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neobytes/src/privatesend-server.cpp

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Refactor PS (#1437) * split CDarksendPool * split DoAutomaticDenominating * CMasternode* -> masternode_info_t * move some globals into CPrivateSendClient * addressed PR comments
2017-05-05 13:26:27 +02:00
// Copyright (c) 2014-2017 The Dash Core developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include "privatesend-server.h"
#include "activemasternode.h"
#include "consensus/validation.h"
#include "core_io.h"
#include "init.h"
#include "masternode-sync.h"
#include "masternodeman.h"
#include "txmempool.h"
#include "util.h"
#include "utilmoneystr.h"
CPrivateSendServer privateSendServer;
void CPrivateSendServer::ProcessMessage(CNode* pfrom, std::string& strCommand, CDataStream& vRecv)
{
if(!fMasterNode) return;
if(fLiteMode) return; // ignore all Dash related functionality
if(!masternodeSync.IsBlockchainSynced()) return;
if(strCommand == NetMsgType::DSACCEPT) {
if(pfrom->nVersion < MIN_PRIVATESEND_PEER_PROTO_VERSION) {
LogPrintf("DSACCEPT -- incompatible version! nVersion: %d\n", pfrom->nVersion);
PushStatus(pfrom, STATUS_REJECTED, ERR_VERSION);
return;
}
if(IsSessionReady()) {
// too many users in this session already, reject new ones
LogPrintf("DSACCEPT -- queue is already full!\n");
PushStatus(pfrom, STATUS_ACCEPTED, ERR_QUEUE_FULL);
return;
}
int nDenom;
CTransaction txCollateral;
vRecv >> nDenom >> txCollateral;
LogPrint("privatesend", "DSACCEPT -- nDenom %d (%s) txCollateral %s", nDenom, GetDenominationsToString(nDenom), txCollateral.ToString());
CMasternode* pmn = mnodeman.Find(activeMasternode.vin);
if(pmn == NULL) {
PushStatus(pfrom, STATUS_REJECTED, ERR_MN_LIST);
return;
}
if(vecSessionCollaterals.size() == 0 && pmn->nLastDsq != 0 &&
pmn->nLastDsq + mnodeman.CountEnabled(MIN_PRIVATESEND_PEER_PROTO_VERSION)/5 > mnodeman.nDsqCount)
{
LogPrintf("DSACCEPT -- last dsq too recent, must wait: addr=%s\n", pfrom->addr.ToString());
PushStatus(pfrom, STATUS_REJECTED, ERR_RECENT);
return;
}
PoolMessage nMessageID = MSG_NOERR;
bool fResult = nSessionID == 0 ? CreateNewSession(nDenom, txCollateral, nMessageID)
: AddUserToExistingSession(nDenom, txCollateral, nMessageID);
if(fResult) {
LogPrintf("DSACCEPT -- is compatible, please submit!\n");
PushStatus(pfrom, STATUS_ACCEPTED, nMessageID);
return;
} else {
LogPrintf("DSACCEPT -- not compatible with existing transactions!\n");
PushStatus(pfrom, STATUS_REJECTED, nMessageID);
return;
}
} else if(strCommand == NetMsgType::DSQUEUE) {
TRY_LOCK(cs_darksend, lockRecv);
if(!lockRecv) return;
if(pfrom->nVersion < MIN_PRIVATESEND_PEER_PROTO_VERSION) {
LogPrint("privatesend", "DSQUEUE -- incompatible version! nVersion: %d\n", pfrom->nVersion);
return;
}
CDarksendQueue dsq;
vRecv >> dsq;
// process every dsq only once
BOOST_FOREACH(CDarksendQueue q, vecDarksendQueue) {
if(q == dsq) {
// LogPrint("privatesend", "DSQUEUE -- %s seen\n", dsq.ToString());
return;
}
}
LogPrint("privatesend", "DSQUEUE -- %s new\n", dsq.ToString());
if(dsq.IsExpired() || dsq.nTime > GetTime() + PRIVATESEND_QUEUE_TIMEOUT) return;
CMasternode* pmn = mnodeman.Find(dsq.vin);
if(pmn == NULL) return;
if(!dsq.CheckSignature(pmn->pubKeyMasternode)) {
// we probably have outdated info
