dash/src/darksend.cpp

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// Copyright (c) 2014-2015 The Dash developers
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// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include "darksend.h"
#include "main.h"
#include "init.h"
#include "util.h"
#include "masternodeman.h"
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#include "script/sign.h"
#include "instantx.h"
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#include "ui_interface.h"
#include <boost/algorithm/string/replace.hpp>
#include <boost/filesystem.hpp>
#include <boost/filesystem/fstream.hpp>
#include <boost/lexical_cast.hpp>
#include <algorithm>
#include <boost/assign/list_of.hpp>
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#include <openssl/rand.h>
using namespace std;
using namespace boost;
CCriticalSection cs_darksend;
// The main object for accessing Darksend
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CDarksendPool darkSendPool;
// A helper object for signing messages from Masternodes
CDarkSendSigner darkSendSigner;
// The current Darksends in progress on the network
std::vector<CDarksendQueue> vecDarksendQueue;
// Keep track of the used Masternodes
std::vector<CTxIn> vecMasternodesUsed;
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// Keep track of the scanning errors I've seen
map<uint256, CDarksendBroadcastTx> mapDarksendBroadcastTxes;
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// Keep track of the active Masternode
CActiveMasternode activeMasternode;
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// Count peers we've requested the list from
int RequestedMasternodeAssets = 0;
bool IsSyncingMasternodeAssets(){
return RequestedMasternodeAssets != MASTERNODE_LIST_SYNCED;
}
/* *** BEGIN DARKSEND MAGIC - DASH **********
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Copyright (c) 2014-2015, Dash Developers
eduffield - evan@dashpay.io
udjinm6 - udjinm6@dashpay.io
*/
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void CDarksendPool::ProcessMessageDarksend(CNode* pfrom, std::string& strCommand, CDataStream& vRecv)
{
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if(fLiteMode) return; //disable all Darksend/Masternode related functionality
if(IsInitialBlockDownload()) return;
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if (strCommand == "dsa") { //Darksend Accept Into Pool
int errorID;
if (pfrom->nVersion < MIN_POOL_PEER_PROTO_VERSION) {
errorID = ERR_VERSION;
LogPrintf("dsa -- incompatible version! \n");
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
if(!fMasterNode){
errorID = ERR_NOT_A_MN;
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LogPrintf("dsa -- not a Masternode! \n");
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
int nDenom;
CTransaction txCollateral;
vRecv >> nDenom >> txCollateral;
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CMasternode* pmn = mnodeman.Find(activeMasternode.vin);
if(pmn == NULL)
{
errorID = ERR_MN_LIST;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
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return;
}
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if(sessionUsers == 0) {
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if(pmn->nLastDsq != 0 &&
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pmn->nLastDsq + mnodeman.CountMasternodesAboveProtocol(MIN_POOL_PEER_PROTO_VERSION)/5 > mnodeman.nDsqCount){
LogPrintf("dsa -- last dsq too recent, must wait. %s \n", pfrom->addr.ToString().c_str());
errorID = ERR_RECENT;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
}
if(!IsCompatibleWithSession(nDenom, txCollateral, errorID))
{
LogPrintf("dsa -- not compatible with existing transactions! \n");
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
} else {
LogPrintf("dsa -- is compatible, please submit! \n");
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_ACCEPTED, errorID);
return;
}
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} else if (strCommand == "dsq") { //Darksend Queue
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TRY_LOCK(cs_darksend, lockRecv);
if(!lockRecv) return;
if (pfrom->nVersion < MIN_POOL_PEER_PROTO_VERSION) {
return;
}
CDarksendQueue dsq;
vRecv >> dsq;
CService addr;
if(!dsq.GetAddress(addr)) return;
if(!dsq.CheckSignature()) return;
if(dsq.IsExpired()) return;
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CMasternode* pmn = mnodeman.Find(dsq.vin);
if(pmn == NULL) return;
// if the queue is ready, submit if we can
if(dsq.ready) {
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if(!pSubmittedToMasternode) return;
if((CNetAddr)pSubmittedToMasternode->addr != (CNetAddr)addr){
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LogPrintf("dsq - message doesn't match current Masternode - %s != %s\n", pSubmittedToMasternode->addr.ToString().c_str(), addr.ToString().c_str());
return;
}
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if(state == POOL_STATUS_QUEUE){
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if (fDebug) LogPrintf("Darksend queue is ready - %s\n", addr.ToString().c_str());
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PrepareDarksendDenominate();
}
} else {
BOOST_FOREACH(CDarksendQueue q, vecDarksendQueue){
if(q.vin == dsq.vin) return;
}
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if(fDebug) LogPrintf("dsq last %d last2 %d count %d\n", pmn->nLastDsq, pmn->nLastDsq + mnodeman.size()/5, mnodeman.nDsqCount);
//don't allow a few nodes to dominate the queuing process
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if(pmn->nLastDsq != 0 &&
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pmn->nLastDsq + mnodeman.CountMasternodesAboveProtocol(MIN_POOL_PEER_PROTO_VERSION)/5 > mnodeman.nDsqCount){
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if(fDebug) LogPrintf("dsq -- Masternode sending too many dsq messages. %s \n", pmn->addr.ToString().c_str());
return;
}
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mnodeman.nDsqCount++;
pmn->nLastDsq = mnodeman.nDsqCount;
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pmn->allowFreeTx = true;
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if(fDebug) LogPrintf("dsq - new Darksend queue object - %s\n", addr.ToString().c_str());
vecDarksendQueue.push_back(dsq);
dsq.Relay();
dsq.time = GetTime();
}
} else if (strCommand == "dsi") { //DarkSend vIn
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int errorID;
if (pfrom->nVersion < MIN_POOL_PEER_PROTO_VERSION) {
LogPrintf("dsi -- incompatible version! \n");
errorID = ERR_VERSION;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
if(!fMasterNode){
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LogPrintf("dsi -- not a Masternode! \n");
errorID = ERR_NOT_A_MN;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
std::vector<CTxIn> in;
int64_t nAmount;
CTransaction txCollateral;
std::vector<CTxOut> out;
vRecv >> in >> nAmount >> txCollateral >> out;
//do we have enough users in the current session?
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if(!IsSessionReady()){
LogPrintf("dsi -- session not complete! \n");
errorID = ERR_SESSION;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
//do we have the same denominations as the current session?
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if(!IsCompatibleWithEntries(out))
{
LogPrintf("dsi -- not compatible with existing transactions! \n");
errorID = ERR_EXISTING_TX;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
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//check it like a transaction
{
int64_t nValueIn = 0;
int64_t nValueOut = 0;
bool missingTx = false;
CValidationState state;
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CMutableTransaction tx;
BOOST_FOREACH(const CTxOut o, out){
nValueOut += o.nValue;
tx.vout.push_back(o);
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if(o.scriptPubKey.size() != 25){
LogPrintf("dsi - non-standard pubkey detected! %s\n", o.scriptPubKey.ToString().c_str());
errorID = ERR_NON_STANDARD_PUBKEY;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
if(!o.scriptPubKey.IsNormalPaymentScript()){
LogPrintf("dsi - invalid script! %s\n", o.scriptPubKey.ToString().c_str());
errorID = ERR_INVALID_SCRIPT;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
}
BOOST_FOREACH(const CTxIn i, in){
tx.vin.push_back(i);
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if(fDebug) LogPrintf("dsi -- tx in %s\n", i.ToString().c_str());
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CTransaction tx2;
uint256 hash;
if(GetTransaction(i.prevout.hash, tx2, hash, true)){
if(tx2.vout.size() > i.prevout.n) {
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nValueIn += tx2.vout[i.prevout.n].nValue;
}
} else{
missingTx = true;
}
}
if (nValueIn > DARKSEND_POOL_MAX) {
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LogPrintf("dsi -- more than Darksend pool max! %s\n", tx.ToString().c_str());
errorID = ERR_MAXIMUM;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
if(!missingTx){
if (nValueIn-nValueOut > nValueIn*.01) {
LogPrintf("dsi -- fees are too high! %s\n", tx.ToString().c_str());
errorID = ERR_FEES;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
} else {
LogPrintf("dsi -- missing input tx! %s\n", tx.ToString().c_str());
errorID = ERR_MISSING_TX;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
if(!AcceptableInputs(mempool, state, CTransaction(tx), false, NULL, false, true)) {
LogPrintf("dsi -- transaction not valid! \n");
errorID = ERR_INVALID_TX;
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
return;
}
}
if(AddEntry(in, nAmount, txCollateral, out, errorID)){
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_ACCEPTED, errorID);
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Check();
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RelayStatus(sessionID, GetState(), GetEntriesCount(), MASTERNODE_RESET);
} else {
pfrom->PushMessage("dssu", sessionID, GetState(), GetEntriesCount(), MASTERNODE_REJECTED, errorID);
}
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} else if (strCommand == "dssu") { //Darksend status update
if (pfrom->nVersion < MIN_POOL_PEER_PROTO_VERSION) {
return;
}
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if(!pSubmittedToMasternode) return;
if((CNetAddr)pSubmittedToMasternode->addr != (CNetAddr)pfrom->addr){
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//LogPrintf("dssu - message doesn't match current Masternode - %s != %s\n", pSubmittedToMasternode->addr.ToString().c_str(), pfrom->addr.ToString().c_str());
return;
}
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int sessionIDMessage;
int state;
int entriesCount;
int accepted;
int errorID;
vRecv >> sessionIDMessage >> state >> entriesCount >> accepted >> errorID;
if(fDebug) LogPrintf("dssu - state: %i entriesCount: %i accepted: %i error: %s \n", state, entriesCount, accepted, GetMessageByID(errorID).c_str());
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if((accepted != 1 && accepted != 0) && sessionID != sessionIDMessage){
