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// Copyright (c) 2014-2017 The Dash Core developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
# include "privatesend.h"
# include "activemasternode.h"
# include "consensus/validation.h"
# include "governance.h"
# include "init.h"
# include "instantx.h"
# include "masternode-payments.h"
# include "masternode-sync.h"
# include "masternodeman.h"
# include "messagesigner.h"
# include "script/sign.h"
# include "txmempool.h"
# include "util.h"
# include "utilmoneystr.h"
# include <boost/lexical_cast.hpp>
CDarkSendEntry : : CDarkSendEntry ( const std : : vector < CTxIn > & vecTxIn , const std : : vector < CTxOut > & vecTxOut , const CTransaction & txCollateral ) :
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txCollateral ( txCollateral ) , addr ( CService ( ) )
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{
BOOST_FOREACH ( CTxIn txin , vecTxIn )
vecTxDSIn . push_back ( txin ) ;
BOOST_FOREACH ( CTxOut txout , vecTxOut )
vecTxDSOut . push_back ( txout ) ;
}
bool CDarkSendEntry : : AddScriptSig ( const CTxIn & txin )
{
BOOST_FOREACH ( CTxDSIn & txdsin , vecTxDSIn ) {
if ( txdsin . prevout = = txin . prevout & & txdsin . nSequence = = txin . nSequence ) {
if ( txdsin . fHasSig ) return false ;
txdsin . scriptSig = txin . scriptSig ;
txdsin . prevPubKey = txin . prevPubKey ;
txdsin . fHasSig = true ;
return true ;
}
}
return false ;
}
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bool CDarksendQueue : : Sign ( )
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{
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if ( ! fMasterNode ) return false ;
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std : : string strMessage = vin . ToString ( ) + boost : : lexical_cast < std : : string > ( nDenom ) + boost : : lexical_cast < std : : string > ( nTime ) + boost : : lexical_cast < std : : string > ( fReady ) ;
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if ( ! CMessageSigner : : SignMessage ( strMessage , vchSig , activeMasternode . keyMasternode ) ) {
LogPrintf ( " CDarksendQueue::Sign -- SignMessage() failed, %s \n " , ToString ( ) ) ;
return false ;
}
return CheckSignature ( activeMasternode . pubKeyMasternode ) ;
}
bool CDarksendQueue : : CheckSignature ( const CPubKey & pubKeyMasternode )
{
std : : string strMessage = vin . ToString ( ) + boost : : lexical_cast < std : : string > ( nDenom ) + boost : : lexical_cast < std : : string > ( nTime ) + boost : : lexical_cast < std : : string > ( fReady ) ;
std : : string strError = " " ;
if ( ! CMessageSigner : : VerifyMessage ( pubKeyMasternode , vchSig , strMessage , strError ) ) {
LogPrintf ( " CDarksendQueue::CheckSignature -- Got bad Masternode queue signature: %s; error: %s \n " , ToString ( ) , strError ) ;
return false ;
}
return true ;
}
bool CDarksendQueue : : Relay ( )
{
Backport Bitcoin PR#8085: p2p: Begin encapsulation (#1537)
* net: move CBanDB and CAddrDB out of net.h/cpp
This will eventually solve a circular dependency
* net: Create CConnman to encapsulate p2p connections
* net: Move socket binding into CConnman
* net: move OpenNetworkConnection into CConnman
* net: move ban and addrman functions into CConnman
* net: Add oneshot functions to CConnman
* net: move added node functions to CConnman
* net: Add most functions needed for vNodes to CConnman
* net: handle nodesignals in CConnman
* net: Pass CConnection to wallet rather than using the global
* net: Add rpc error for missing/disabled p2p functionality
* net: Pass CConnman around as needed
* gui: add NodeID to the peer table
* net: create generic functor accessors and move vNodes to CConnman
* net: move whitelist functions into CConnman
* net: move nLastNodeId to CConnman
* net: move nLocalHostNonce to CConnman
This behavior seems to have been quite racy and broken.
Move nLocalHostNonce into CNode, and check received nonces against all
non-fully-connected nodes. If there's a match, assume we've connected
to ourself.