mnodeman.AskForMN(pfrom, dsq.vin);
return;
}
if(!dsq.fReady) {
BOOST_FOREACH(CDarksendQueue q, vecDarksendQueue) {
if(q.vin == dsq.vin) {
// no way same mn can send another "not yet ready" dsq this soon
LogPrint("privatesend", "DSQUEUE -- Masternode %s is sending WAY too many dsq messages\n", pmn->addr.ToString());
return;
}
}
int nThreshold = pmn->nLastDsq + mnodeman.CountEnabled(MIN_PRIVATESEND_PEER_PROTO_VERSION)/5;
LogPrint("privatesend", "DSQUEUE -- nLastDsq: %d threshold: %d nDsqCount: %d\n", pmn->nLastDsq, nThreshold, mnodeman.nDsqCount);
//don't allow a few nodes to dominate the queuing process
if(pmn->nLastDsq != 0 && nThreshold > mnodeman.nDsqCount) {
LogPrint("privatesend", "DSQUEUE -- Masternode %s is sending too many dsq messages\n", pmn->addr.ToString());
return;
}
mnodeman.nDsqCount++;
pmn->nLastDsq = mnodeman.nDsqCount;
pmn->fAllowMixingTx = true;
LogPrint("privatesend", "DSQUEUE -- new PrivateSend queue (%s) from masternode %s\n", dsq.ToString(), pmn->addr.ToString());
vecDarksendQueue.push_back(dsq);
dsq.Relay();
}
} else if(strCommand == NetMsgType::DSVIN) {
if(pfrom->nVersion < MIN_PRIVATESEND_PEER_PROTO_VERSION) {
LogPrintf("DSVIN -- incompatible version! nVersion: %d\n", pfrom->nVersion);
PushStatus(pfrom, STATUS_REJECTED, ERR_VERSION);
return;
}
//do we have enough users in the current session?
if(!IsSessionReady()) {
LogPrintf("DSVIN -- session not complete!\n");
PushStatus(pfrom, STATUS_REJECTED, ERR_SESSION);
return;
}
CDarkSendEntry entry;
vRecv >> entry;
LogPrint("privatesend", "DSVIN -- txCollateral %s", entry.txCollateral.ToString());
if(entry.vecTxDSIn.size() > PRIVATESEND_ENTRY_MAX_SIZE) {
LogPrintf("DSVIN -- ERROR: too many inputs! %d/%d\n", entry.vecTxDSIn.size(), PRIVATESEND_ENTRY_MAX_SIZE);
PushStatus(pfrom, STATUS_REJECTED, ERR_MAXIMUM);
return;
}
if(entry.vecTxDSOut.size() > PRIVATESEND_ENTRY_MAX_SIZE) {
LogPrintf("DSVIN -- ERROR: too many outputs! %d/%d\n", entry.vecTxDSOut.size(), PRIVATESEND_ENTRY_MAX_SIZE);
PushStatus(pfrom, STATUS_REJECTED, ERR_MAXIMUM);
return;
}
//do we have the same denominations as the current session?
if(!IsOutputsCompatibleWithSessionDenom(entry.vecTxDSOut)) {
LogPrintf("DSVIN -- not compatible with existing transactions!\n");
PushStatus(pfrom, STATUS_REJECTED, ERR_EXISTING_TX);
return;
}
//check it like a transaction
{
CAmount nValueIn = 0;
CAmount nValueOut = 0;
CMutableTransaction tx;
BOOST_FOREACH(const CTxOut txout, entry.vecTxDSOut) {
nValueOut += txout.nValue;
tx.vout.push_back(txout);
if(txout.scriptPubKey.size() != 25) {
LogPrintf("DSVIN -- non-standard pubkey detected! scriptPubKey=%s\n", ScriptToAsmStr(txout.scriptPubKey));
PushStatus(pfrom, STATUS_REJECTED, ERR_NON_STANDARD_PUBKEY);
return;
}
if(!txout.scriptPubKey.IsNormalPaymentScript()) {
LogPrintf("DSVIN -- invalid script! scriptPubKey=%s\n", ScriptToAsmStr(txout.scriptPubKey));
PushStatus(pfrom, STATUS_REJECTED, ERR_INVALID_SCRIPT);
return;
}
}
BOOST_FOREACH(const CTxIn txin, entry.vecTxDSIn) {
tx.vin.push_back(txin);
LogPrint("privatesend", "DSVIN -- txin=%s\n", txin.ToString());
CTransaction txPrev;
uint256 hash;
if(GetTransaction(txin.prevout.hash, txPrev, Params().GetConsensus(), hash, true)) {
if(txPrev.vout.size() > txin.prevout.n)
nValueIn += txPrev.vout[txin.prevout.n].nValue;
} else {