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LogPrintf("dssu - message doesn't match current Darksend session %d %d\n", sessionID, sessionIDMessage);
return;
}
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StatusUpdate(state, entriesCount, accepted, errorID, sessionIDMessage);
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} else if (strCommand == "dss") { //Darksend Sign Final Tx
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if (pfrom->nVersion < MIN_POOL_PEER_PROTO_VERSION) {
return;
}
vector<CTxIn> sigs;
vRecv >> sigs;
bool success = false;
int count = 0;
BOOST_FOREACH(const CTxIn item, sigs)
{
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if(AddScriptSig(item)) success = true;
if(fDebug) LogPrintf(" -- sigs count %d %d\n", (int)sigs.size(), count);
count++;
}
if(success){
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darkSendPool.Check();
RelayStatus(darkSendPool.sessionID, darkSendPool.GetState(), darkSendPool.GetEntriesCount(), MASTERNODE_RESET);
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}
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} else if (strCommand == "dsf") { //Darksend Final tx
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if (pfrom->nVersion < MIN_POOL_PEER_PROTO_VERSION) {
return;
}
if(!pSubmittedToMasternode) return;
if((CNetAddr)pSubmittedToMasternode->addr != (CNetAddr)pfrom->addr){
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//LogPrintf("dsc - message doesn't match current Masternode - %s != %s\n", pSubmittedToMasternode->addr.ToString().c_str(), pfrom->addr.ToString().c_str());
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return;
}
int sessionIDMessage;
CTransaction txNew;
vRecv >> sessionIDMessage >> txNew;
if(sessionID != sessionIDMessage){
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if (fDebug) LogPrintf("dsf - message doesn't match current Darksend session %d %d\n", sessionID, sessionIDMessage);
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return;
}
//check to see if input is spent already? (and probably not confirmed)
SignFinalTransaction(txNew, pfrom);
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} else if (strCommand == "dsc") { //Darksend Complete
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if (pfrom->nVersion < MIN_POOL_PEER_PROTO_VERSION) {
return;
}
if(!pSubmittedToMasternode) return;
if((CNetAddr)pSubmittedToMasternode->addr != (CNetAddr)pfrom->addr){
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//LogPrintf("dsc - message doesn't match current Masternode - %s != %s\n", pSubmittedToMasternode->addr.ToString().c_str(), pfrom->addr.ToString().c_str());
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return;
}
int sessionIDMessage;
bool error;
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int errorID;
vRecv >> sessionIDMessage >> error >> errorID;
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if(sessionID != sessionIDMessage){
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if (fDebug) LogPrintf("dsc - message doesn't match current Darksend session %d %d\n", darkSendPool.sessionID, sessionIDMessage);
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return;
}
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darkSendPool.CompletedTransaction(error, errorID);
}
}
int randomizeList (int i) { return std::rand()%i;}
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// Recursively determine the rounds of a given input (How deep is the Darksend chain for a given input)
int GetInputDarksendRounds(CTxIn in, int rounds)
{
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static std::map<uint256, CMutableTransaction> mDenomWtxes;
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if(rounds >= 17) return rounds;
uint256 hash = in.prevout.hash;
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unsigned int nout = in.prevout.n;
CWalletTx wtx;
if(pwalletMain->GetTransaction(hash, wtx))
{
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std::map<uint256, CMutableTransaction>::const_iterator mdwi = mDenomWtxes.find(hash);
// not known yet, let's add it
if(mdwi == mDenomWtxes.end())
{
if(fDebug) LogPrintf("GetInputDarksendRounds INSERTING %s\n", hash.ToString());
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mDenomWtxes[hash] = CMutableTransaction(wtx);
}
// found and it's not an initial value, just return it
else if(mDenomWtxes[hash].vout[nout].nRounds != -10)
{
return mDenomWtxes[hash].vout[nout].nRounds;
}
// bounds check
if(nout >= wtx.vout.size())
{
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// should never actually hit this
if(fDebug) LogPrintf("GetInputDarksendRounds UPDATED %s %3d %d\n", hash.ToString(), nout, -4);
return -4;
}
if(pwalletMain->IsCollateralAmount(wtx.vout[nout].nValue))
{
mDenomWtxes[hash].vout[nout].nRounds = -3;
if(fDebug) LogPrintf("GetInputDarksendRounds UPDATED %s %3d %d\n", hash.ToString(), nout, mDenomWtxes[hash].vout[nout].nRounds);
return mDenomWtxes[hash].vout[nout].nRounds;
}
//make sure the final output is non-denominate
if(/*rounds == 0 && */!pwalletMain->IsDenominatedAmount(wtx.vout[nout].nValue)) //NOT DENOM
{
mDenomWtxes[hash].vout[nout].nRounds = -2;
if(fDebug) LogPrintf("GetInputDarksendRounds UPDATED %s %3d %d\n", hash.ToString(), nout, mDenomWtxes[hash].vout[nout].nRounds);
return mDenomWtxes[hash].vout[nout].nRounds;
}
bool fAllDenoms = true;
BOOST_FOREACH(CTxOut out, wtx.vout)
{
fAllDenoms = fAllDenoms && pwalletMain->IsDenominatedAmount(out.nValue);
}
// this one is denominated but there is another non-denominated output found in the same tx
if(!fAllDenoms)
{
mDenomWtxes[hash].vout[nout].nRounds = 0;
if(fDebug) LogPrintf("GetInputDarksendRounds UPDATED %s %3d %d\n", hash.ToString(), nout, mDenomWtxes[hash].vout[nout].nRounds);
return mDenomWtxes[hash].vout[nout].nRounds;
}
int nShortest = -10; // an initial value, should be no way to get this by calculations
bool fDenomFound = false;
// only denoms here so let's look up
BOOST_FOREACH(CTxIn in2, wtx.vin)
{
if(pwalletMain->IsMine(in2))
{
int n = GetInputDarksendRounds(in2, rounds+1);
// denom found, find the shortest chain or initially assign nShortest with the first found value
if(n >= 0 && (n < nShortest || nShortest == -10))
{
nShortest = n;
fDenomFound = true;
}
}
}
mDenomWtxes[hash].vout[nout].nRounds = fDenomFound
? nShortest + 1 // good, we a +1 to the shortest one
: 0; // too bad, we are the fist one in that chain
if(fDebug) LogPrintf("GetInputDarksendRounds UPDATED %s %3d %d\n", hash.ToString(), nout, mDenomWtxes[hash].vout[nout].nRounds);
return mDenomWtxes[hash].vout[nout].nRounds;
}
return rounds-1;
}
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void CDarksendPool::Reset(){
cachedLastSuccess = 0;
lastNewBlock = 0;
txCollateral = CMutableTransaction();
vecMasternodesUsed.clear();
UnlockCoins();
SetNull();
}
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void CDarksendPool::SetNull(bool clearEverything){
finalTransaction.vin.clear();
finalTransaction.vout.clear();
entries.clear();
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state = POOL_STATUS_IDLE;
lastTimeChanged = GetTimeMillis();
entriesCount = 0;
lastEntryAccepted = 0;
countEntriesAccepted = 0;
sessionUsers = 0;
sessionDenom = 0;
sessionFoundMasternode = false;
vecSessionCollateral.clear();
if(clearEverything){
myEntries.clear();
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sessionID = 0;
}
// -- seed random number generator (used for ordering output lists)
unsigned int seed = 0;
RAND_bytes((unsigned char*)&seed, sizeof(seed));
std::srand(seed);
}
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bool CDarksendPool::SetCollateralAddress(std::string strAddress){
CBitcoinAddress address;
if (!address.SetString(strAddress))
{
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LogPrintf("CDarksendPool::SetCollateralAddress - Invalid Darksend collateral address\n");
return false;
}
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collateralPubKey = GetScriptForDestination(address.Get());
return true;
}
//
// Unlock coins after Darksend fails or succeeds
//
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void CDarksendPool::UnlockCoins(){
BOOST_FOREACH(CTxIn v, lockedCoins)
pwalletMain->UnlockCoin(v.prevout);
lockedCoins.clear();
}
std::string CDarksendPool::GetStatus()
{
static int showingDarkSendMessage = 0;
showingDarkSendMessage+=3;
std::string suffix = "";
if(chainActive.Tip()->nHeight - cachedLastSuccess < minBlockSpacing) {
return strAutoDenomResult;
}
switch(state) {
case POOL_STATUS_IDLE:
return _("Darksend is idle.");
case POOL_STATUS_ACCEPTING_ENTRIES:
if(entriesCount == 0) {
showingDarkSendMessage = 0;
return strAutoDenomResult;
} else if (lastEntryAccepted == 1) {
if(showingDarkSendMessage % 10 > 8) {
lastEntryAccepted = 0;
showingDarkSendMessage = 0;
}
return _("Darksend request complete:") + " " + _("Your transaction was accepted into the pool!");
} else {
std::string suffix = "";
if( showingDarkSendMessage % 70 <= 40) return strprintf(_("Submitted following entries to masternode: %u / %d"), entriesCount, GetMaxPoolTransactions());
else if(showingDarkSendMessage % 70 <= 50) suffix = ".";
else if(showingDarkSendMessage % 70 <= 60) suffix = "..";
else if(showingDarkSendMessage % 70 <= 70) suffix = "...";
return strprintf(_("Submitted to masternode, waiting for more entries ( %u / %d ) %s"), entriesCount, GetMaxPoolTransactions(), suffix);
}
case POOL_STATUS_SIGNING:
if( showingDarkSendMessage % 70 <= 40) return _("Found enough users, signing ...");
else if(showingDarkSendMessage % 70 <= 50) suffix = ".";
else if(showingDarkSendMessage % 70 <= 60) suffix = "..";
else if(showingDarkSendMessage % 70 <= 70) suffix = "...";
return strprintf(_("Found enough users, signing ( waiting %s )"), suffix);
case POOL_STATUS_TRANSMISSION:
return _("Transmitting final transaction.");
case POOL_STATUS_FINALIZE_TRANSACTION:
return _("Finalizing transaction.");
case POOL_STATUS_ERROR:
return _("Darksend request incomplete:") + " " + lastMessage + " " + _("Will retry...");
case POOL_STATUS_SUCCESS:
return _("Darksend request complete:") + " " + lastMessage;
case POOL_STATUS_QUEUE:
if( showingDarkSendMessage % 70 <= 30) suffix = ".";
else if(showingDarkSendMessage % 70 <= 50) suffix = "..";
else if(showingDarkSendMessage % 70 <= 70) suffix = "...";
return strprintf(_("Submitted to masternode, waiting in queue %s"), suffix);;
default:
return strprintf(_("Unknown state: id = %u"), state);
}
}
//
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// Check the Darksend progress and send client updates if a Masternode
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//
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void CDarksendPool::Check()
{
if(fDebug && fMasterNode) LogPrintf("CDarksendPool::Check() - entries count %lu\n", entries.size());
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//printf("CDarksendPool::Check() %d - %d - %d\n", state, anonTx.CountEntries(), GetTimeMillis()-lastTimeChanged);