* net: move messageHandlerCondition to CConnman
* net: move send/recv statistics to CConnman
* net: move SendBufferSize/ReceiveFloodSize to CConnman
* net: move nLocalServices/nRelevantServices to CConnman
These are in-turn passed to CNode at connection time. This allows us to offer
different services to different peers (or test the effects of doing so).
* net: move semOutbound and semMasternodeOutbound to CConnman
* net: SocketSendData returns written size
* net: move max/max-outbound to CConnman
* net: Pass best block known height into CConnman
CConnman then passes the current best height into CNode at creation time.
This way CConnman/CNode have no dependency on main for height, and the signals
only move in one direction.
This also helps to prevent identity leakage a tiny bit. Before this change, an
attacker could theoretically make 2 connections on different interfaces. They
would connect fully on one, and only establish the initial connection on the
other. Once they receive a new block, they would relay it to your first
connection, and immediately commence the version handshake on the second. Since
the new block height is reflected immediately, they could attempt to learn
whether the two connections were correlated.
This is, of course, incredibly unlikely to work due to the small timings
involved and receipt from other senders. But it doesn't hurt to lock-in
nBestHeight at the time of connection, rather than letting the remote choose
the time.
* net: pass CClientUIInterface into CConnman
* net: Drop StartNode/StopNode and use CConnman directly
* net: Introduce CConnection::Options to avoid passing so many params
* net: add nSendBufferMaxSize/nReceiveFloodSize to CConnection::Options
* net: move vNodesDisconnected into CConnman
* Made the ForEachNode* functions in src/net.cpp more pragmatic and self documenting
* Convert ForEachNode* functions to take a templated function argument rather than a std::function to eliminate std::function overhead
* net: move MAX_FEELER_CONNECTIONS into connman
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std : : vector < CNode * > vNodesCopy = g_connman - > CopyNodeVector ( ) ;
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BOOST_FOREACH ( CNode * pnode , vNodesCopy )
if ( pnode - > nVersion > = MIN_PRIVATESEND_PEER_PROTO_VERSION )
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g_connman - > PushMessage ( pnode , NetMsgType : : DSQUEUE , ( * this ) ) ;
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Backport Bitcoin PR#8085: p2p: Begin encapsulation (#1537)
* net: move CBanDB and CAddrDB out of net.h/cpp
This will eventually solve a circular dependency
* net: Create CConnman to encapsulate p2p connections
* net: Move socket binding into CConnman
* net: move OpenNetworkConnection into CConnman
* net: move ban and addrman functions into CConnman
* net: Add oneshot functions to CConnman
* net: move added node functions to CConnman
* net: Add most functions needed for vNodes to CConnman
* net: handle nodesignals in CConnman
* net: Pass CConnection to wallet rather than using the global
* net: Add rpc error for missing/disabled p2p functionality
* net: Pass CConnman around as needed
* gui: add NodeID to the peer table
* net: create generic functor accessors and move vNodes to CConnman
* net: move whitelist functions into CConnman
* net: move nLastNodeId to CConnman
* net: move nLocalHostNonce to CConnman
This behavior seems to have been quite racy and broken.
Move nLocalHostNonce into CNode, and check received nonces against all
non-fully-connected nodes. If there's a match, assume we've connected
to ourself.
* net: move messageHandlerCondition to CConnman
* net: move send/recv statistics to CConnman
* net: move SendBufferSize/ReceiveFloodSize to CConnman
* net: move nLocalServices/nRelevantServices to CConnman
These are in-turn passed to CNode at connection time. This allows us to offer
different services to different peers (or test the effects of doing so).
* net: move semOutbound and semMasternodeOutbound to CConnman
* net: SocketSendData returns written size
* net: move max/max-outbound to CConnman
* net: Pass best block known height into CConnman
CConnman then passes the current best height into CNode at creation time.
This way CConnman/CNode have no dependency on main for height, and the signals
only move in one direction.
This also helps to prevent identity leakage a tiny bit. Before this change, an
attacker could theoretically make 2 connections on different interfaces. They
would connect fully on one, and only establish the initial connection on the
other. Once they receive a new block, they would relay it to your first
connection, and immediately commence the version handshake on the second. Since
the new block height is reflected immediately, they could attempt to learn
whether the two connections were correlated.