LogPrintf("DSVIN -- missing input! tx=%s", tx.ToString());
PushStatus(pfrom, STATUS_REJECTED, ERR_MISSING_TX);
return;
}
}
// There should be no fee in mixing tx
CAmount nFee = nValueIn - nValueOut;
if(nFee != 0) {
LogPrintf("DSVIN -- there should be no fee in mixing tx! fees: %lld, tx=%s", nFee, tx.ToString());
PushStatus(pfrom, STATUS_REJECTED, ERR_FEES);
return;
}
{
LOCK(cs_main);
CValidationState validationState;
mempool.PrioritiseTransaction(tx.GetHash(), tx.GetHash().ToString(), 1000, 0.1*COIN);
if(!AcceptToMemoryPool(mempool, validationState, CTransaction(tx), false, NULL, false, true, true)) {
LogPrintf("DSVIN -- transaction not valid! tx=%s", tx.ToString());
PushStatus(pfrom, STATUS_REJECTED, ERR_INVALID_TX);
return;
}
}
}
PoolMessage nMessageID = MSG_NOERR;
if(AddEntry(entry, nMessageID)) {
PushStatus(pfrom, STATUS_ACCEPTED, nMessageID);
CheckPool();
RelayStatus(STATUS_ACCEPTED);
} else {
PushStatus(pfrom, STATUS_REJECTED, nMessageID);
SetNull();
}
} else if(strCommand == NetMsgType::DSSIGNFINALTX) {
if(pfrom->nVersion < MIN_PRIVATESEND_PEER_PROTO_VERSION) {
LogPrintf("DSSIGNFINALTX -- incompatible version! nVersion: %d\n", pfrom->nVersion);
return;
}
std::vector<CTxIn> vecTxIn;
vRecv >> vecTxIn;
LogPrint("privatesend", "DSSIGNFINALTX -- vecTxIn.size() %s\n", vecTxIn.size());
int nTxInIndex = 0;
int nTxInsCount = (int)vecTxIn.size();
BOOST_FOREACH(const CTxIn txin, vecTxIn) {
nTxInIndex++;
if(!AddScriptSig(txin)) {
LogPrint("privatesend", "DSSIGNFINALTX -- AddScriptSig() failed at %d/%d, session: %d\n", nTxInIndex, nTxInsCount, nSessionID);
RelayStatus(STATUS_REJECTED);
return;
}
LogPrint("privatesend", "DSSIGNFINALTX -- AddScriptSig() %d/%d success\n", nTxInIndex, nTxInsCount);
}
// all is good
CheckPool();
}
}
void CPrivateSendServer::SetNull()
{
// MN side
vecSessionCollaterals.clear();
CPrivateSend::SetNull();
}
//
// Check the mixing progress and send client updates if a Masternode
//
void CPrivateSendServer::CheckPool()
{
if(fMasterNode) {
LogPrint("privatesend", "CPrivateSendServer::CheckPool -- entries count %lu\n", GetEntriesCount());
// If entries are full, create finalized transaction
if(nState == POOL_STATE_ACCEPTING_ENTRIES && GetEntriesCount() >= GetMaxPoolTransactions()) {
LogPrint("privatesend", "CPrivateSendServer::CheckPool -- FINALIZE TRANSACTIONS\n");
CreateFinalTransaction();
return;
}
// If we have all of the signatures, try to compile the transaction
if(nState == POOL_STATE_SIGNING && IsSignaturesComplete()) {
LogPrint("privatesend", "CPrivateSendServer::CheckPool -- SIGNING\n");
CommitFinalTransaction();
return;
}
}
// reset if we're here for 10 seconds
if((nState == POOL_STATE_ERROR || nState == POOL_STATE_SUCCESS) && GetTimeMillis() - nTimeLastSuccessfulStep >= 10000) {
LogPrint("privatesend", "CPrivateSendServer::CheckPool -- timeout, RESETTING\n");
SetNull();
}
}
void CPrivateSendServer::CreateFinalTransaction()
{
LogPrint("privatesend", "CPrivateSendServer::CreateFinalTransaction -- FINALIZE TRANSACTIONS\n");
CMutableTransaction txNew;
// make our new transaction
for(int i = 0; i < GetEntriesCount(); i++) {
BOOST_FOREACH(const CTxDSOut& txdsout, vecEntries[i].vecTxDSOut)
txNew.vout.push_back(txdsout);
BOOST_FOREACH(const CTxDSIn& txdsin, vecEntries[i].vecTxDSIn)
txNew.vin.push_back(txdsin);