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// If entries is full, then move on to the next phase
if(state == POOL_STATUS_ACCEPTING_ENTRIES && (int)entries.size() >= GetMaxPoolTransactions())
{
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if(fDebug) LogPrintf("CDarksendPool::Check() -- TRYING TRANSACTION \n");
UpdateState(POOL_STATUS_FINALIZE_TRANSACTION);
}
// create the finalized transaction for distribution to the clients
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if(state == POOL_STATUS_FINALIZE_TRANSACTION) {
if(fDebug) LogPrintf("CDarksendPool::Check() -- FINALIZE TRANSACTIONS\n");
UpdateState(POOL_STATUS_SIGNING);
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if (fMasterNode) {
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CMutableTransaction txNew;
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// make our new transaction
for(unsigned int i = 0; i < entries.size(); i++){
BOOST_FOREACH(const CTxOut& v, entries[i].vout)
txNew.vout.push_back(v);
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BOOST_FOREACH(const CTxDSIn& s, entries[i].sev)
txNew.vin.push_back(s);
}
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// shuffle the outputs for improved anonymity
std::random_shuffle ( txNew.vin.begin(), txNew.vin.end(), randomizeList);
std::random_shuffle ( txNew.vout.begin(), txNew.vout.end(), randomizeList);
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if(fDebug) LogPrintf("Transaction 1: %s\n", txNew.ToString().c_str());
finalTransaction = txNew;
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// request signatures from clients
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RelayFinalTransaction(sessionID, finalTransaction);
}
}
// If we have all of the signatures, try to compile the transaction
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if(state == POOL_STATUS_SIGNING && SignaturesComplete()) {
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if(fDebug) LogPrintf("CDarksendPool::Check() -- SIGNING\n");
UpdateState(POOL_STATUS_TRANSMISSION);
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CheckFinalTransaction();
}
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// reset if we're here for 10 seconds
if((state == POOL_STATUS_ERROR || state == POOL_STATUS_SUCCESS) && GetTimeMillis()-lastTimeChanged >= 10000) {
if(fDebug) LogPrintf("CDarksendPool::Check() -- RESETTING MESSAGE \n");
SetNull(true);
if(fMasterNode) RelayStatus(sessionID, GetState(), GetEntriesCount(), MASTERNODE_RESET);
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UnlockCoins();
}
}
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void CDarksendPool::CheckFinalTransaction()
{
CWalletTx txNew = CWalletTx(pwalletMain, finalTransaction);
LOCK2(cs_main, pwalletMain->cs_wallet);
{
if (fMasterNode) { //only the main node is master atm
if(fDebug) LogPrintf("Transaction 2: %s\n", txNew.ToString().c_str());
// See if the transaction is valid
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if (!txNew.AcceptToMemoryPool(false, true, true))
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{
LogPrintf("CDarksendPool::Check() - CommitTransaction : Error: Transaction not valid\n");
SetNull();
pwalletMain->Lock();
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// not much we can do in this case
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UpdateState(POOL_STATUS_ACCEPTING_ENTRIES);
RelayCompletedTransaction(sessionID, true, ERR_INVALID_TX);
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return;
}
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LogPrintf("CDarksendPool::Check() -- IS MASTER -- TRANSMITTING DARKSEND\n");
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// sign a message
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int64_t sigTime = GetAdjustedTime();
std::string strMessage = txNew.GetHash().ToString() + boost::lexical_cast<std::string>(sigTime);
std::string strError = "";
std::vector<unsigned char> vchSig;
CKey key2;
CPubKey pubkey2;
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if(!darkSendSigner.SetKey(strMasterNodePrivKey, strError, key2, pubkey2))
{
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LogPrintf("CDarksendPool::Check() - ERROR: Invalid Masternodeprivkey: '%s'\n", strError.c_str());
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return;
}
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if(!darkSendSigner.SignMessage(strMessage, strError, vchSig, key2)) {
LogPrintf("CDarksendPool::Check() - Sign message failed\n");
return;
}
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if(!darkSendSigner.VerifyMessage(pubkey2, vchSig, strMessage, strError)) {
LogPrintf("CDarksendPool::Check() - Verify message failed\n");
return;
}
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if(!mapDarksendBroadcastTxes.count(txNew.GetHash())){
CDarksendBroadcastTx dstx;
dstx.tx = txNew;
dstx.vin = activeMasternode.vin;
dstx.vchSig = vchSig;
dstx.sigTime = sigTime;
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mapDarksendBroadcastTxes.insert(make_pair(txNew.GetHash(), dstx));
}
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// Broadcast the transaction to the network
txNew.fTimeReceivedIsTxTime = true;
txNew.RelayWalletTransaction();
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// Tell the clients it was successful
RelayCompletedTransaction(sessionID, false, MSG_SUCCESS);
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// Randomly charge clients
ChargeRandomFees();
// Reset
if(fDebug) LogPrintf("CDarksendPool::Check() -- COMPLETED -- RESETTING \n");
SetNull(true);
UnlockCoins();
if(fMasterNode) RelayStatus(sessionID, GetState(), GetEntriesCount(), MASTERNODE_RESET);
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pwalletMain->Lock();
}
}
}
//
// Charge clients a fee if they're abusive
//
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// Why bother? Darksend uses collateral to ensure abuse to the process is kept to a minimum.
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// The submission and signing stages in Darksend are completely separate. In the cases where
// a client submits a transaction then refused to sign, there must be a cost. Otherwise they
// would be able to do this over and over again and bring the mixing to a hault.
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//
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// How does this work? Messages to Masternodes come in via "dsi", these require a valid collateral
// transaction for the client to be able to enter the pool. This transaction is kept by the Masternode
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// until the transaction is either complete or fails.
//
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void CDarksendPool::ChargeFees(){
if(fMasterNode) {
//we don't need to charge collateral for every offence.
int offences = 0;
int r = rand()%100;
if(r > 33) return;
if(state == POOL_STATUS_ACCEPTING_ENTRIES){
BOOST_FOREACH(const CTransaction& txCollateral, vecSessionCollateral) {
bool found = false;
BOOST_FOREACH(const CDarkSendEntry& v, entries) {
if(v.collateral == txCollateral) {
found = true;
}
}
// This queue entry didn't send us the promised transaction
if(!found){
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LogPrintf("CDarksendPool::ChargeFees -- found uncooperative node (didn't send transaction). Found offence.\n");
offences++;
}
}
}
if(state == POOL_STATUS_SIGNING) {
// who didn't sign?
BOOST_FOREACH(const CDarkSendEntry v, entries) {
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BOOST_FOREACH(const CTxDSIn s, v.sev) {
if(!s.fHasSig){
LogPrintf("CDarksendPool::ChargeFees -- found uncooperative node (didn't sign). Found offence\n");
offences++;
}
}
}
}
r = rand()%100;
int target = 0;
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//mostly offending?
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if(offences >= Params().PoolMaxTransactions()-1 && r > 33) return;
//everyone is an offender? That's not right
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if(offences >= Params().PoolMaxTransactions()) return;
//charge one of the offenders randomly
if(offences > 1) target = 50;
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//pick random client to charge
r = rand()%100;
if(state == POOL_STATUS_ACCEPTING_ENTRIES){
BOOST_FOREACH(const CTransaction& txCollateral, vecSessionCollateral) {
bool found = false;
BOOST_FOREACH(const CDarkSendEntry& v, entries) {
if(v.collateral == txCollateral) {
found = true;
}
}
// This queue entry didn't send us the promised transaction
if(!found && r > target){
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LogPrintf("CDarksendPool::ChargeFees -- found uncooperative node (didn't send transaction). charging fees.\n");
CWalletTx wtxCollateral = CWalletTx(pwalletMain, txCollateral);
// Broadcast
if (!wtxCollateral.AcceptToMemoryPool(true))
{
// This must not fail. The transaction has already been signed and recorded.
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LogPrintf("CDarksendPool::ChargeFees() : Error: Transaction not valid");
}
wtxCollateral.RelayWalletTransaction();
return;
}
}
}
if(state == POOL_STATUS_SIGNING) {
// who didn't sign?
BOOST_FOREACH(const CDarkSendEntry v, entries) {
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BOOST_FOREACH(const CTxDSIn s, v.sev) {
if(!s.fHasSig && r > target){
LogPrintf("CDarksendPool::ChargeFees -- found uncooperative node (didn't sign). charging fees.\n");
CWalletTx wtxCollateral = CWalletTx(pwalletMain, v.collateral);
// Broadcast
if (!wtxCollateral.AcceptToMemoryPool(false))
{
// This must not fail. The transaction has already been signed and recorded.
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LogPrintf("CDarksendPool::ChargeFees() : Error: Transaction not valid");
}
wtxCollateral.RelayWalletTransaction();
return;
}
}
}
}
}
}
// charge the collateral randomly
// - Darksend is completely free, to pay miners we randomly pay the collateral of users.
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void CDarksendPool::ChargeRandomFees(){
if(fMasterNode) {
int i = 0;
BOOST_FOREACH(const CTransaction& txCollateral, vecSessionCollateral) {
int r = rand()%100;
/*
Collateral Fee Charges:
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Being that Darksend has "no fees" we need to have some kind of cost associated
with using it to stop abuse. Otherwise it could serve as an attack vector and
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allow endless transaction that would bloat Dash and make it unusable. To
stop these kinds of attacks 1 in 10 successful transactions are charged. This
adds up to a cost of 0.001DRK per transaction on average.
*/
if(r <= 10)
{
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LogPrintf("CDarksendPool::ChargeRandomFees -- charging random fees. %u\n", i);
CWalletTx wtxCollateral = CWalletTx(pwalletMain, txCollateral);
// Broadcast
if (!wtxCollateral.AcceptToMemoryPool(true))
{
// This must not fail. The transaction has already been signed and recorded.
