o.scriptPubKey, false )
<< endl; );
if(!o.scriptPubKey.IsNormalPaymentScript() && !o.scriptPubKey.IsUnspendable()){
strError = strprintf("Invalid Script %s", txCollateral.ToString());
LogPrintf ("CGovernanceObject::IsCollateralValid -- %s\n", strError);
return false;
}
if(o.scriptPubKey == findScript && o.nValue >= nMinFee) {
DBG( cout << "IsCollateralValid foundOpReturn = true" << endl; );
foundOpReturn = true;
}
else {
DBG( cout << "IsCollateralValid No match, continuing" << endl; );
}
}
if(!foundOpReturn){
strError = strprintf("Couldn't find opReturn %s in %s", nExpectedHash.ToString(), txCollateral.ToString());
LogPrintf ("CGovernanceObject::IsCollateralValid -- %s\n", strError);
return false;
}
// GET CONFIRMATIONS FOR TRANSACTION
LOCK(cs_main);
int nConfirmationsIn = GetIXConfirmations(nCollateralHash);
if (nBlockHash != uint256()) {
BlockMap::iterator mi = mapBlockIndex.find(nBlockHash);
if (mi != mapBlockIndex.end() && (*mi).second) {
CBlockIndex* pindex = (*mi).second;
if (chainActive.Contains(pindex)) {
nConfirmationsIn += chainActive.Height() - pindex->nHeight + 1;
}
}
}
if(nConfirmationsIn < GOVERNANCE_FEE_CONFIRMATIONS) {
strError = strprintf("Collateral requires at least %d confirmations to be relayed throughout the network (it has only %d)", GOVERNANCE_FEE_CONFIRMATIONS, nConfirmationsIn);
if (nConfirmationsIn >= GOVERNANCE_MIN_RELAY_FEE_CONFIRMATIONS) {
fMissingConfirmations = true;
strError += ", pre-accepted -- waiting for required confirmations";
} else {
strError += ", rejected -- try again later";
}
LogPrintf ("CGovernanceObject::IsCollateralValid -- %s\n", strError);
return false;
}
strError = "valid";
return true;
}
int CGovernanceObject::CountMatchingVotes(vote_signal_enum_t eVoteSignalIn, vote_outcome_enum_t eVoteOutcomeIn) const
{
int nCount = 0;
for(vote_m_cit it = mapCurrentMNVotes.begin(); it != mapCurrentMNVotes.end(); ++it) {
const vote_rec_t& recVote = it->second;
vote_instance_m_cit it2 = recVote.mapInstances.find(eVoteSignalIn);
if(it2 == recVote.mapInstances.end()) {
continue;
}
const vote_instance_t& voteInstance = it2->second;
if(voteInstance.eOutcome == eVoteOutcomeIn) {
++nCount;
}
}
return nCount;
}
/**
* Get specific vote counts for each outcome (funding, validity, etc)
*/
int CGovernanceObject::GetAbsoluteYesCount(vote_signal_enum_t eVoteSignalIn) const
{
return GetYesCount(eVoteSignalIn) - GetNoCount(eVoteSignalIn);
}
int CGovernanceObject::GetAbsoluteNoCount(vote_signal_enum_t eVoteSignalIn) const
{
return GetNoCount(eVoteSignalIn) - GetYesCount(eVoteSignalIn);
}
int CGovernanceObject::GetYesCount(vote_signal_enum_t eVoteSignalIn) const
{
return CountMatchingVotes(eVoteSignalIn, VOTE_OUTCOME_YES);
}
int CGovernanceObject::GetNoCount(vote_signal_enum_t eVoteSignalIn) const
{
return CountMatchingVotes(eVoteSignalIn, VOTE_OUTCOME_NO);
}
int CGovernanceObject::GetAbstainCount(vote_signal_enum_t eVoteSignalIn) const
{
return CountMatchingVotes(eVoteSignalIn, VOTE_OUTCOME_ABSTAIN);
}
bool CGovernanceObject::GetCurrentMNVotes(const CTxIn& mnCollateralOutpoint, vote_rec_t& voteRecord)
{
int nMNIndex = governance.GetMasternodeIndex(mnCollateralOutpoint);