}
// BIP69 https://github.com/kristovatlas/bips/blob/master/bip-0069.mediawiki
sort(txNew.vin.begin(), txNew.vin.end());
sort(txNew.vout.begin(), txNew.vout.end());
finalMutableTransaction = txNew;
LogPrint("privatesend", "CPrivateSendServer::CreateFinalTransaction -- finalMutableTransaction=%s", txNew.ToString());
// request signatures from clients
RelayFinalTransaction(finalMutableTransaction);
SetState(POOL_STATE_SIGNING);
}
void CPrivateSendServer::CommitFinalTransaction()
{
if(!fMasterNode) return; // check and relay final tx only on masternode
CTransaction finalTransaction = CTransaction(finalMutableTransaction);
uint256 hashTx = finalTransaction.GetHash();
LogPrint("privatesend", "CPrivateSendServer::CommitFinalTransaction -- finalTransaction=%s", finalTransaction.ToString());
{
// See if the transaction is valid
TRY_LOCK(cs_main, lockMain);
CValidationState validationState;
mempool.PrioritiseTransaction(hashTx, hashTx.ToString(), 1000, 0.1*COIN);
if(!lockMain || !AcceptToMemoryPool(mempool, validationState, finalTransaction, false, NULL, false, true, true))
{
LogPrintf("CPrivateSendServer::CommitFinalTransaction -- AcceptToMemoryPool() error: Transaction not valid\n");
SetNull();
// not much we can do in this case, just notify clients
RelayCompletedTransaction(ERR_INVALID_TX);
return;
}
}
LogPrintf("CPrivateSendServer::CommitFinalTransaction -- CREATING DSTX\n");
// create and sign masternode dstx transaction
if(!mapDarksendBroadcastTxes.count(hashTx)) {
CDarksendBroadcastTx dstx(finalTransaction, activeMasternode.vin, GetAdjustedTime());
dstx.Sign();
mapDarksendBroadcastTxes.insert(std::make_pair(hashTx, dstx));
}
LogPrintf("CPrivateSendServer::CommitFinalTransaction -- TRANSMITTING DSTX\n");
CInv inv(MSG_DSTX, hashTx);
RelayInv(inv);
// Tell the clients it was successful
RelayCompletedTransaction(MSG_SUCCESS);
// Randomly charge clients
ChargeRandomFees();
// Reset
LogPrint("privatesend", "CPrivateSendServer::CommitFinalTransaction -- COMPLETED -- RESETTING\n");
SetNull();
}
//
// Charge clients a fee if they're abusive
//
// Why bother? PrivateSend uses collateral to ensure abuse to the process is kept to a minimum.
// The submission and signing stages 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.
//
// How does this work? Messages to Masternodes come in via NetMsgType::DSVIN, these require a valid collateral
// transaction for the client to be able to enter the pool. This transaction is kept by the Masternode
// until the transaction is either complete or fails.
//
void CPrivateSendServer::ChargeFees()
{
if(!fMasterNode) return;
//we don't need to charge collateral for every offence.
if(GetRandInt(100) > 33) return;
std::vector<CTransaction> vecOffendersCollaterals;
if(nState == POOL_STATE_ACCEPTING_ENTRIES) {
BOOST_FOREACH(const CTransaction& txCollateral, vecSessionCollaterals) {
bool fFound = false;
BOOST_FOREACH(const CDarkSendEntry& entry, vecEntries)
if(entry.txCollateral == txCollateral)
fFound = true;
// This queue entry didn't send us the promised transaction
if(!fFound) {
LogPrintf("CPrivateSendServer::ChargeFees -- found uncooperative node (didn't send transaction), found offence\n");
vecOffendersCollaterals.push_back(txCollateral);
}
}
}
if(nState == POOL_STATE_SIGNING) {
// who didn't sign?