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LogPrintf("CDarksendPool::ChargeRandomFees() : Error: Transaction not valid");
}
wtxCollateral.RelayWalletTransaction();
}
}
}
}
//
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// Check for various timeouts (queue objects, Darksend, etc)
//
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void CDarksendPool::CheckTimeout(){
if(!fEnableDarksend && !fMasterNode) return;
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// catching hanging sessions
if(!fMasterNode) {
switch(state) {
case POOL_STATUS_TRANSMISSION:
if(fDebug) LogPrintf("CDarksendPool::CheckTimeout() -- Session complete -- Running Check()\n");
Check();
break;
case POOL_STATUS_ERROR:
if(fDebug) LogPrintf("CDarksendPool::CheckTimeout() -- Pool error -- Running Check()\n");
Check();
break;
case POOL_STATUS_SUCCESS:
if(fDebug) LogPrintf("CDarksendPool::CheckTimeout() -- Pool success -- Running Check()\n");
Check();
break;
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}
}
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// check Darksend queue objects for timeouts
int c = 0;
vector<CDarksendQueue>::iterator it;
for(it=vecDarksendQueue.begin();it<vecDarksendQueue.end();it++){
if((*it).IsExpired()){
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if(fDebug) LogPrintf("CDarksendPool::CheckTimeout() : Removing expired queue entry - %d\n", c);
vecDarksendQueue.erase(it);
break;
}
c++;
}
int addLagTime = 0;
if(!fMasterNode) addLagTime = 10000; //if we're the client, give the server a few extra seconds before resetting.
if(state == POOL_STATUS_ACCEPTING_ENTRIES || state == POOL_STATUS_QUEUE){
c = 0;
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// if it's a Masternode, the entries are stored in "entries", otherwise they're stored in myEntries
std::vector<CDarkSendEntry> *vec = &myEntries;
if(fMasterNode) vec = &entries;
// check for a timeout and reset if needed
vector<CDarkSendEntry>::iterator it2;
for(it2=vec->begin();it2<vec->end();it2++){
if((*it2).IsExpired()){
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if(fDebug) LogPrintf("CDarksendPool::CheckTimeout() : Removing expired entry - %d\n", c);
vec->erase(it2);
if(entries.size() == 0 && myEntries.size() == 0){
SetNull(true);
UnlockCoins();
}
if(fMasterNode){
RelayStatus(sessionID, GetState(), GetEntriesCount(), MASTERNODE_RESET);
}
break;
}
c++;
}
if(GetTimeMillis()-lastTimeChanged >= (DARKSEND_QUEUE_TIMEOUT*1000)+addLagTime){
lastTimeChanged = GetTimeMillis();
UnlockCoins();
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SetNull(true);
}
} else if(GetTimeMillis()-lastTimeChanged >= (DARKSEND_QUEUE_TIMEOUT*1000)+addLagTime){
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if(fDebug) LogPrintf("CDarksendPool::CheckTimeout() -- Session timed out (30s) -- resetting\n");
SetNull();
UnlockCoins();
UpdateState(POOL_STATUS_ERROR);
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lastMessage = _("Session timed out, please resubmit.");
}
if(state == POOL_STATUS_SIGNING && GetTimeMillis()-lastTimeChanged >= (DARKSEND_SIGNING_TIMEOUT*1000)+addLagTime ) {
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if(fDebug) LogPrintf("CDarksendPool::CheckTimeout() -- Session timed out -- restting\n");
ChargeFees();
SetNull();
UnlockCoins();
//add my transactions to the new session
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UpdateState(POOL_STATUS_ERROR);
lastMessage = _("Signing timed out, please resubmit.");
}
}
//
// Check for complete queue
//
void CDarksendPool::CheckForCompleteQueue(){
if(!fEnableDarksend && !fMasterNode) return;
/* Check to see if we're ready for submissions from clients */
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//
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// After receiving multiple dsa messages, the queue will switch to "accepting entries"
// which is the active state right before merging the transaction
//
if(state == POOL_STATUS_QUEUE && sessionUsers == GetMaxPoolTransactions()) {
UpdateState(POOL_STATUS_ACCEPTING_ENTRIES);
CDarksendQueue dsq;
dsq.nDenom = sessionDenom;
dsq.vin = activeMasternode.vin;
dsq.time = GetTime();
dsq.ready = true;
dsq.Sign();
dsq.Relay();
}
}
// check to see if the signature is valid
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bool CDarksendPool::SignatureValid(const CScript& newSig, const CTxIn& newVin){
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CMutableTransaction txNew;
txNew.vin.clear();
txNew.vout.clear();
int found = -1;
CScript sigPubKey = CScript();
unsigned int i = 0;
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BOOST_FOREACH(CDarkSendEntry& e, entries) {
BOOST_FOREACH(const CTxOut& out, e.vout)
txNew.vout.push_back(out);
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BOOST_FOREACH(const CTxDSIn& s, e.sev){
txNew.vin.push_back(s);
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if(s == newVin){
found = i;
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sigPubKey = s.prevPubKey;
}
i++;
}
}
if(found >= 0){ //might have to do this one input at a time?
int n = found;
txNew.vin[n].scriptSig = newSig;
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if(fDebug) LogPrintf("CDarksendPool::SignatureValid() - Sign with sig %s\n", newSig.ToString().substr(0,24).c_str());
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if (!VerifyScript(txNew.vin[n].scriptSig, sigPubKey, SCRIPT_VERIFY_P2SH | SCRIPT_VERIFY_STRICTENC, MutableTransactionSignatureChecker(&txNew, n))){
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if(fDebug) LogPrintf("CDarksendPool::SignatureValid() - Signing - Error signing input %u\n", n);
return false;
}
}
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if(fDebug) LogPrintf("CDarksendPool::SignatureValid() - Signing - Successfully validated input\n");
return true;
}
// check to make sure the collateral provided by the client is valid
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bool CDarksendPool::IsCollateralValid(const CTransaction& txCollateral){
if(txCollateral.vout.size() < 1) return false;
if(txCollateral.nLockTime != 0) return false;
int64_t nValueIn = 0;
int64_t nValueOut = 0;
bool missingTx = false;
BOOST_FOREACH(const CTxOut o, txCollateral.vout){
nValueOut += o.nValue;
if(!o.scriptPubKey.IsNormalPaymentScript()){
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LogPrintf ("CDarksendPool::IsCollateralValid - Invalid Script %s\n", txCollateral.ToString().c_str());
return false;
}
}
BOOST_FOREACH(const CTxIn i, txCollateral.vin){
CTransaction tx2;
uint256 hash;
if(GetTransaction(i.prevout.hash, tx2, hash, true)){
if(tx2.vout.size() > i.prevout.n) {
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nValueIn += tx2.vout[i.prevout.n].nValue;
}
} else{
missingTx = true;
}
}
if(missingTx){
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if(fDebug) LogPrintf ("CDarksendPool::IsCollateralValid - Unknown inputs in collateral transaction - %s\n", txCollateral.ToString().c_str());
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return false;
}
//collateral transactions are required to pay out DARKSEND_COLLATERAL as a fee to the miners
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if(nValueIn - nValueOut < DARKSEND_COLLATERAL) {
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if(fDebug) LogPrintf ("CDarksendPool::IsCollateralValid - did not include enough fees in transaction %d\n%s\n", nValueOut-nValueIn, txCollateral.ToString().c_str());
return false;
}
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if(fDebug) LogPrintf("CDarksendPool::IsCollateralValid %s\n", txCollateral.ToString().c_str());
CValidationState state;
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if(!AcceptableInputs(mempool, state, txCollateral, true, NULL)){
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if(fDebug) LogPrintf ("CDarksendPool::IsCollateralValid - didn't pass IsAcceptable\n");
return false;
}
return true;
}
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//
// Add a clients transaction to the pool
//
bool CDarksendPool::AddEntry(const std::vector<CTxIn>& newInput, const int64_t& nAmount, const CTransaction& txCollateral, const std::vector<CTxOut>& newOutput, int& errorID){
if (!fMasterNode) return false;
BOOST_FOREACH(CTxIn in, newInput) {
if (in.prevout.IsNull() || nAmount < 0) {
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if(fDebug) LogPrintf ("CDarksendPool::AddEntry - input not valid!\n");
errorID = ERR_INVALID_INPUT;
sessionUsers--;
return false;
}
}
if (!IsCollateralValid(txCollateral)){
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if(fDebug) LogPrintf ("CDarksendPool::AddEntry - collateral not valid!\n");
errorID = ERR_INVALID_COLLATERAL;
sessionUsers--;
return false;
}
if((int)entries.size() >= GetMaxPoolTransactions()){
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if(fDebug) LogPrintf ("CDarksendPool::AddEntry - entries is full!\n");
errorID = ERR_ENTRIES_FULL;
sessionUsers--;
return false;
}
BOOST_FOREACH(CTxIn in, newInput) {
if(fDebug) LogPrintf("looking for vin -- %s\n", in.ToString().c_str());
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BOOST_FOREACH(const CDarkSendEntry& v, entries) {
BOOST_FOREACH(const CTxDSIn& s, v.sev){
if((CTxIn)s == in) {
if(fDebug) LogPrintf ("CDarksendPool::AddEntry - found in vin\n");
errorID = ERR_ALREADY_HAVE;
sessionUsers--;
return false;
}
}
}
}
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CDarkSendEntry v;
v.Add(newInput, nAmount, txCollateral, newOutput);
entries.push_back(v);
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if(fDebug) LogPrintf("CDarksendPool::AddEntry -- adding %s\n", newInput[0].ToString().c_str());
errorID = MSG_ENTRIES_ADDED;
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return true;
}
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bool CDarksendPool::AddScriptSig(const CTxIn& newVin){
if(fDebug) LogPrintf("CDarksendPool::AddScriptSig -- new sig %s\n", newVin.scriptSig.ToString().substr(0,24).c_str());
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BOOST_FOREACH(const CDarkSendEntry& v, entries) {
BOOST_FOREACH(const CTxDSIn& s, v.sev){
if(s.scriptSig == newVin.scriptSig) {
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printf("CDarksendPool::AddScriptSig - already exists \n");
return false;
}
}
}
if(!SignatureValid(newVin.scriptSig, newVin)){
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if(fDebug) LogPrintf("CDarksendPool::AddScriptSig - Invalid Sig\n");
return false;
}
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if(fDebug) LogPrintf("CDarksendPool::AddScriptSig -- sig %s\n", newVin.ToString().c_str());
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BOOST_FOREACH(CTxIn& vin, finalTransaction.vin){
if(newVin.prevout == vin.prevout && vin.nSequence == newVin.nSequence){
vin.scriptSig = newVin.scriptSig;
vin.prevPubKey = newVin.prevPubKey;
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if(fDebug) LogPrintf("CDarkSendPool::AddScriptSig -- adding to finalTransaction %s\n", newVin.scriptSig.ToString().substr(0,24).c_str());
}
}
for(unsigned int i = 0; i < entries.size(); i++){
if(entries[i].AddSig(newVin)){
if(fDebug) LogPrintf("CDarkSendPool::AddScriptSig -- adding %s\n", newVin.scriptSig.ToString().substr(0,24).c_str());
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return true;
}
}
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LogPrintf("CDarksendPool::AddScriptSig -- Couldn't set sig!\n" );
return false;
}
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// Check to make sure everything is signed
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bool CDarksendPool::SignaturesComplete(){
BOOST_FOREACH(const CDarkSendEntry& v, entries) {
BOOST_FOREACH(const CTxDSIn& s, v.sev){
if(!s.fHasSig) return false;
}
}
return true;
}
//
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// Execute a Darksend denomination via a Masternode.