This is, of course, incredibly unlikely to work due to the small timings
involved and receipt from other senders. But it doesn't hurt to lock-in
nBestHeight at the time of connection, rather than letting the remote choose
the time.
* net: pass CClientUIInterface into CConnman
* net: Drop StartNode/StopNode and use CConnman directly
* net: Introduce CConnection::Options to avoid passing so many params
* net: add nSendBufferMaxSize/nReceiveFloodSize to CConnection::Options
* net: move vNodesDisconnected into CConnman
* Made the ForEachNode* functions in src/net.cpp more pragmatic and self documenting
* Convert ForEachNode* functions to take a templated function argument rather than a std::function to eliminate std::function overhead
* net: move MAX_FEELER_CONNECTIONS into connman
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g_connman - > ReleaseNodeVector ( vNodesCopy ) ;
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return true ;
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}
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bool CDarksendBroadcastTx : : Sign ( )
{
if ( ! fMasterNode ) return false ;
std : : string strMessage = tx . GetHash ( ) . ToString ( ) + boost : : lexical_cast < std : : string > ( sigTime ) ;
if ( ! CMessageSigner : : SignMessage ( strMessage , vchSig , activeMasternode . keyMasternode ) ) {
LogPrintf ( " CDarksendBroadcastTx::Sign -- SignMessage() failed \n " ) ;
return false ;
}
return CheckSignature ( activeMasternode . pubKeyMasternode ) ;
}
bool CDarksendBroadcastTx : : CheckSignature ( const CPubKey & pubKeyMasternode )
{
std : : string strMessage = tx . GetHash ( ) . ToString ( ) + boost : : lexical_cast < std : : string > ( sigTime ) ;
std : : string strError = " " ;
if ( ! CMessageSigner : : VerifyMessage ( pubKeyMasternode , vchSig , strMessage , strError ) ) {
LogPrintf ( " CDarksendBroadcastTx::CheckSignature -- Got bad dstx signature, error: %s \n " , strError ) ;
return false ;
}
return true ;
}
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bool CDarksendBroadcastTx : : IsExpired ( int nHeight )
{
// expire confirmed DSTXes after ~1h since confirmation
return ( nConfirmedHeight ! = - 1 ) & & ( nHeight - nConfirmedHeight > 24 ) ;
}
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void CPrivateSendBase : : SetNull ( )
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{
// Both sides
nState = POOL_STATE_IDLE ;
nSessionID = 0 ;
nSessionDenom = 0 ;
vecEntries . clear ( ) ;
finalMutableTransaction . vin . clear ( ) ;
finalMutableTransaction . vout . clear ( ) ;
nTimeLastSuccessfulStep = GetTimeMillis ( ) ;
}
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std : : string CPrivateSendBase : : GetStateString ( ) const
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{
switch ( nState ) {
case POOL_STATE_IDLE : return " IDLE " ;
case POOL_STATE_QUEUE : return " QUEUE " ;
case POOL_STATE_ACCEPTING_ENTRIES : return " ACCEPTING_ENTRIES " ;
case POOL_STATE_SIGNING : return " SIGNING " ;
case POOL_STATE_ERROR : return " ERROR " ;
case POOL_STATE_SUCCESS : return " SUCCESS " ;
default : return " UNKNOWN " ;
}
}
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// Definitions for static data members
std : : vector < CAmount > CPrivateSend : : vecStandardDenominations ;
std : : map < uint256 , CDarksendBroadcastTx > CPrivateSend : : mapDSTX ;
CCriticalSection CPrivateSend : : cs_mapdstx ;
void CPrivateSend : : InitStandardDenominations ( )
{
vecStandardDenominations . clear ( ) ;
/* Denominations
A note about convertability . Within mixing pools , each denomination
is convertable to another .
