dash/src/instantx.cpp

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// 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 "darksend.h"
#include "instantx.h"
#include "key.h"
#include "masternode-sync.h"
#include "masternodeman.h"
#include "net.h"
#include "protocol.h"
#include "spork.h"
#include "sync.h"
#include "util.h"
#include "consensus/validation.h"
#include <boost/algorithm/string/replace.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/thread.hpp>
extern CWallet* pwalletMain;
bool fEnableInstantSend = true;
int nInstantSendDepth = DEFAULT_INSTANTSEND_DEPTH;
int nCompleteTXLocks;
std::map<uint256, CTransaction> mapLockRequestAccepted;
std::map<uint256, CTransaction> mapLockRequestRejected;
std::map<uint256, CTxLockVote> mapTxLockVotes;
std::map<uint256, CTxLockVote> mapTxLockVotesOrphan;
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std::map<COutPoint, uint256> mapLockedInputs;
std::map<uint256, CTxLockCandidate> mapTxLockCandidates;
std::map<COutPoint, int64_t> mapMasternodeOrphanVotes; //track masternodes who voted with no txreq (for DOS protection)
CCriticalSection cs_instantsend;
// Transaction Locks
//
// step 1) Some node announces intention to lock transaction inputs via "txlreg" message
// step 2) Top INSTANTSEND_SIGNATURES_TOTAL masternodes push "txvote" message
// step 3) Once there are INSTANTSEND_SIGNATURES_REQUIRED valid "txvote" messages
// for a corresponding "txlreg" message, all inputs from that tx are treated as locked
void ProcessMessageInstantSend(CNode* pfrom, std::string& strCommand, CDataStream& vRecv)
{
if(fLiteMode) return; // disable all Dash specific functionality
if(!sporkManager.IsSporkActive(SPORK_2_INSTANTSEND_ENABLED)) return;
// Ignore any InstantSend messages until masternode list is synced
if(!masternodeSync.IsMasternodeListSynced()) return;
// NOTE: NetMsgType::TXLOCKREQUEST is handled via ProcessMessage() in main.cpp
if (strCommand == NetMsgType::TXLOCKVOTE) // InstantSend Transaction Lock Consensus Votes
{
CTxLockVote vote;
vRecv >> vote;
if(mapTxLockVotes.count(vote.GetHash())) return;
mapTxLockVotes.insert(std::make_pair(vote.GetHash(), vote));
ProcessTxLockVote(pfrom, vote);
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return;
}
}
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bool IsInstantSendTxValid(const CTransaction& txCandidate)
{
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if(txCandidate.vout.size() < 1) return false;
{
LOCK(cs_main);
if(!CheckFinalTx(txCandidate)) {
LogPrint("instantsend", "IsInstantSendTxValid -- Transaction is not final: txCandidate=%s", txCandidate.ToString());
return false;
}
}
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int64_t nValueIn = 0;
int64_t nValueOut = 0;
bool fMissingInputs = false;
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BOOST_FOREACH(const CTxOut& txout, txCandidate.vout) {
// InstandSend supports normal scripts and unspendable (i.e. data) scripts.
// TODO: Look into other script types that are normal and can be included
if(!txout.scriptPubKey.IsNormalPaymentScript() && !txout.scriptPubKey.IsUnspendable()) {
LogPrint("instantsend", "IsInstantSendTxValid -- Invalid Script %s", txCandidate.ToString());
return false;
}
nValueOut += txout.nValue;
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}
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BOOST_FOREACH(const CTxIn& txin, txCandidate.vin) {
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CTransaction tx2;
uint256 hash;
if(GetTransaction(txin.prevout.hash, tx2, Params().GetConsensus(), hash, true)) {
if(tx2.vout.size() > txin.prevout.n)
nValueIn += tx2.vout[txin.prevout.n].nValue;
} else {
fMissingInputs = true;
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}
}
if(nValueOut > sporkManager.GetSporkValue(SPORK_5_INSTANTSEND_MAX_VALUE)*COIN) {
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LogPrint("instantsend", "IsInstantSendTxValid -- Transaction value too high: nValueOut=%d, txCandidate=%s", nValueOut, txCandidate.ToString());
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return false;
}
if(fMissingInputs) {
LogPrint("instantsend", "IsInstantSendTxValid -- Unknown inputs in transaction: txCandidate=%s", txCandidate.ToString());
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/*
This happens sometimes for an unknown reason, so we'll return that it's a valid transaction.