// This is only ran from clients
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//
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void CDarksendPool::SendDarksendDenominate(std::vector<CTxIn>& vin, std::vector<CTxOut>& vout, int64_t amount){
if(txCollateral == CMutableTransaction()){
LogPrintf ("CDarksendPool:SendDarksendDenominate() - Darksend collateral not set");
return;
}
// lock the funds we're going to use
BOOST_FOREACH(CTxIn in, txCollateral.vin)
lockedCoins.push_back(in);
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BOOST_FOREACH(CTxIn in, vin)
lockedCoins.push_back(in);
//BOOST_FOREACH(CTxOut o, vout)
// LogPrintf(" vout - %s\n", o.ToString().c_str());
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// we should already be connected to a Masternode
if(!sessionFoundMasternode){
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LogPrintf("CDarksendPool::SendDarksendDenominate() - No Masternode has been selected yet.\n");
UnlockCoins();
SetNull(true);
return;
}
if (!CheckDiskSpace()) {
UnlockCoins();
return;
}
if(fMasterNode) {
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LogPrintf("CDarksendPool::SendDarksendDenominate() - Darksend from a Masternode is not supported currently.\n");
UnlockCoins();
SetNull(true);
return;
}
UpdateState(POOL_STATUS_ACCEPTING_ENTRIES);
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LogPrintf("CDarksendPool::SendDarksendDenominate() - Added transaction to pool.\n");
ClearLastMessage();
//check it against the memory pool to make sure it's valid
{
int64_t nValueOut = 0;
CValidationState state;
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CMutableTransaction tx;
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BOOST_FOREACH(const CTxOut& o, vout){
nValueOut += o.nValue;
tx.vout.push_back(o);
}
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BOOST_FOREACH(const CTxIn& i, vin){
tx.vin.push_back(i);
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if(fDebug) LogPrintf("dsi -- tx in %s\n", i.ToString().c_str());
}
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LogPrintf("Submitting tx %s\n", tx.ToString().c_str());
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if(!AcceptableInputs(mempool, state, CTransaction(tx), false, NULL, false, true)){
LogPrintf("dsi -- transaction not valid! %s \n", tx.ToString().c_str());
UnlockCoins();
SetNull(true);
return;
}
}
// store our entry for later use
CDarkSendEntry e;
e.Add(vin, amount, txCollateral, vout);
myEntries.push_back(e);
RelayIn(myEntries[0].sev, myEntries[0].amount, txCollateral, myEntries[0].vout);
Check();
}
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// Incoming message from Masternode updating the progress of Darksend
// newAccepted: -1 mean's it'n not a "transaction accepted/not accepted" message, just a standard update
// 0 means transaction was not accepted
// 1 means transaction was accepted
bool CDarksendPool::StatusUpdate(int newState, int newEntriesCount, int newAccepted, int& errorID, int newSessionID){
if(fMasterNode) return false;
if(state == POOL_STATUS_ERROR || state == POOL_STATUS_SUCCESS) return false;
UpdateState(newState);
entriesCount = newEntriesCount;
if(errorID != MSG_NOERR) strAutoDenomResult = _("Masternode:") + " " + GetMessageByID(errorID);
if(newAccepted != -1) {
lastEntryAccepted = newAccepted;
countEntriesAccepted += newAccepted;
if(newAccepted == 0){
UpdateState(POOL_STATUS_ERROR);
lastMessage = GetMessageByID(errorID);
}
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if(newAccepted == 1 && newSessionID != 0) {
sessionID = newSessionID;
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LogPrintf("CDarksendPool::StatusUpdate - set sessionID to %d\n", sessionID);
sessionFoundMasternode = true;
}
}
if(newState == POOL_STATUS_ACCEPTING_ENTRIES){
if(newAccepted == 1){
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LogPrintf("CDarksendPool::StatusUpdate - entry accepted! \n");
sessionFoundMasternode = true;
//wait for other users. Masternode will report when ready
UpdateState(POOL_STATUS_QUEUE);
} else if (newAccepted == 0 && sessionID == 0 && !sessionFoundMasternode) {
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LogPrintf("CDarksendPool::StatusUpdate - entry not accepted by Masternode \n");
UnlockCoins();
UpdateState(POOL_STATUS_ACCEPTING_ENTRIES);
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DoAutomaticDenominating(); //try another Masternode
}
if(sessionFoundMasternode) return true;
}
return true;
}
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//
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// After we receive the finalized transaction from the Masternode, we must
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// check it to make sure it's what we want, then sign it if we agree.
// If we refuse to sign, it's possible we'll be charged collateral
//
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bool CDarksendPool::SignFinalTransaction(CTransaction& finalTransactionNew, CNode* node){
if(fMasterNode) return false;
finalTransaction = finalTransactionNew;
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LogPrintf("CDarksendPool::SignFinalTransaction %s\n", finalTransaction.ToString().c_str());
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vector<CTxIn> sigs;
//make sure my inputs/outputs are present, otherwise refuse to sign
BOOST_FOREACH(const CDarkSendEntry e, myEntries) {
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BOOST_FOREACH(const CTxDSIn s, e.sev) {
/* Sign my transaction and all outputs */
int mine = -1;
CScript prevPubKey = CScript();
CTxIn vin = CTxIn();
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for(unsigned int i = 0; i < finalTransaction.vin.size(); i++){
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if(finalTransaction.vin[i] == s){
mine = i;
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prevPubKey = s.prevPubKey;
vin = s;
}
}
if(mine >= 0){ //might have to do this one input at a time?
int foundOutputs = 0;
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CAmount nValue1 = 0;
CAmount nValue2 = 0;
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for(unsigned int i = 0; i < finalTransaction.vout.size(); i++){
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BOOST_FOREACH(const CTxOut& o, e.vout) {
if(finalTransaction.vout[i] == o){
foundOutputs++;
nValue1 += finalTransaction.vout[i].nValue;
}
}
}
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BOOST_FOREACH(const CTxOut o, e.vout)
nValue2 += o.nValue;
int targetOuputs = e.vout.size();
if(foundOutputs < targetOuputs || nValue1 != nValue2) {
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// in this case, something went wrong and we'll refuse to sign. It's possible we'll be charged collateral. But that's
// better then signing if the transaction doesn't look like what we wanted.
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LogPrintf("CDarksendPool::Sign - My entries are not correct! Refusing to sign. %d entries %d target. \n", foundOutputs, targetOuputs);
UnlockCoins();
SetNull(true);
return false;
}
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const CKeyStore& keystore = *pwalletMain;
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if(fDebug) LogPrintf("CDarksendPool::Sign - Signing my input %i\n", mine);
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if(!SignSignature(keystore, prevPubKey, finalTransaction, mine, int(SIGHASH_ALL|SIGHASH_ANYONECANPAY))) { // changes scriptSig
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if(fDebug) LogPrintf("CDarksendPool::Sign - Unable to sign my own transaction! \n");
// not sure what to do here, it will timeout...?
}
sigs.push_back(finalTransaction.vin[mine]);
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if(fDebug) LogPrintf(" -- dss %d %d %s\n", mine, (int)sigs.size(), finalTransaction.vin[mine].scriptSig.ToString().c_str());
}
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}
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if(fDebug) LogPrintf("CDarksendPool::Sign - txNew:\n%s", finalTransaction.ToString().c_str());
}
// push all of our signatures to the Masternode
if(sigs.size() > 0 && node != NULL)
node->PushMessage("dss", sigs);
return true;
}
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void CDarksendPool::NewBlock()
{
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if(fDebug) LogPrintf("CDarksendPool::NewBlock \n");
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//we we're processing lots of blocks, we'll just leave
if(GetTime() - lastNewBlock < 10) return;
lastNewBlock = GetTime();
darkSendPool.CheckTimeout();
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if(!fEnableDarksend) return;
if(!fMasterNode){
//denominate all non-denominated inputs every 25 minutes.
if(chainActive.Tip()->nHeight % 10 == 0) UnlockCoins();
}
}
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// Darksend transaction was completed (failed or successful)
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void CDarksendPool::CompletedTransaction(bool error, int errorID)
{
if(fMasterNode) return;
if(error){
LogPrintf("CompletedTransaction -- error \n");
UpdateState(POOL_STATUS_ERROR);
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Check();
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UnlockCoins();
} else {
LogPrintf("CompletedTransaction -- success \n");
UpdateState(POOL_STATUS_SUCCESS);
myEntries.clear();
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UnlockCoins();
SetNull(true);
// To avoid race conditions, we'll only let DS run once per block
cachedLastSuccess = chainActive.Tip()->nHeight;
}
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lastMessage = GetMessageByID(errorID);
completedTransaction = true;
}
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void CDarksendPool::ClearLastMessage()
{
lastMessage = "";
}
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//
// Passively run Darksend in the background to anonymize funds based on the given configuration.
//
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// This does NOT run by default for daemons, only for QT.