BOOST_FOREACH(const CDarkSendEntry entry, vecEntries) {
BOOST_FOREACH(const CTxDSIn txdsin, entry.vecTxDSIn) {
if(!txdsin.fHasSig) {
LogPrintf("CPrivateSendServer::ChargeFees -- found uncooperative node (didn't sign), found offence\n");
vecOffendersCollaterals.push_back(entry.txCollateral);
}
}
}
}
// no offences found
if(vecOffendersCollaterals.empty()) return;
//mostly offending? Charge sometimes
if((int)vecOffendersCollaterals.size() >= Params().PoolMaxTransactions() - 1 && GetRandInt(100) > 33) return;
//everyone is an offender? That's not right
if((int)vecOffendersCollaterals.size() >= Params().PoolMaxTransactions()) return;
//charge one of the offenders randomly
std::random_shuffle(vecOffendersCollaterals.begin(), vecOffendersCollaterals.end());
if(nState == POOL_STATE_ACCEPTING_ENTRIES || nState == POOL_STATE_SIGNING) {
LogPrintf("CPrivateSendServer::ChargeFees -- found uncooperative node (didn't %s transaction), charging fees: %s\n",
(nState == POOL_STATE_SIGNING) ? "sign" : "send", vecOffendersCollaterals[0].ToString());
LOCK(cs_main);
CValidationState state;
bool fMissingInputs;
if(!AcceptToMemoryPool(mempool, state, vecOffendersCollaterals[0], false, &fMissingInputs, false, true)) {
// should never really happen
LogPrintf("CPrivateSendServer::ChargeFees -- ERROR: AcceptToMemoryPool failed!\n");
} else {
RelayTransaction(vecOffendersCollaterals[0]);
}
}
}
/*
Charge the collateral randomly.
Mixing is completely free, to pay miners we randomly pay the collateral of users.
Collateral Fee Charges:
Being that mixing 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
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.
*/
void CPrivateSendServer::ChargeRandomFees()
{
if(!fMasterNode) return;
LOCK(cs_main);
BOOST_FOREACH(const CTransaction& txCollateral, vecSessionCollaterals) {
if(GetRandInt(100) > 10) return;
LogPrintf("CPrivateSendServer::ChargeRandomFees -- charging random fees, txCollateral=%s", txCollateral.ToString());
CValidationState state;
bool fMissingInputs;
if(!AcceptToMemoryPool(mempool, state, txCollateral, false, &fMissingInputs, false, true)) {
// should never really happen
LogPrintf("CPrivateSendServer::ChargeRandomFees -- ERROR: AcceptToMemoryPool failed!\n");
} else {
RelayTransaction(txCollateral);
}
}
}
//
// Check for various timeouts (queue objects, mixing, etc)
//
void CPrivateSendServer::CheckTimeout()
{
{
TRY_LOCK(cs_darksend, lockDS);
if(!lockDS) return; // it's ok to fail here, we run this quite frequently
// check mixing queue objects for timeouts
std::vector<CDarksendQueue>::iterator it = vecDarksendQueue.begin();
while(it != vecDarksendQueue.end()) {
if((*it).IsExpired()) {
LogPrint("privatesend", "CPrivateSendServer::CheckTimeout -- Removing expired queue (%s)\n", (*it).ToString());
it = vecDarksendQueue.erase(it);
} else ++it;
}
}
if(!fMasterNode) return;
int nLagTime = fMasterNode ? 0 : 10000; // if we're the client, give the server a few extra seconds before resetting.
int nTimeout = (nState == POOL_STATE_SIGNING) ? PRIVATESEND_SIGNING_TIMEOUT : PRIVATESEND_QUEUE_TIMEOUT;
bool fTimeout = GetTimeMillis() - nTimeLastSuccessfulStep >= nTimeout*1000 + nLagTime;
if(nState != POOL_STATE_IDLE && fTimeout) {
LogPrint("privatesend", "CPrivateSendServer::CheckTimeout -- %s timed out (%ds) -- restting\n",
(nState == POOL_STATE_SIGNING) ? "Signing" : "Session", nTimeout);
ChargeFees();
SetNull();
SetState(POOL_STATE_ERROR);
}
}
/*
Check to see if we're ready for submissions from clients
After receiving multiple dsa messages, the queue will switch to "accepting entries"
which is the active state right before merging the transaction
*/
void CPrivateSendServer::CheckForCompleteQueue()
{
if(!fMasterNode) return;
if(nState == POOL_STATE_QUEUE && IsSessionReady()) {
SetState(POOL_STATE_ACCEPTING_ENTRIES);
CDarksendQueue dsq(nSessionDenom, activeMasternode.vin, GetTime(), true);
LogPrint("privatesend", "CPrivateSendServer::CheckForCompleteQueue -- queue is ready, signing and relaying (%s)\n", dsq.ToString());
dsq.Sign();
dsq.Relay();
}
}
// Check to make sure a given input matches an input in the pool and its scriptSig is valid
bool CPrivateSendServer::IsInputScriptSigValid(const CTxIn& txin)
{
CMutableTransaction txNew;
txNew.vin.clear();
txNew.vout.clear();
int i = 0;
int nTxInIndex = -1;
CScript sigPubKey = CScript();
BOOST_FOREACH(CDarkSendEntry& entry, vecEntries) {
BOOST_FOREACH(const CTxDSOut& txdsout, entry.vecTxDSOut)
txNew.vout.push_back(txdsout);
BOOST_FOREACH(const CTxDSIn& txdsin, entry.vecTxDSIn) {
txNew.vin.push_back(txdsin);
if(txdsin.prevout == txin.prevout) {
nTxInIndex = i;
sigPubKey = txdsin.prevPubKey;
}
i++;
}
}
if(nTxInIndex >= 0) { //might have to do this one input at a time?