If someone submits an invalid transaction it will be rejected by the network anyway and this isn't
very common, but we don't want to block IX just because the client can't figure out the fee.
*/
return true;
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}
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if(nValueIn - nValueOut < INSTANTSEND_MIN_FEE) {
LogPrint("instantsend", "IsInstantSendTxValid -- did not include enough fees in transaction: fees=%d, txCandidate=%s", nValueOut - nValueIn, txCandidate.ToString());
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return false;
}
return true;
}
bool ProcessTxLockRequest(CNode* pfrom, const CTransaction &tx)
{
if(!IsInstantSendTxValid(tx)) return false;
int nBlockHeight = CreateTxLockCandidate(tx);
if(!nBlockHeight) {
// smth is not right
return false;
}
uint256 txHash = tx.GetHash();
mapLockRequestAccepted.insert(std::make_pair(txHash, tx));
LogPrintf("TXLOCKREQUEST -- Transaction Lock Request: %s %s : accepted %s\n",
pfrom ? pfrom->addr.ToString() : "", pfrom ? pfrom->cleanSubVer : "", txHash.ToString());
CreateTxLockVote(tx, nBlockHeight);
ProcessOrphanTxLockVotes();
// Masternodes will sometimes propagate votes before the transaction is known to the client.
// If this just happened - update transaction status, try forcing external script notification,
// lock inputs and resolve conflicting locks
if(IsLockedInstandSendTransaction(txHash)) {
UpdateLockedTransaction(tx, true);
LockTransactionInputs(tx);
ResolveConflicts(tx);
}
return true;
}
int64_t CreateTxLockCandidate(const CTransaction& tx)
{
// Find the age of the first input but all inputs must be old enough too
int64_t nTxAge = 0;
BOOST_REVERSE_FOREACH(const CTxIn& txin, tx.vin) {
nTxAge = GetInputAge(txin);
if(nTxAge < 5) { //1 less than the "send IX" gui requires, incase of a block propagating the network at the time
LogPrintf("CreateTxLockCandidate -- Transaction not found / too new: nTxAge=%d, txid=%s\n", nTxAge, tx.GetHash().ToString());
return 0;
}
}
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/*
Use a blockheight newer than the input.
This prevents attackers from using transaction mallibility to predict which masternodes
they'll use.
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*/
int nCurrentHeight = 0;
int nLockInputHeight = 0;
{
LOCK(cs_main);
if(!chainActive.Tip()) return 0;
nCurrentHeight = chainActive.Height();
nLockInputHeight = nCurrentHeight - nTxAge + 4;
}
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uint256 txHash = tx.GetHash();
if(!mapTxLockCandidates.count(txHash)) {
LogPrintf("CreateTxLockCandidate -- New Transaction Lock Candidate! txid=%s\n", txHash.ToString());
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CTxLockCandidate txLockCandidate;
txLockCandidate.nBlockHeight = nLockInputHeight;
//locks expire after nInstantSendKeepLock confirmations
txLockCandidate.nExpirationBlock = nCurrentHeight + Params().GetConsensus().nInstantSendKeepLock;
txLockCandidate.nTimeout = GetTime()+(60*5);
txLockCandidate.txHash = txHash;
mapTxLockCandidates.insert(std::make_pair(txHash, txLockCandidate));
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} else {
mapTxLockCandidates[txHash].nBlockHeight = nLockInputHeight;
LogPrint("instantsend", "CreateTxLockCandidate -- Transaction Lock Candidate exists! txid=%s\n", txHash.ToString());
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}
return nLockInputHeight;
}
// check if we need to vote on this transaction
void CreateTxLockVote(const CTransaction& tx, int nBlockHeight)
{
if(!fMasterNode) return;
int n = mnodeman.GetMasternodeRank(activeMasternode.vin, nBlockHeight, MIN_INSTANTSEND_PROTO_VERSION);
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if(n == -1) {
LogPrint("instantsend", "CreateTxLockVote -- Unknown Masternode %s\n", activeMasternode.vin.prevout.ToStringShort());
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return;
}
if(n > INSTANTSEND_SIGNATURES_TOTAL) {
LogPrint("instantsend", "CreateTxLockVote -- Masternode not in the top %d (%d)\n", INSTANTSEND_SIGNATURES_TOTAL, n);
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return;
}
/*
nBlockHeight calculated from the transaction is the authoritive source
*/
LogPrint("instantsend", "CreateTxLockVote -- In the top %d (%d)\n", INSTANTSEND_SIGNATURES_TOTAL, n);