//
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bool CDarksendPool::DoAutomaticDenominating(bool fDryRun, bool ready)
{
LOCK(cs_darksend);
if(IsInitialBlockDownload()) return false;
if(fMasterNode) return false;
if(state == POOL_STATUS_ERROR || state == POOL_STATUS_SUCCESS) return false;
if(chainActive.Tip()->nHeight - cachedLastSuccess < minBlockSpacing) {
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LogPrintf("CDarksendPool::DoAutomaticDenominating - Last successful Darksend action was too recent\n");
strAutoDenomResult = _("Last successful Darksend action was too recent.");
return false;
}
if(!fEnableDarksend) {
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if(fDebug) LogPrintf("CDarksendPool::DoAutomaticDenominating - Darksend is disabled\n");
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strAutoDenomResult = _("Darksend is disabled.");
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return false;
}
if (!fDryRun && pwalletMain->IsLocked()){
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strAutoDenomResult = _("Wallet is locked.");
return false;
}
if(GetState() != POOL_STATUS_ERROR && GetState() != POOL_STATUS_SUCCESS){
if(GetMyTransactionCount() > 0){
return true;
}
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}
if(mnodeman.size() == 0){
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if(fDebug) LogPrintf("CDarksendPool::DoAutomaticDenominating - No Masternodes detected\n");
strAutoDenomResult = _("No Masternodes detected.");
return false;
}
// ** find the coins we'll use
std::vector<CTxIn> vCoins;
CAmount nValueMin = CENT;
CAmount nValueIn = 0;
CAmount nOnlyDenominatedBalance;
CAmount nBalanceNeedsDenominated;
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// should not be less than fees in DARKSEND_COLLATERAL + few (lets say 5) smallest denoms
CAmount nLowestDenom = DARKSEND_COLLATERAL + darkSendDenominations[darkSendDenominations.size() - 1]*5;
// if there are no DS collateral inputs yet
if(!pwalletMain->HasCollateralInputs())
// should have some additional amount for them
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nLowestDenom += DARKSEND_COLLATERAL*4;
CAmount nBalanceNeedsAnonymized = nAnonymizeDarkcoinAmount*COIN - pwalletMain->GetAnonymizedBalance();
// if balanceNeedsAnonymized is more than pool max, take the pool max
if(nBalanceNeedsAnonymized > DARKSEND_POOL_MAX) nBalanceNeedsAnonymized = DARKSEND_POOL_MAX;
// if balanceNeedsAnonymized is more than non-anonymized, take non-anonymized
CAmount nAnonymizableBalance = pwalletMain->GetAnonymizableBalance();
if(nBalanceNeedsAnonymized > nAnonymizableBalance) nBalanceNeedsAnonymized = nAnonymizableBalance;
if(nBalanceNeedsAnonymized < nLowestDenom)
{
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LogPrintf("DoAutomaticDenominating : No funds detected in need of denominating \n");
strAutoDenomResult = _("No funds detected in need of denominating.");
return false;
}
if (fDebug) LogPrintf("DoAutomaticDenominating : nLowestDenom=%d, nBalanceNeedsAnonymized=%d\n", nLowestDenom, nBalanceNeedsAnonymized);
// select coins that should be given to the pool
if (!pwalletMain->SelectCoinsDark(nValueMin, nBalanceNeedsAnonymized, vCoins, nValueIn, 0, nDarksendRounds))
{
nValueIn = 0;
vCoins.clear();
if (pwalletMain->SelectCoinsDark(nValueMin, 9999999*COIN, vCoins, nValueIn, -2, 0))
{
nOnlyDenominatedBalance = pwalletMain->GetDenominatedBalance(true, false, false);
nBalanceNeedsDenominated = nBalanceNeedsAnonymized - nOnlyDenominatedBalance;
if(nBalanceNeedsDenominated > nValueIn) nBalanceNeedsDenominated = nValueIn;
if(!fDryRun) return CreateDenominated(nBalanceNeedsDenominated);
return true;
} else {
LogPrintf("DoAutomaticDenominating : Can't denominate - no compatible inputs left\n");
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strAutoDenomResult = _("Can't denominate: no compatible inputs left.");
return false;
}
}
if(fDryRun) return true;
nOnlyDenominatedBalance = pwalletMain->GetDenominatedBalance(true, false, false);
nBalanceNeedsDenominated = nBalanceNeedsAnonymized - nOnlyDenominatedBalance;
//check if we have should create more denominated inputs
if(nBalanceNeedsDenominated > nOnlyDenominatedBalance) return CreateDenominated(nBalanceNeedsDenominated);
//check if we have the collateral sized inputs
if(!pwalletMain->HasCollateralInputs()) return MakeCollateralAmounts();
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std::vector<CTxOut> vOut;
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// initial phase, find a Masternode
if(!sessionFoundMasternode){
// Clean if there is anything left from previous session
UnlockCoins();
SetNull(true);
int nUseQueue = rand()%100;
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UpdateState(POOL_STATUS_ACCEPTING_ENTRIES);
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if(pwalletMain->GetDenominatedBalance(true, true) > 0){ //get denominated unconfirmed inputs
LogPrintf("DoAutomaticDenominating -- Found unconfirmed denominated outputs, will wait till they confirm to continue.\n");
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strAutoDenomResult = _("Found unconfirmed denominated outputs, will wait till they confirm to continue.");
return false;
}
//check our collateral nad create new if needed
std::string strReason;
CValidationState state;
if(txCollateral == CMutableTransaction()){
if(!pwalletMain->CreateCollateralTransaction(txCollateral, strReason)){
LogPrintf("% -- create collateral error:%s\n", __func__, strReason.c_str());
return false;
}
} else {
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if(!IsCollateralValid(txCollateral)) {
LogPrintf("%s -- invalid collateral, recreating...\n", __func__);
if(!pwalletMain->CreateCollateralTransaction(txCollateral, strReason)){
LogPrintf("%s -- create collateral error: %s\n", __func__, strReason.c_str());
return false;
}
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}
}
//don't use the queues all of the time for mixing
if(nUseQueue > 33){
// Look through the queues and see if anything matches
BOOST_FOREACH(CDarksendQueue& dsq, vecDarksendQueue){
CService addr;
if(dsq.time == 0) continue;
if(!dsq.GetAddress(addr)) continue;
if(dsq.IsExpired()) continue;
int protocolVersion;
if(!dsq.GetProtocolVersion(protocolVersion)) continue;
if(protocolVersion < MIN_POOL_PEER_PROTO_VERSION) continue;
//non-denom's are incompatible
if((dsq.nDenom & (1 << 4))) continue;
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//don't reuse Masternodes
BOOST_FOREACH(CTxIn usedVin, vecMasternodesUsed){
if(dsq.vin == usedVin) {
continue;
}
}
std::vector<CTxIn> vTempCoins;
std::vector<COutput> vTempCoins2;
// Try to match their denominations if possible
if (!pwalletMain->SelectCoinsByDenominations(dsq.nDenom, nValueMin, nBalanceNeedsAnonymized, vTempCoins, vTempCoins2, nValueIn, 0, nDarksendRounds)){
LogPrintf("DoAutomaticDenominating - Couldn't match denominations %d\n", dsq.nDenom);
continue;
}
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// connect to Masternode and submit the queue request
if(ConnectNode((CAddress)addr, NULL, true)){
CNode* pnode = FindNode(addr);
if(pnode)
{
CMasternode* pmn = mnodeman.Find(dsq.vin);
if(pmn == NULL)
{
LogPrintf("DoAutomaticDenominating --- dsq vin %s is not in masternode list!", dsq.vin.ToString());
continue;
}
pSubmittedToMasternode = pmn;
vecMasternodesUsed.push_back(dsq.vin);
sessionDenom = dsq.nDenom;
pnode->PushMessage("dsa", sessionDenom, txCollateral);
LogPrintf("DoAutomaticDenominating --- connected (from queue), sending dsa for %d - %s\n", sessionDenom, pnode->addr.ToString().c_str());
strAutoDenomResult = _("Mixing in progress...");
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dsq.time = 0; //remove node
return true;
}
} else {
LogPrintf("DoAutomaticDenominating --- error connecting \n");
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strAutoDenomResult = _("Error connecting to Masternode.");
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dsq.time = 0; //remove node
return DoAutomaticDenominating();
}
}
}
int i = 0;
// otherwise, try one randomly
while(i < 10)
{
CMasternode* pmn = mnodeman.FindRandom();
if(pmn == NULL)
{
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LogPrintf("DoAutomaticDenominating --- Masternode list is empty!\n");
return false;
}
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//don't reuse Masternodes
BOOST_FOREACH(CTxIn usedVin, vecMasternodesUsed) {
if(pmn->vin == usedVin){
i++;
continue;
}
}
if(pmn->protocolVersion < MIN_POOL_PEER_PROTO_VERSION) {
i++;
continue;
}
if(pmn->nLastDsq != 0 &&
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pmn->nLastDsq + mnodeman.CountMasternodesAboveProtocol(MIN_POOL_PEER_PROTO_VERSION)/5 > mnodeman.nDsqCount){
i++;
continue;
}
lastTimeChanged = GetTimeMillis();
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LogPrintf("DoAutomaticDenominating -- attempt %d connection to Masternode %s\n", i, pmn->addr.ToString().c_str());
if(ConnectNode((CAddress)pmn->addr, NULL, true)){
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
{
if((CNetAddr)pnode->addr != (CNetAddr)pmn->addr) continue;
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pSubmittedToMasternode = pmn;
vecMasternodesUsed.push_back(pmn->vin);
std::vector<CAmount> vecAmounts;
pwalletMain->ConvertList(vCoins, vecAmounts);
// try to get random denoms out of vecAmounts
while(sessionDenom == 0)
sessionDenom = GetDenominationsByAmounts(vecAmounts, true);
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pnode->PushMessage("dsa", sessionDenom, txCollateral);
LogPrintf("DoAutomaticDenominating --- connected, sending dsa for %d\n", sessionDenom);
strAutoDenomResult = _("Mixing in progress...");
return true;
}
} else {
i++;
continue;
}
}
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strAutoDenomResult = _("No compatible Masternode found.");
return false;
}
strAutoDenomResult = _("Mixing in progress...");
if(!ready) return true;
if(sessionDenom == 0) return true;
return false;
}
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bool CDarksendPool::PrepareDarksendDenominate()
{
// Submit transaction to the pool if we get here, use sessionDenom so we use the same amount of money
std::string strError = pwalletMain->PrepareDarksendDenominate(0, nDarksendRounds);