For example :
1 DRK + 1000 = = ( .1 DRK + 100 ) * 10
10 DRK + 10000 = = ( 1 DRK + 1000 ) * 10
*/
/* Disabled
vecStandardDenominations . push_back ( ( 100 * COIN ) + 100000 ) ;
*/
vecStandardDenominations . push_back ( ( 10 * COIN ) + 10000 ) ;
vecStandardDenominations . push_back ( ( 1 * COIN ) + 1000 ) ;
vecStandardDenominations . push_back ( ( .1 * COIN ) + 100 ) ;
vecStandardDenominations . push_back ( ( .01 * COIN ) + 10 ) ;
/* Disabled till we need them
vecStandardDenominations . push_back ( ( .001 * COIN ) + 1 ) ;
*/
}
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// check to make sure the collateral provided by the client is valid
bool CPrivateSend : : IsCollateralValid ( const CTransaction & txCollateral )
{
if ( txCollateral . vout . empty ( ) ) return false ;
if ( txCollateral . nLockTime ! = 0 ) return false ;
CAmount nValueIn = 0 ;
CAmount nValueOut = 0 ;
BOOST_FOREACH ( const CTxOut txout , txCollateral . vout ) {
nValueOut + = txout . nValue ;
if ( ! txout . scriptPubKey . IsNormalPaymentScript ( ) ) {
LogPrintf ( " CPrivateSend::IsCollateralValid -- Invalid Script, txCollateral=%s " , txCollateral . ToString ( ) ) ;
return false ;
}
}
BOOST_FOREACH ( const CTxIn txin , txCollateral . vin ) {
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CCoins coins ;
if ( ! GetUTXOCoins ( txin . prevout , coins ) ) {
LogPrint ( " privatesend " , " CPrivateSend::IsCollateralValid -- Unknown inputs in collateral transaction, txCollateral=%s " , txCollateral . ToString ( ) ) ;
return false ;
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}
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nValueIn + = coins . vout [ txin . prevout . n ] . nValue ;
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}
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//collateral transactions are required to pay out a small fee to the miners
if ( nValueIn - nValueOut < GetCollateralAmount ( ) ) {
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LogPrint ( " privatesend " , " CPrivateSend::IsCollateralValid -- did not include enough fees in transaction: fees: %d, txCollateral=%s " , nValueOut - nValueIn , txCollateral . ToString ( ) ) ;
return false ;
}
LogPrint ( " privatesend " , " CPrivateSend::IsCollateralValid -- %s " , txCollateral . ToString ( ) ) ;
{
LOCK ( cs_main ) ;
CValidationState validationState ;
if ( ! AcceptToMemoryPool ( mempool , validationState , txCollateral , false , NULL , false , true , true ) ) {
LogPrint ( " privatesend " , " CPrivateSend::IsCollateralValid -- didn't pass AcceptToMemoryPool() \n " ) ;
return false ;
}
}
return true ;
}
/* Create a nice string to show the denominations
Function returns as follows ( for 4 denominations ) :
( bit on if present )
bit 0 - 100
bit 1 - 10
bit 2 - 1
bit 3 - .1
bit 4 and so on - out - of - bounds
none of above - non - denom
*/
std : : string CPrivateSend : : GetDenominationsToString ( int nDenom )
{
std : : string strDenom = " " ;
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int nMaxDenoms = vecStandardDenominations . size ( ) ;
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if ( nDenom > = ( 1 < < nMaxDenoms ) ) {
return " out-of-bounds " ;
}
for ( int i = 0 ; i < nMaxDenoms ; + + i ) {
if ( nDenom & ( 1 < < i ) ) {
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strDenom + = ( strDenom . empty ( ) ? " " : " + " ) + FormatMoney ( vecStandardDenominations [ i ] ) ;
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}
}
if ( strDenom . empty ( ) ) {
return " non-denom " ;
}
return strDenom ;
}
int CPrivateSend : : GetDenominations ( const std : : vector < CTxDSOut > & vecTxDSOut )
{
std : : vector < CTxOut > vecTxOut ;
BOOST_FOREACH ( CTxDSOut out , vecTxDSOut )
vecTxOut . push_back ( out ) ;
return GetDenominations ( vecTxOut ) ;
}
/* Return a bitshifted integer representing the denominations in this list
Function returns as follows ( for 4 denominations ) :
( bit on if present )
100 - bit 0