txNew.vin[nTxInIndex].scriptSig = txin.scriptSig;
LogPrint("privatesend", "CPrivateSendServer::IsInputScriptSigValid -- verifying scriptSig %s\n", ScriptToAsmStr(txin.scriptSig).substr(0,24));
if(!VerifyScript(txNew.vin[nTxInIndex].scriptSig, sigPubKey, SCRIPT_VERIFY_P2SH | SCRIPT_VERIFY_STRICTENC, MutableTransactionSignatureChecker(&txNew, nTxInIndex))) {
LogPrint("privatesend", "CPrivateSendServer::IsInputScriptSigValid -- VerifyScript() failed on input %d\n", nTxInIndex);
return false;
}
} else {
LogPrint("privatesend", "CPrivateSendServer::IsInputScriptSigValid -- Failed to find matching input in pool, %s\n", txin.ToString());
return false;
}
LogPrint("privatesend", "CPrivateSendServer::IsInputScriptSigValid -- Successfully validated input and scriptSig\n");
return true;
}
//
// Add a clients transaction to the pool
//
bool CPrivateSendServer::AddEntry(const CDarkSendEntry& entryNew, PoolMessage& nMessageIDRet)
{
if(!fMasterNode) return false;
BOOST_FOREACH(CTxIn txin, entryNew.vecTxDSIn) {
if(txin.prevout.IsNull()) {
LogPrint("privatesend", "CPrivateSendServer::AddEntry -- input not valid!\n");
nMessageIDRet = ERR_INVALID_INPUT;
return false;
}
}
if(!IsCollateralValid(entryNew.txCollateral)) {
LogPrint("privatesend", "CPrivateSendServer::AddEntry -- collateral not valid!\n");
nMessageIDRet = ERR_INVALID_COLLATERAL;
return false;
}
if(GetEntriesCount() >= GetMaxPoolTransactions()) {
LogPrint("privatesend", "CPrivateSendServer::AddEntry -- entries is full!\n");
nMessageIDRet = ERR_ENTRIES_FULL;
return false;
}
BOOST_FOREACH(CTxIn txin, entryNew.vecTxDSIn) {
LogPrint("privatesend", "looking for txin -- %s\n", txin.ToString());
BOOST_FOREACH(const CDarkSendEntry& entry, vecEntries) {
BOOST_FOREACH(const CTxDSIn& txdsin, entry.vecTxDSIn) {
if(txdsin.prevout == txin.prevout) {
LogPrint("privatesend", "CPrivateSendServer::AddEntry -- found in txin\n");
nMessageIDRet = ERR_ALREADY_HAVE;
return false;
}
}
}
}
vecEntries.push_back(entryNew);
LogPrint("privatesend", "CPrivateSendServer::AddEntry -- adding entry\n");
nMessageIDRet = MSG_ENTRIES_ADDED;
nTimeLastSuccessfulStep = GetTimeMillis();
return true;
}
bool CPrivateSendServer::AddScriptSig(const CTxIn& txinNew)
{
LogPrint("privatesend", "CPrivateSendServer::AddScriptSig -- scriptSig=%s\n", ScriptToAsmStr(txinNew.scriptSig).substr(0,24));
BOOST_FOREACH(const CDarkSendEntry& entry, vecEntries) {
BOOST_FOREACH(const CTxDSIn& txdsin, entry.vecTxDSIn) {
if(txdsin.scriptSig == txinNew.scriptSig) {
LogPrint("privatesend", "CPrivateSendServer::AddScriptSig -- already exists\n");
return false;
}
}
}
if(!IsInputScriptSigValid(txinNew)) {
LogPrint("privatesend", "CPrivateSendServer::AddScriptSig -- Invalid scriptSig\n");
return false;
}
LogPrint("privatesend", "CPrivateSendServer::AddScriptSig -- scriptSig=%s new\n", ScriptToAsmStr(txinNew.scriptSig).substr(0,24));
BOOST_FOREACH(CTxIn& txin, finalMutableTransaction.vin) {
if(txinNew.prevout == txin.prevout && txin.nSequence == txinNew.nSequence) {
txin.scriptSig = txinNew.scriptSig;
txin.prevPubKey = txinNew.prevPubKey;
LogPrint("privatesend", "CPrivateSendServer::AddScriptSig -- adding to finalMutableTransaction, scriptSig=%s\n", ScriptToAsmStr(txinNew.scriptSig).substr(0,24));