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LogPrintf("DoAutomaticDenominating : Running Darksend denominate. Return '%s'\n", strError.c_str());
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if(strError == "") return true;
strAutoDenomResult = strError;
LogPrintf("DoAutomaticDenominating : Error running denominate, %s\n", strError.c_str());
return false;
}
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bool CDarksendPool::SendRandomPaymentToSelf()
{
int64_t nBalance = pwalletMain->GetBalance();
int64_t nPayment = (nBalance*0.35) + (rand() % nBalance);
if(nPayment > nBalance) nPayment = nBalance-(0.1*COIN);
// make our change address
CReserveKey reservekey(pwalletMain);
CScript scriptChange;
CPubKey vchPubKey;
assert(reservekey.GetReservedKey(vchPubKey)); // should never fail, as we just unlocked
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scriptChange = GetScriptForDestination(vchPubKey.GetID());
CWalletTx wtx;
int64_t nFeeRet = 0;
std::string strFail = "";
vector< pair<CScript, int64_t> > vecSend;
// ****** Add fees ************ /
vecSend.push_back(make_pair(scriptChange, nPayment));
CCoinControl *coinControl=NULL;
bool success = pwalletMain->CreateTransaction(vecSend, wtx, reservekey, nFeeRet, strFail, coinControl, ONLY_DENOMINATED);
if(!success){
LogPrintf("SendRandomPaymentToSelf: Error - %s\n", strFail.c_str());
return false;
}
pwalletMain->CommitTransaction(wtx, reservekey);
LogPrintf("SendRandomPaymentToSelf Success: tx %s\n", wtx.GetHash().GetHex().c_str());
return true;
}
// Split up large inputs or create fee sized inputs
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bool CDarksendPool::MakeCollateralAmounts()
{
CWalletTx wtx;
int64_t nFeeRet = 0;
std::string strFail = "";
vector< pair<CScript, int64_t> > vecSend;
CCoinControl *coinControl = NULL;
// make our collateral address
CReserveKey reservekeyCollateral(pwalletMain);
// make our change address
CReserveKey reservekeyChange(pwalletMain);
CScript scriptCollateral;
CPubKey vchPubKey;
assert(reservekeyCollateral.GetReservedKey(vchPubKey)); // should never fail, as we just unlocked
scriptCollateral = GetScriptForDestination(vchPubKey.GetID());
vecSend.push_back(make_pair(scriptCollateral, DARKSEND_COLLATERAL*4));
// try to use non-denominated and not mn-like funds
bool success = pwalletMain->CreateTransaction(vecSend, wtx, reservekeyChange,
nFeeRet, strFail, coinControl, ONLY_NONDENOMINATED_NOTMN);
if(!success){
// if we failed (most likeky not enough funds), try to use denominated instead -
// MN-like funds should not be touched in any case and we can't mix denominated without collaterals anyway
success = pwalletMain->CreateTransaction(vecSend, wtx, reservekeyChange,
nFeeRet, strFail, coinControl, ONLY_DENOMINATED);
if(!success){
LogPrintf("MakeCollateralAmounts: ONLY_DENOMINATED Error - %s\n", strFail);
reservekeyCollateral.ReturnKey();
return false;
}
}
reservekeyCollateral.KeepKey();
LogPrintf("MakeCollateralAmounts: tx %s\n", wtx.GetHash().GetHex());
// use the same cachedLastSuccess as for DS mixinx to prevent race
if(!pwalletMain->CommitTransaction(wtx, reservekeyChange)) {
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LogPrintf("MakeCollateralAmounts: CommitTransaction failed!\n");
return false;
}
cachedLastSuccess = chainActive.Tip()->nHeight;
return true;
}
// Create denominations
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bool CDarksendPool::CreateDenominated(int64_t nTotalValue)
{
CWalletTx wtx;
int64_t nFeeRet = 0;
std::string strFail = "";
vector< pair<CScript, int64_t> > vecSend;
int64_t nValueLeft = nTotalValue;
// make our collateral address
CReserveKey reservekeyCollateral(pwalletMain);
// make our change address
CReserveKey reservekeyChange(pwalletMain);
// make our denom addresses
CReserveKey reservekeyDenom(pwalletMain);
CScript scriptCollateral;
CPubKey vchPubKey;
assert(reservekeyCollateral.GetReservedKey(vchPubKey)); // should never fail, as we just unlocked
scriptCollateral = GetScriptForDestination(vchPubKey.GetID());
// ****** Add collateral outputs ************ /
if(!pwalletMain->HasCollateralInputs()) {
vecSend.push_back(make_pair(scriptCollateral, DARKSEND_COLLATERAL*4));
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nValueLeft -= DARKSEND_COLLATERAL*4;
}
// ****** Add denoms ************ /
BOOST_REVERSE_FOREACH(int64_t v, darkSendDenominations){
int nOutputs = 0;
// add each output up to 10 times until it can't be added again
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while(nValueLeft - v >= DARKSEND_COLLATERAL && nOutputs <= 10) {
CScript scriptDenom;
CPubKey vchPubKey;
//use a unique change address
assert(reservekeyDenom.GetReservedKey(vchPubKey)); // should never fail, as we just unlocked
scriptDenom = GetScriptForDestination(vchPubKey.GetID());
// TODO: do not keep reservekeyDenom here
reservekeyDenom.KeepKey();
vecSend.push_back(make_pair(scriptDenom, v));
//increment outputs and subtract denomination amount
nOutputs++;
nValueLeft -= v;
LogPrintf("CreateDenominated1 %d\n", nValueLeft);
}
if(nValueLeft == 0) break;
}
LogPrintf("CreateDenominated2 %d\n", nValueLeft);
// if we have anything left over, it will be automatically send back as change - there is no need to send it manually
CCoinControl *coinControl=NULL;
bool success = pwalletMain->CreateTransaction(vecSend, wtx, reservekeyChange,
nFeeRet, strFail, coinControl, ONLY_NONDENOMINATED_NOTMN);
if(!success){
LogPrintf("CreateDenominated: Error - %s\n", strFail.c_str());
// TODO: return reservekeyDenom here
reservekeyCollateral.ReturnKey();
return false;
}
// TODO: keep reservekeyDenom here
reservekeyCollateral.KeepKey();
// use the same cachedLastSuccess as for DS mixinx to prevent race
if(pwalletMain->CommitTransaction(wtx, reservekeyChange))
cachedLastSuccess = chainActive.Tip()->nHeight;
else
LogPrintf("CreateDenominated: CommitTransaction failed!\n");
LogPrintf("CreateDenominated: tx %s\n", wtx.GetHash().GetHex().c_str());
return true;
}
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bool CDarksendPool::IsCompatibleWithEntries(std::vector<CTxOut>& vout)
{
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if(GetDenominations(vout) == 0) return false;
BOOST_FOREACH(const CDarkSendEntry v, entries) {
LogPrintf(" IsCompatibleWithEntries %d %d\n", GetDenominations(vout), GetDenominations(v.vout));
/*
BOOST_FOREACH(CTxOut o1, vout)
LogPrintf(" vout 1 - %s\n", o1.ToString().c_str());
BOOST_FOREACH(CTxOut o2, v.vout)
LogPrintf(" vout 2 - %s\n", o2.ToString().c_str());
*/
if(GetDenominations(vout) != GetDenominations(v.vout)) return false;
}
return true;
}
bool CDarksendPool::IsCompatibleWithSession(int64_t nDenom, CTransaction txCollateral, int& errorID)
{
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if(nDenom == 0) return false;
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LogPrintf("CDarksendPool::IsCompatibleWithSession - sessionDenom %d sessionUsers %d\n", sessionDenom, sessionUsers);
if (!unitTest && !IsCollateralValid(txCollateral)){
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if(fDebug) LogPrintf ("CDarksendPool::IsCompatibleWithSession - collateral not valid!\n");
errorID = ERR_INVALID_COLLATERAL;
return false;
}
if(sessionUsers < 0) sessionUsers = 0;
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if(sessionUsers == 0) {
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sessionID = 1 + (rand() % 999999);
sessionDenom = nDenom;
sessionUsers++;
lastTimeChanged = GetTimeMillis();
entries.clear();
if(!unitTest){
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//broadcast that I'm accepting entries, only if it's the first entry through
CDarksendQueue dsq;
dsq.nDenom = nDenom;
dsq.vin = activeMasternode.vin;
dsq.time = GetTime();
dsq.Sign();
dsq.Relay();
}
UpdateState(POOL_STATUS_QUEUE);
vecSessionCollateral.push_back(txCollateral);
return true;
}
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if((state != POOL_STATUS_ACCEPTING_ENTRIES && state != POOL_STATUS_QUEUE) || sessionUsers >= GetMaxPoolTransactions()){
if((state != POOL_STATUS_ACCEPTING_ENTRIES && state != POOL_STATUS_QUEUE)) errorID = ERR_MODE;
if(sessionUsers >= GetMaxPoolTransactions()) errorID = ERR_QUEUE_FULL;
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LogPrintf("CDarksendPool::IsCompatibleWithSession - incompatible mode, return false %d %d\n", state != POOL_STATUS_ACCEPTING_ENTRIES, sessionUsers >= GetMaxPoolTransactions());
return false;
}
if(nDenom != sessionDenom) {
errorID = ERR_DENOM;
return false;
}
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LogPrintf("CDarkSendPool::IsCompatibleWithSession - compatible\n");
sessionUsers++;
lastTimeChanged = GetTimeMillis();
vecSessionCollateral.push_back(txCollateral);
return true;
}
//create a nice string to show the denominations
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void CDarksendPool::GetDenominationsToString(int nDenom, std::string& strDenom){
// Function returns as follows:
//
// bit 0 - 100DRK+1 ( bit on if present )
// bit 1 - 10DRK+1
// bit 2 - 1DRK+1
// bit 3 - .1DRK+1
// bit 3 - non-denom
strDenom = "";
if(nDenom & (1 << 0)) {
if(strDenom.size() > 0) strDenom += "+";
strDenom += "100";
}
if(nDenom & (1 << 1)) {
if(strDenom.size() > 0) strDenom += "+";
strDenom += "10";
}
if(nDenom & (1 << 2)) {
if(strDenom.size() > 0) strDenom += "+";
strDenom += "1";
}
if(nDenom & (1 << 3)) {
if(strDenom.size() > 0) strDenom += "+";
strDenom += "0.1";
}
}
int CDarksendPool::GetDenominations(const std::vector<CTxDSOut>& vout){
std::vector<CTxOut> vout2;
BOOST_FOREACH(CTxDSOut out, vout)
vout2.push_back(out);
return GetDenominations(vout2);
}
// return a bitshifted integer representing the denominations in this list
int CDarksendPool::GetDenominations(const std::vector<CTxOut>& vout, bool fRandDenom){
std::vector<pair<int64_t, int> > denomUsed;
// make a list of denominations, with zero uses
BOOST_FOREACH(int64_t d, darkSendDenominations)
denomUsed.push_back(make_pair(d, 0));
// look for denominations and update uses to 1
BOOST_FOREACH(CTxOut out, vout){
bool found = false;
BOOST_FOREACH (PAIRTYPE(int64_t, int)& s, denomUsed){
if (out.nValue == s.first){
s.second = 1;
found = true;
}
}
if(!found) return 0;
}
int denom = 0;
int c = 0;
// if the denomination is used, shift the bit on.