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CTxLockVote vote;
vote.vinMasternode = activeMasternode.vin;
vote.txHash = tx.GetHash();
vote.nBlockHeight = nBlockHeight;
if(!vote.Sign()) {
LogPrintf("CreateTxLockVote -- Failed to sign consensus vote\n");
return;
}
if(!vote.CheckSignature()) {
LogPrintf("CreateTxLockVote -- Signature invalid\n");
return;
}
{
LOCK(cs_instantsend);
mapTxLockVotes[vote.GetHash()] = vote;
}
CInv inv(MSG_TXLOCK_VOTE, vote.GetHash());
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RelayInv(inv);
}
//received a consensus vote
bool ProcessTxLockVote(CNode* pnode, CTxLockVote& vote)
{
// Masternodes will sometimes propagate votes before the transaction is known to the client,
// will actually process only after the lock request itself has arrived
if(!mapLockRequestAccepted.count(vote.txHash)) {
if(!mapTxLockVotesOrphan.count(vote.GetHash())) {
LogPrint("instantsend", "ProcessTxLockVote -- Orphan vote: txid=%s masternode=%s new\n", vote.txHash.ToString(), vote.vinMasternode.prevout.ToStringShort());
vote.nOrphanExpireTime = GetTime() + 60; // keep orphan votes for 1 minute
mapTxLockVotesOrphan[vote.GetHash()] = vote;
} else {
LogPrint("instantsend", "ProcessTxLockVote -- Orphan vote: txid=%s masternode=%s seen\n", vote.txHash.ToString(), vote.vinMasternode.prevout.ToStringShort());
}
// This tracks those messages and allows only the same rate as of the rest of the network
int nMasternodeOrphanExpireTime = GetTime() + 60*10; // keep time data for 10 minutes
if(!mapMasternodeOrphanVotes.count(vote.vinMasternode.prevout)) {
mapMasternodeOrphanVotes[vote.vinMasternode.prevout] = nMasternodeOrphanExpireTime;
} else {
int64_t nPrevOrphanVote = mapMasternodeOrphanVotes[vote.vinMasternode.prevout];
if(nPrevOrphanVote > GetTime() && nPrevOrphanVote > GetAverageMasternodeOrphanVoteTime()) {
LogPrint("instantsend", "ProcessTxLockVote -- masternode is spamming orphan Transaction Lock Votes: txid=%s masternode=%s\n",
vote.vinMasternode.prevout.ToStringShort(), vote.txHash.ToString());
// Misbehaving(pfrom->id, 1);
return false;
}
// not spamming, refresh
mapMasternodeOrphanVotes[vote.vinMasternode.prevout] = nMasternodeOrphanExpireTime;
}
return true;
}
LogPrint("instantsend", "ProcessTxLockVote -- Transaction Lock Vote, txid=%s\n", vote.txHash.ToString());
if(!mnodeman.Has(vote.vinMasternode)) {
LogPrint("instantsend", "ProcessTxLockVote -- Unknown masternode %s\n", vote.vinMasternode.prevout.ToStringShort());
return false;
}
int n = mnodeman.GetMasternodeRank(vote.vinMasternode, vote.nBlockHeight, MIN_INSTANTSEND_PROTO_VERSION);
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if(n == -1) {
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//can be caused by past versions trying to vote with an invalid protocol
LogPrint("instantsend", "ProcessTxLockVote -- Outdated masternode %s\n", vote.vinMasternode.prevout.ToStringShort());
if(pnode) {
mnodeman.AskForMN(pnode, vote.vinMasternode);
}
return false;
}
LogPrint("instantsend", "ProcessTxLockVote -- Masternode %s, rank=%d\n", vote.vinMasternode.prevout.ToStringShort(), n);
if(n > INSTANTSEND_SIGNATURES_TOTAL) {
LogPrint("instantsend", "ProcessTxLockVote -- Masternode %s is not in the top %d (%d), vote hash=%s\n",
vote.vinMasternode.prevout.ToStringShort(), INSTANTSEND_SIGNATURES_TOTAL, n, vote.GetHash().ToString());
return false;
}
if(!vote.CheckSignature()) {
LogPrintf("ProcessTxLockVote -- Signature invalid\n");
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// don't ban, it could just be a non-synced masternode
if(pnode) {
mnodeman.AskForMN(pnode, vote.vinMasternode);
}
return false;
}
if(!mapTxLockCandidates.count(vote.txHash)) {
// this should never happen
return false;
}
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//compile consessus vote
mapTxLockCandidates[vote.txHash].AddVote(vote);
int nSignatures = mapTxLockCandidates[vote.txHash].CountVotes();
LogPrint("instantsend", "ProcessTxLockVote -- Transaction Lock signatures count: %d, vote hash=%s\n", nSignatures, vote.GetHash().ToString());
if(nSignatures >= INSTANTSEND_SIGNATURES_REQUIRED) {
LogPrint("instantsend", "ProcessTxLockVote -- Transaction Lock Is Complete! txid=%s\n", vote.txHash.ToString());
if(!FindConflictingLocks(mapLockRequestAccepted[vote.txHash])) { //?????