}
}
for(int i = 0; i < GetEntriesCount(); i++) {
if(vecEntries[i].AddScriptSig(txinNew)) {
LogPrint("privatesend", "CPrivateSendServer::AddScriptSig -- adding to entries, scriptSig=%s\n", ScriptToAsmStr(txinNew.scriptSig).substr(0,24));
return true;
}
}
LogPrintf("CPrivateSendServer::AddScriptSig -- Couldn't set sig!\n" );
return false;
}
// Check to make sure everything is signed
bool CPrivateSendServer::IsSignaturesComplete()
{
BOOST_FOREACH(const CDarkSendEntry& entry, vecEntries)
BOOST_FOREACH(const CTxDSIn& txdsin, entry.vecTxDSIn)
if(!txdsin.fHasSig) return false;
return true;
}
bool CPrivateSendServer::IsOutputsCompatibleWithSessionDenom(const std::vector<CTxDSOut>& vecTxDSOut)
{
if(GetDenominations(vecTxDSOut) == 0) return false;
BOOST_FOREACH(const CDarkSendEntry entry, vecEntries) {
LogPrintf("CPrivateSendServer::IsOutputsCompatibleWithSessionDenom -- vecTxDSOut denom %d, entry.vecTxDSOut denom %d\n", GetDenominations(vecTxDSOut), GetDenominations(entry.vecTxDSOut));
if(GetDenominations(vecTxDSOut) != GetDenominations(entry.vecTxDSOut)) return false;
}
return true;
}
bool CPrivateSendServer::IsAcceptableDenomAndCollateral(int nDenom, CTransaction txCollateral, PoolMessage& nMessageIDRet)
{
if(!fMasterNode) return false;
// is denom even smth legit?
std::vector<int> vecBits;
if(!GetDenominationsBits(nDenom, vecBits)) {
LogPrint("privatesend", "CPrivateSendServer::IsAcceptableDenomAndCollateral -- denom not valid!\n");
nMessageIDRet = ERR_DENOM;
return false;
}
// check collateral
if(!fUnitTest && !IsCollateralValid(txCollateral)) {
LogPrint("privatesend", "CPrivateSendServer::IsAcceptableDenomAndCollateral -- collateral not valid!\n");
nMessageIDRet = ERR_INVALID_COLLATERAL;
return false;
}
return true;
}
bool CPrivateSendServer::CreateNewSession(int nDenom, CTransaction txCollateral, PoolMessage& nMessageIDRet)
{
if(!fMasterNode || nSessionID != 0) return false;
// new session can only be started in idle mode
if(nState != POOL_STATE_IDLE) {
nMessageIDRet = ERR_MODE;
LogPrintf("CPrivateSendServer::CreateNewSession -- incompatible mode: nState=%d\n", nState);
return false;
}
if(!IsAcceptableDenomAndCollateral(nDenom, txCollateral, nMessageIDRet)) {
return false;
}
// start new session
nMessageIDRet = MSG_NOERR;
nSessionID = GetRandInt(999999)+1;
nSessionDenom = nDenom;
SetState(POOL_STATE_QUEUE);
nTimeLastSuccessfulStep = GetTimeMillis();
if(!fUnitTest) {
//broadcast that I'm accepting entries, only if it's the first entry through
CDarksendQueue dsq(nDenom, activeMasternode.vin, GetTime(), false);
LogPrint("privatesend", "CPrivateSendServer::CreateNewSession -- signing and relaying new queue: %s\n", dsq.ToString());
dsq.Sign();
dsq.Relay();
vecDarksendQueue.push_back(dsq);
}
vecSessionCollaterals.push_back(txCollateral);
LogPrintf("CPrivateSendServer::CreateNewSession -- new session created, nSessionID: %d nSessionDenom: %d (%s) vecSessionCollaterals.size(): %d\n",
nSessionID, nSessionDenom, GetDenominationsToString(nSessionDenom), vecSessionCollaterals.size());
return true;
}
bool CPrivateSendServer::AddUserToExistingSession(int nDenom, CTransaction txCollateral, PoolMessage& nMessageIDRet)