vote_m_it it = mapCurrentMNVotes.find(nMNIndex);
if (it == mapCurrentMNVotes.end()) {
return false;
}
voteRecord = it->second;
return true;
}
void CGovernanceObject::Relay()
{
CInv inv(MSG_GOVERNANCE_OBJECT, GetHash());
RelayInv(inv, PROTOCOL_VERSION);
}
void CGovernanceObject::UpdateSentinelVariables()
{
// CALCULATE MINIMUM SUPPORT LEVELS REQUIRED
int nMnCount = mnodeman.CountEnabled();
if(nMnCount == 0) return;
// CALCULATE THE MINUMUM VOTE COUNT REQUIRED FOR FULL SIGNAL
// todo - 12.1 - should be set to `10` after governance vote compression is implemented
int nAbsVoteReq = std::max(Params().GetConsensus().nGovernanceMinQuorum, nMnCount / 10);
int nAbsDeleteReq = std::max(Params().GetConsensus().nGovernanceMinQuorum, (2 * nMnCount) / 3);
// todo - 12.1 - Temporarily set to 1 for testing - reverted
//nAbsVoteReq = 1;
// SET SENTINEL FLAGS TO FALSE
fCachedFunding = false;
fCachedValid = true; //default to valid
fCachedEndorsed = false;
fDirtyCache = false;
// SET SENTINEL FLAGS TO TRUE IF MIMIMUM SUPPORT LEVELS ARE REACHED
// ARE ANY OF THESE FLAGS CURRENTLY ACTIVATED?
if(GetAbsoluteYesCount(VOTE_SIGNAL_FUNDING) >= nAbsVoteReq) fCachedFunding = true;
if((GetAbsoluteYesCount(VOTE_SIGNAL_DELETE) >= nAbsDeleteReq) && !fCachedDelete) {
fCachedDelete = true;
if(nDeletionTime == 0) {
nDeletionTime = GetAdjustedTime();
}
}
if(GetAbsoluteYesCount(VOTE_SIGNAL_ENDORSED) >= nAbsVoteReq) fCachedEndorsed = true;
if(GetAbsoluteNoCount(VOTE_SIGNAL_VALID) >= nAbsVoteReq) fCachedValid = false;
}
void CGovernanceObject::swap(CGovernanceObject& first, CGovernanceObject& second) // nothrow
{
// enable ADL (not necessary in our case, but good practice)
using std::swap;
// by swapping the members of two classes,
// the two classes are effectively swapped
swap(first.nHashParent, second.nHashParent);
swap(first.nRevision, second.nRevision);
swap(first.nTime, second.nTime);
swap(first.nDeletionTime, second.nDeletionTime);
swap(first.nCollateralHash, second.nCollateralHash);
swap(first.strData, second.strData);
swap(first.nObjectType, second.nObjectType);
// swap all cached valid flags
swap(first.fCachedFunding, second.fCachedFunding);
swap(first.fCachedValid, second.fCachedValid);
swap(first.fCachedDelete, second.fCachedDelete);
swap(first.fCachedEndorsed, second.fCachedEndorsed);
swap(first.fDirtyCache, second.fDirtyCache);
swap(first.fExpired, second.fExpired);
}
void CGovernanceObject::CheckOrphanVotes()
{
int64_t nNow = GetAdjustedTime();
const vote_mcache_t::list_t& listVotes = mapOrphanVotes.GetItemList();
vote_mcache_t::list_cit it = listVotes.begin();
while(it != listVotes.end()) {
bool fRemove = false;
const CTxIn& key = it->key;
const vote_time_pair_t& pairVote = it->value;
const CGovernanceVote& vote = pairVote.first;
if(pairVote.second < nNow) {
fRemove = true;
}
else if(!mnodeman.Has(vote.GetVinMasternode())) {
++it;
continue;
}
CGovernanceException exception;
if(!ProcessVote(NULL, vote, exception)) {
LogPrintf("CGovernanceObject::CheckOrphanVotes -- Failed to add orphan vote: %s\n", exception.what());
}
else {
vote.Relay();
fRemove = true;
}
++it;
if(fRemove) {
mapOrphanVotes.Erase(key, pairVote);
}
}
}