if(mapLockRequestAccepted.count(vote.txHash)) {
UpdateLockedTransaction(mapLockRequestAccepted[vote.txHash]);
LockTransactionInputs(mapLockRequestAccepted[vote.txHash]);
} else if(mapLockRequestRejected.count(vote.txHash)) {
ResolveConflicts(mapLockRequestRejected[vote.txHash]); ///?????
} else {
LogPrint("instantsend", "ProcessTxLockVote -- Transaction Lock is missing! nSignatures=%d, vote hash=%s\n", nSignatures, vote.GetHash().ToString());
}
}
}
CInv inv(MSG_TXLOCK_VOTE, vote.GetHash());
RelayInv(inv);
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return true;
}
void ProcessOrphanTxLockVotes()
{
std::map<uint256, CTxLockVote>::iterator it = mapTxLockVotesOrphan.begin();
while(it != mapTxLockVotesOrphan.end()) {
if(ProcessTxLockVote(NULL, it->second)) {
mapTxLockVotesOrphan.erase(it++);
} else {
++it;
}
}
}
void UpdateLockedTransaction(const CTransaction& tx, bool fForceNotification)
{
// there should be no conflicting locks
if(FindConflictingLocks(tx)) return;
uint256 txHash = tx.GetHash();
// there must be a successfully verified lock request
if(!mapLockRequestAccepted.count(txHash)) return;
int nSignatures = GetTransactionLockSignatures(txHash);
#ifdef ENABLE_WALLET
if(pwalletMain && pwalletMain->UpdatedTransaction(txHash)) {
// bumping this to update UI
nCompleteTXLocks++;
// a transaction lock must have enough signatures to trigger this notification
if(nSignatures == INSTANTSEND_SIGNATURES_REQUIRED || (fForceNotification && nSignatures > INSTANTSEND_SIGNATURES_REQUIRED)) {
// notify an external script once threshold is reached
std::string strCmd = GetArg("-instantsendnotify", "");
if(!strCmd.empty()) {
boost::replace_all(strCmd, "%s", txHash.GetHex());
boost::thread t(runCommand, strCmd); // thread runs free
}
}
}
#endif
if(nSignatures == INSTANTSEND_SIGNATURES_REQUIRED || (fForceNotification && nSignatures > INSTANTSEND_SIGNATURES_REQUIRED))
GetMainSignals().NotifyTransactionLock(tx);
}
void LockTransactionInputs(const CTransaction& tx) {
if(!mapLockRequestAccepted.count(tx.GetHash())) return;
BOOST_FOREACH(const CTxIn& txin, tx.vin)
if(!mapLockedInputs.count(txin.prevout))
mapLockedInputs.insert(std::make_pair(txin.prevout, tx.GetHash()));
}
bool FindConflictingLocks(const CTransaction& tx)
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{
/*
It's possible (very unlikely though) to get 2 conflicting transaction locks approved by the network.
In that case, they will cancel each other out.
Blocks could have been rejected during this time, which is OK. After they cancel out, the client will
rescan the blocks and find they're acceptable and then take the chain with the most work.