{
if(!fMasterNode || nSessionID == 0 || IsSessionReady()) return false;
if(!IsAcceptableDenomAndCollateral(nDenom, txCollateral, nMessageIDRet)) {
return false;
}
// we only add new users to an existing session when we are in queue mode
if(nState != POOL_STATE_QUEUE) {
nMessageIDRet = ERR_MODE;
LogPrintf("CPrivateSendServer::AddUserToExistingSession -- incompatible mode: nState=%d\n", nState);
return false;
}
if(nDenom != nSessionDenom) {
LogPrintf("CPrivateSendServer::AddUserToExistingSession -- incompatible denom %d (%s) != nSessionDenom %d (%s)\n",
nDenom, GetDenominationsToString(nDenom), nSessionDenom, GetDenominationsToString(nSessionDenom));
nMessageIDRet = ERR_DENOM;
return false;
}
// count new user as accepted to an existing session
nMessageIDRet = MSG_NOERR;
nTimeLastSuccessfulStep = GetTimeMillis();
vecSessionCollaterals.push_back(txCollateral);
LogPrintf("CPrivateSendServer::AddUserToExistingSession -- new user accepted, nSessionID: %d nSessionDenom: %d (%s) vecSessionCollaterals.size(): %d\n",
nSessionID, nSessionDenom, GetDenominationsToString(nSessionDenom), vecSessionCollaterals.size());
return true;
}
void CPrivateSendServer::RelayFinalTransaction(const CTransaction& txFinal)
{
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
if(pnode->nVersion >= MIN_PRIVATESEND_PEER_PROTO_VERSION)
pnode->PushMessage(NetMsgType::DSFINALTX, nSessionID, txFinal);
}
void CPrivateSendServer::PushStatus(CNode* pnode, PoolStatusUpdate nStatusUpdate, PoolMessage nMessageID)
{
if(!pnode) return;
pnode->PushMessage(NetMsgType::DSSTATUSUPDATE, nSessionID, (int)nState, (int)vecEntries.size(), (int)nStatusUpdate, (int)nMessageID);
}
void CPrivateSendServer::RelayStatus(PoolStatusUpdate nStatusUpdate, PoolMessage nMessageID)
{
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
if(pnode->nVersion >= MIN_PRIVATESEND_PEER_PROTO_VERSION)
PushStatus(pnode, nStatusUpdate, nMessageID);
}
void CPrivateSendServer::RelayCompletedTransaction(PoolMessage nMessageID)
{
LOCK(cs_vNodes);
BOOST_FOREACH(CNode* pnode, vNodes)
if(pnode->nVersion >= MIN_PRIVATESEND_PEER_PROTO_VERSION)
pnode->PushMessage(NetMsgType::DSCOMPLETE, nSessionID, (int)nMessageID);
}
void CPrivateSendServer::SetState(PoolState nStateNew)
{
if(fMasterNode && (nStateNew == POOL_STATE_ERROR || nStateNew == POOL_STATE_SUCCESS)) {
LogPrint("privatesend", "CPrivateSendServer::SetState -- Can't set state to ERROR or SUCCESS as a Masternode. \n");
return;
}
LogPrintf("CPrivateSendServer::SetState -- nState: %d, nStateNew: %d\n", nState, nStateNew);
nState = nStateNew;
}
//TODO: Rename/move to core
void ThreadCheckPrivateSendServer()
{
if(fLiteMode) return; // disable all Dash specific functionality
static bool fOneThread;
if(fOneThread) return;
fOneThread = true;
// Make this thread recognisable as the PrivateSend thread
RenameThread("dash-ps-server");
unsigned int nTick = 0;
while (true)
{
MilliSleep(1000);
if(masternodeSync.IsBlockchainSynced() && !ShutdownRequested()) {
nTick++;
privateSendServer.CheckTimeout();
privateSendServer.CheckForCompleteQueue();
}
}
}
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