// then move to the next
BOOST_FOREACH (PAIRTYPE(int64_t, int)& s, denomUsed)
denom |= ((fRandDenom ? rand()%2 : 1) * s.second) << c++;
// Function returns as follows:
//
// bit 0 - 100DRK+1 ( bit on if present )
// bit 1 - 10DRK+1
// bit 2 - 1DRK+1
// bit 3 - .1DRK+1
return denom;
}
int CDarksendPool::GetDenominationsByAmounts(std::vector<int64_t>& vecAmount, bool fRandDenom){
CScript e = CScript();
std::vector<CTxOut> vout1;
// Make outputs by looping through denominations, from small to large
BOOST_REVERSE_FOREACH(int64_t v, vecAmount){
int nOutputs = 0;
CTxOut o(v, e);
vout1.push_back(o);
nOutputs++;
}
return GetDenominations(vout1, fRandDenom);
}
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int CDarksendPool::GetDenominationsByAmount(int64_t nAmount, int nDenomTarget){
CScript e = CScript();
int64_t nValueLeft = nAmount;
std::vector<CTxOut> vout1;
// Make outputs by looping through denominations, from small to large
BOOST_REVERSE_FOREACH(int64_t v, darkSendDenominations){
if(nDenomTarget != 0){
bool fAccepted = false;
if((nDenomTarget & (1 << 0)) && v == ((100*COIN)+100000)) {fAccepted = true;}
else if((nDenomTarget & (1 << 1)) && v == ((10*COIN) +10000)) {fAccepted = true;}
else if((nDenomTarget & (1 << 2)) && v == ((1*COIN) +1000)) {fAccepted = true;}
else if((nDenomTarget & (1 << 3)) && v == ((.1*COIN) +100)) {fAccepted = true;}
if(!fAccepted) continue;
}
int nOutputs = 0;
// add each output up to 10 times until it can't be added again
while(nValueLeft - v >= 0 && nOutputs <= 10) {
CTxOut o(v, e);
vout1.push_back(o);
nValueLeft -= v;
nOutputs++;
}
LogPrintf("GetDenominationsByAmount --- %d nOutputs %d\n", v, nOutputs);
}
return GetDenominations(vout1);
}
std::string CDarksendPool::GetMessageByID(int messageID) {
switch (messageID) {
case ERR_ALREADY_HAVE: return _("Already have that input.");
case ERR_DENOM: return _("No matching denominations found for mixing.");
case ERR_ENTRIES_FULL: return _("Entries are full.");
case ERR_EXISTING_TX: return _("Not compatible with existing transactions.");
case ERR_FEES: return _("Transaction fees are too high.");
case ERR_INVALID_COLLATERAL: return _("Collateral not valid.");
case ERR_INVALID_INPUT: return _("Input is not valid.");
case ERR_INVALID_SCRIPT: return _("Invalid script detected.");
case ERR_INVALID_TX: return _("Transaction not valid.");
case ERR_MAXIMUM: return _("Value more than Darksend pool maximum allows.");
case ERR_MN_LIST: return _("Not in the Masternode list.");
case ERR_MODE: return _("Incompatible mode.");
case ERR_NON_STANDARD_PUBKEY: return _("Non-standard public key detected.");
case ERR_NOT_A_MN: return _("This is not a Masternode.");
case ERR_QUEUE_FULL: return _("Masternode queue is full.");
case ERR_RECENT: return _("Last Darksend was too recent.");
case ERR_SESSION: return _("Session not complete!");
case ERR_MISSING_TX: return _("Missing input transaction information.");
case ERR_VERSION: return _("Incompatible version.");
case MSG_SUCCESS: return _("Transaction created successfully.");
case MSG_ENTRIES_ADDED: return _("Your entries added successfully.");
case MSG_NOERR:
default:
return "";
}
}
bool CDarkSendSigner::IsVinAssociatedWithPubkey(CTxIn& vin, CPubKey& pubkey){
CScript payee2;
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payee2 = GetScriptForDestination(pubkey.GetID());
CTransaction txVin;
uint256 hash;
if(GetTransaction(vin.prevout.hash, txVin, hash, true)){
BOOST_FOREACH(CTxOut out, txVin.vout){
if(out.nValue == 1000*COIN){
if(out.scriptPubKey == payee2) return true;
}
}
}
return false;
}
bool CDarkSendSigner::SetKey(std::string strSecret, std::string& errorMessage, CKey& key, CPubKey& pubkey){
CBitcoinSecret vchSecret;
bool fGood = vchSecret.SetString(strSecret);
if (!fGood) {
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errorMessage = _("Invalid private key.");
return false;
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}
key = vchSecret.GetKey();
pubkey = key.GetPubKey();
return true;
}
bool CDarkSendSigner::SignMessage(std::string strMessage, std::string& errorMessage, vector<unsigned char>& vchSig, CKey key)
{
CHashWriter ss(SER_GETHASH, 0);
ss << strMessageMagic;
ss << strMessage;
if (!key.SignCompact(ss.GetHash(), vchSig)) {
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errorMessage = _("Signing failed.");
return false;
}
return true;
}
bool CDarkSendSigner::VerifyMessage(CPubKey pubkey, vector<unsigned char>& vchSig, std::string strMessage, std::string& errorMessage)
{
CHashWriter ss(SER_GETHASH, 0);
ss << strMessageMagic;
ss << strMessage;
CPubKey pubkey2;
if (!pubkey2.RecoverCompact(ss.GetHash(), vchSig)) {
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errorMessage = _("Error recovering public key.");
return false;
}
if (fDebug && pubkey2.GetID() != pubkey.GetID())
LogPrintf("CDarkSendSigner::VerifyMessage -- keys don't match: %s %s", pubkey2.GetID().ToString(), pubkey.GetID().ToString());
return (pubkey2.GetID() == pubkey.GetID());
}
bool CDarksendQueue::Sign()
{
if(!fMasterNode) return false;
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std::string strMessage = vin.ToString() + boost::lexical_cast<std::string>(nDenom) + boost::lexical_cast<std::string>(time) + boost::lexical_cast<std::string>(ready);
CKey key2;
CPubKey pubkey2;
std::string errorMessage = "";
if(!darkSendSigner.SetKey(strMasterNodePrivKey, errorMessage, key2, pubkey2))
{
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LogPrintf("CDarksendQueue():Relay - ERROR: Invalid Masternodeprivkey: '%s'\n", errorMessage.c_str());
return false;
}
if(!darkSendSigner.SignMessage(strMessage, errorMessage, vchSig, key2)) {
LogPrintf("CDarksendQueue():Relay - Sign message failed");
return false;
}
if(!darkSendSigner.VerifyMessage(pubkey2, vchSig, strMessage, errorMessage)) {
LogPrintf("CDarksendQueue():Relay - Verify message failed");
return false;
}
return true;
}
bool CDarksendQueue::Relay()
{
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes){
// always relay to everyone
pnode->PushMessage("dsq", (*this));
}
return true;
}
bool CDarksendQueue::CheckSignature()
{
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CMasternode* pmn = mnodeman.Find(vin);
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if(pmn != NULL)
{
std::string strMessage = vin.ToString() + boost::lexical_cast<std::string>(nDenom) + boost::lexical_cast<std::string>(time) + boost::lexical_cast<std::string>(ready);
std::string errorMessage = "";
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if(!darkSendSigner.VerifyMessage(pmn->pubkey2, vchSig, strMessage, errorMessage)){
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return error("CDarksendQueue::CheckSignature() - Got bad Masternode address signature %s \n", vin.ToString().c_str());
}
return true;
}
return false;
}
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void CDarksendPool::RelayFinalTransaction(const int sessionID, const CTransaction& txNew)
{
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
{
pnode->PushMessage("dsf", sessionID, txNew);
}
}
void CDarksendPool::RelayIn(const std::vector<CTxDSIn>& vin, const int64_t& nAmount, const CTransaction& txCollateral, const std::vector<CTxDSOut>& vout)
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{
std::vector<CTxIn> vin2;
std::vector<CTxOut> vout2;
BOOST_FOREACH(CTxDSIn in, vin)
vin2.push_back(in);
BOOST_FOREACH(CTxDSOut out, vout)
vout2.push_back(out);
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LOCK(cs_vNodes);
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BOOST_FOREACH(CNode* pnode, vNodes)
{
if(!pSubmittedToMasternode) return;
if((CNetAddr)pSubmittedToMasternode->addr != (CNetAddr)pnode->addr) continue;
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LogPrintf("RelayIn - found master, relaying message - %s \n", pnode->addr.ToString().c_str());
pnode->PushMessage("dsi", vin2, nAmount, txCollateral, vout2);
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}
}
void CDarksendPool::RelayStatus(const int sessionID, const int newState, const int newEntriesCount, const int newAccepted, const int errorID)
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{
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
pnode->PushMessage("dssu", sessionID, newState, newEntriesCount, newAccepted, errorID);
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}
void CDarksendPool::RelayCompletedTransaction(const int sessionID, const bool error, const int errorID)
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{
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
pnode->PushMessage("dsc", sessionID, error, errorID);
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}
//TODO: Rename/move to core
void ThreadCheckDarkSendPool()
{
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if(fLiteMode) return; //disable all Darksend/Masternode related functionality
// Make this thread recognisable as the wallet flushing thread
RenameThread("dash-darksend");
unsigned int c = 0;
while (true)
{
c++;
MilliSleep(1000);
//LogPrintf("ThreadCheckDarkSendPool::check timeout\n");
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darkSendPool.CheckTimeout();
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darkSendPool.CheckForCompleteQueue();
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if(c % 60 == 0)
{
LOCK(cs_main);
/*
cs_main is required for doing CMasternode.Check because something
is modifying the coins view without a mempool lock. It causes
segfaults from this code without the cs_main lock.
*/
mnodeman.CheckAndRemove();
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mnodeman.ProcessMasternodeConnections();
masternodePayments.CleanPaymentList();
CleanTransactionLocksList();
}
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if(c % MASTERNODE_PING_SECONDS == 0) activeMasternode.ManageStatus();
if(c % MASTERNODES_DUMP_SECONDS == 0) DumpMasternodes();
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//try to sync the Masternode list and payment list every 5 seconds from at least 3 nodes
if(c % 5 == 0 && RequestedMasternodeAssets <= 2){
bool fIsInitialDownload = IsInitialBlockDownload();
if(!fIsInitialDownload) {
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
{
if (pnode->nVersion >= MIN_POOL_PEER_PROTO_VERSION) {
//keep track of who we've asked for the list
if(pnode->HasFulfilledRequest("mnsync")) continue;
pnode->FulfilledRequest("mnsync");
LogPrintf("Successfully synced, asking for Masternode list and payment list\n");
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//request full mn list only if Masternodes.dat was updated quite a long time ago
mnodeman.DsegUpdate(pnode);
pnode->PushMessage("mnget"); //sync payees
pnode->PushMessage("mnvs"); //sync masternode votes
pnode->PushMessage("getsporks"); //get current network sporks
RequestedMasternodeAssets++;
break;
}
}
}
} else if(c % 60 == 0 && RequestedMasternodeAssets == 3){
RequestedMasternodeAssets = MASTERNODE_LIST_SYNCED; //done syncing
}
if(c % 60 == 0){
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//if we've used 1/5 of the Masternode list, then clear the list.
if((int)vecMasternodesUsed.size() > (int)mnodeman.size() / 5)
vecMasternodesUsed.clear();
}
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if(darkSendPool.GetState() == POOL_STATUS_IDLE && c % 6 == 0){
darkSendPool.DoAutomaticDenominating();
}
}
}