*/
uint256 txHash = tx.GetHash();
BOOST_FOREACH(const CTxIn& txin, tx.vin) {
if(mapLockedInputs.count(txin.prevout)) {
if(mapLockedInputs[txin.prevout] != txHash) {
LogPrintf("FindConflictingLocks -- found two complete conflicting Transaction Locks, removing both: txid=%s, txin=%s", txHash.ToString(), mapLockedInputs[txin.prevout].ToString());
if(mapTxLockCandidates.count(txHash))
mapTxLockCandidates[txHash].nExpirationBlock = -1;
if(mapTxLockCandidates.count(mapLockedInputs[txin.prevout]))
mapTxLockCandidates[mapLockedInputs[txin.prevout]].nExpirationBlock = -1;
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return true;
}
}
}
return false;
}
void ResolveConflicts(const CTransaction& tx)
{
uint256 txHash = tx.GetHash();
// resolve conflicts
if (IsLockedInstandSendTransaction(txHash) && !FindConflictingLocks(tx)) { //?????
LogPrintf("ResolveConflicts -- Found existing complete Transaction Lock, resolving...\n");
//reprocess the last nInstantSendReprocessBlocks blocks
ReprocessBlocks(Params().GetConsensus().nInstantSendReprocessBlocks);
if(!mapLockRequestAccepted.count(txHash))
mapLockRequestAccepted.insert(std::make_pair(txHash, tx)); //?????
}
}
int64_t GetAverageMasternodeOrphanVoteTime()
{
// NOTE: should never actually call this function when mapMasternodeOrphanVotes is empty
if(mapMasternodeOrphanVotes.empty()) return 0;
std::map<COutPoint, int64_t>::iterator it = mapMasternodeOrphanVotes.begin();
int64_t total = 0;
while(it != mapMasternodeOrphanVotes.end()) {
total+= it->second;
++it;
}
return total / mapMasternodeOrphanVotes.size();
}
void CleanTxLockCandidates()
{
int nHeight;
{
LOCK(cs_main);
nHeight = chainActive.Height();
}
LOCK(cs_instantsend);
std::map<uint256, CTxLockCandidate>::iterator it = mapTxLockCandidates.begin();
while(it != mapTxLockCandidates.end()) {
CTxLockCandidate &txLockCandidate = it->second;
if(nHeight > txLockCandidate.nExpirationBlock) {
LogPrintf("CleanTxLockCandidates -- Removing expired Transaction Lock Candidate: txid=%s\n", txLockCandidate.txHash.ToString());
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if(mapLockRequestAccepted.count(txLockCandidate.txHash)){
CTransaction& tx = mapLockRequestAccepted[txLockCandidate.txHash];
BOOST_FOREACH(const CTxIn& txin, tx.vin)
mapLockedInputs.erase(txin.prevout);
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mapLockRequestAccepted.erase(txLockCandidate.txHash);
mapLockRequestRejected.erase(txLockCandidate.txHash);
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BOOST_FOREACH(const CTxLockVote& vote, txLockCandidate.vecTxLockVotes)
if(mapTxLockVotes.count(vote.GetHash()))
mapTxLockVotes.erase(vote.GetHash());
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}
mapTxLockCandidates.erase(it++);
} else {
++it;
}
}
// clean expired orphan votes
std::map<uint256, CTxLockVote>::iterator it1 = mapTxLockVotesOrphan.begin();
while(it1 != mapTxLockVotesOrphan.end()) {
if(it1->second.nOrphanExpireTime < GetTime()) {
LogPrint("instantsend", "CleanTxLockCandidates -- Removing expired orphan vote: txid=%s masternode=%s\n", it1->second.txHash.ToString(), it1->second.vinMasternode.prevout.ToStringShort());
mapTxLockVotesOrphan.erase(it1++);
} else {
++it1;
}
}
// clean expired masternode orphan vote times
std::map<COutPoint, int64_t>::iterator it2 = mapMasternodeOrphanVotes.begin();
while(it2 != mapMasternodeOrphanVotes.end()) {
if(it2->second < GetTime()) {
LogPrint("instantsend", "CleanTxLockCandidates -- Removing expired orphan masternode vote time: masternode=%s\n", it2->first.ToStringShort());
mapMasternodeOrphanVotes.erase(it2++);
} else {
++it2;
}
}
}
bool IsLockedInstandSendTransaction(const uint256 &txHash)
{
// there must be a successfully verified lock request...
if (!mapLockRequestAccepted.count(txHash)) return false;
// ...and corresponding lock must have enough signatures
return GetTransactionLockSignatures(txHash) >= INSTANTSEND_SIGNATURES_REQUIRED;
}
int GetTransactionLockSignatures(const uint256 &txHash)
{
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if(!fEnableInstantSend) return -1;
if(fLargeWorkForkFound || fLargeWorkInvalidChainFound) return -2;
if(!sporkManager.IsSporkActive(SPORK_2_INSTANTSEND_ENABLED)) return -3;
std::map<uint256, CTxLockCandidate>::iterator it = mapTxLockCandidates.find(txHash);
if(it != mapTxLockCandidates.end()) return it->second.CountVotes();
return -1;
}
bool IsTransactionLockTimedOut(const uint256 &txHash)
{
if(!fEnableInstantSend) return 0;
std::map<uint256, CTxLockCandidate>::iterator i = mapTxLockCandidates.find(txHash);
if (i != mapTxLockCandidates.end()) return GetTime() > (*i).second.nTimeout;
return false;
}
uint256 CTxLockVote::GetHash() const
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{
return ArithToUint256(UintToArith256(vinMasternode.prevout.hash) + vinMasternode.prevout.n + UintToArith256(txHash));
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}
bool CTxLockVote::CheckSignature() const
{
std::string strError;
std::string strMessage = txHash.ToString().c_str() + boost::lexical_cast<std::string>(nBlockHeight);
masternode_info_t infoMn = mnodeman.GetMasternodeInfo(vinMasternode);
if(!infoMn.fInfoValid) {
LogPrintf("CTxLockVote::CheckSignature -- Unknown Masternode: txin=%s\n", vinMasternode.ToString());
return false;
}
if(!darkSendSigner.VerifyMessage(infoMn.pubKeyMasternode, vchMasterNodeSignature, strMessage, strError)) {
LogPrintf("CTxLockVote::CheckSignature -- VerifyMessage() failed, error: %s\n", strError);
return false;
}
return true;
}
bool CTxLockVote::Sign()
{
std::string strError;
std::string strMessage = txHash.ToString().c_str() + boost::lexical_cast<std::string>(nBlockHeight);
if(!darkSendSigner.SignMessage(strMessage, vchMasterNodeSignature, activeMasternode.keyMasternode)) {
LogPrintf("CTxLockVote::Sign -- SignMessage() failed\n");
return false;
}
if(!darkSendSigner.VerifyMessage(activeMasternode.pubKeyMasternode, vchMasterNodeSignature, strMessage, strError)) {
LogPrintf("CTxLockVote::Sign -- VerifyMessage() failed, error: %s\n", strError);
return false;
}
return true;
}
bool CTxLockCandidate::IsAllVotesValid()
{
BOOST_FOREACH(const CTxLockVote& vote, vecTxLockVotes)
{
int n = mnodeman.GetMasternodeRank(vote.vinMasternode, vote.nBlockHeight, MIN_INSTANTSEND_PROTO_VERSION);
if(n == -1) {
LogPrintf("CTxLockCandidate::IsAllVotesValid -- Unknown Masternode, txin=%s\n", vote.vinMasternode.ToString());
return false;
}
if(n > INSTANTSEND_SIGNATURES_TOTAL) {
LogPrintf("CTxLockCandidate::IsAllVotesValid -- Masternode not in the top %s\n", INSTANTSEND_SIGNATURES_TOTAL);
return false;
}
if(!vote.CheckSignature()) {
LogPrintf("CTxLockCandidate::IsAllVotesValid -- Signature not valid\n");
return false;
}
}
return true;
}
void CTxLockCandidate::AddVote(const CTxLockVote& vote)
{
vecTxLockVotes.push_back(vote);
}
int CTxLockCandidate::CountVotes()
{
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/*
Only count signatures where the BlockHeight matches the transaction's blockheight.
The votes have no proof it's the correct blockheight
*/
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if(nBlockHeight == 0) return -1;
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int nCount = 0;
BOOST_FOREACH(const CTxLockVote& vote, vecTxLockVotes)
if(vote.nBlockHeight == nBlockHeight)
nCount++;
return nCount;
}