10 - bit 1
1 - bit 2
.1 - bit 3
non - denom - 0 , all bits off
*/
int CPrivateSend : : GetDenominations ( const std : : vector < CTxOut > & vecTxOut , bool fSingleRandomDenom )
{
std : : vector < std : : pair < CAmount , int > > vecDenomUsed ;
// make a list of denominations, with zero uses
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BOOST_FOREACH ( CAmount nDenomValue , vecStandardDenominations )
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vecDenomUsed . push_back ( std : : make_pair ( nDenomValue , 0 ) ) ;
// look for denominations and update uses to 1
BOOST_FOREACH ( CTxOut txout , vecTxOut ) {
bool found = false ;
BOOST_FOREACH ( PAIRTYPE ( CAmount , int ) & s , vecDenomUsed ) {
if ( txout . nValue = = s . first ) {
s . second = 1 ;
found = true ;
}
}
if ( ! found ) return 0 ;
}
int nDenom = 0 ;
int c = 0 ;
// if the denomination is used, shift the bit on
BOOST_FOREACH ( PAIRTYPE ( CAmount , int ) & s , vecDenomUsed ) {
int bit = ( fSingleRandomDenom ? GetRandInt ( 2 ) : 1 ) & s . second ;
nDenom | = bit < < c + + ;
if ( fSingleRandomDenom & & bit ) break ; // use just one random denomination
}
return nDenom ;
}
bool CPrivateSend : : GetDenominationsBits ( int nDenom , std : : vector < int > & vecBitsRet )
{
// ( bit on if present, 4 denominations example )
// bit 0 - 100DASH+1
// bit 1 - 10DASH+1
// bit 2 - 1DASH+1
// bit 3 - .1DASH+1
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int nMaxDenoms = vecStandardDenominations . size ( ) ;
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if ( nDenom > = ( 1 < < nMaxDenoms ) ) return false ;
vecBitsRet . clear ( ) ;
for ( int i = 0 ; i < nMaxDenoms ; + + i ) {
if ( nDenom & ( 1 < < i ) ) {
vecBitsRet . push_back ( i ) ;
}
}
return ! vecBitsRet . empty ( ) ;
}
int CPrivateSend : : GetDenominationsByAmounts ( const std : : vector < CAmount > & vecAmount )
{
CScript scriptTmp = CScript ( ) ;
std : : vector < CTxOut > vecTxOut ;
BOOST_REVERSE_FOREACH ( CAmount nAmount , vecAmount ) {
CTxOut txout ( nAmount , scriptTmp ) ;
vecTxOut . push_back ( txout ) ;
}
return GetDenominations ( vecTxOut , true ) ;
}
std : : string CPrivateSend : : GetMessageByID ( PoolMessage nMessageID )
{
switch ( nMessageID ) {
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 _ ( " Entry exceeds maximum size. " ) ;
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. " ) ; // not used
case ERR_QUEUE_FULL : return _ ( " Masternode queue is full. " ) ;
case ERR_RECENT : return _ ( " Last PrivateSend 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_NOERR : return _ ( " No errors detected. " ) ;
case MSG_SUCCESS : return _ ( " Transaction created successfully. " ) ;
case MSG_ENTRIES_ADDED : return _ ( " Your entries added successfully. " ) ;
default : return _ ( " Unknown response. " ) ;
}
}
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void CPrivateSend : : AddDSTX ( const CDarksendBroadcastTx & dstx )
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{
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LOCK ( cs_mapdstx ) ;
mapDSTX . insert ( std : : make_pair ( dstx . tx . GetHash ( ) , dstx ) ) ;
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}
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CDarksendBroadcastTx CPrivateSend : : GetDSTX ( const uint256 & hash )
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{
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LOCK ( cs_mapdstx ) ;
auto it = mapDSTX . find ( hash ) ;
return ( it = = mapDSTX . end ( ) ) ? CDarksendBroadcastTx ( ) : it - > second ;
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}
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void CPrivateSend : : CheckDSTXes ( int nHeight )
{
LOCK ( cs_mapdstx ) ;
std : : map < uint256 , CDarksendBroadcastTx > : : iterator it = mapDSTX . begin ( ) ;
while ( it ! = mapDSTX . end ( ) ) {
if ( it - > second . IsExpired ( nHeight ) ) {
mapDSTX . erase ( it + + ) ;
} else {
+ + it ;
}
}
LogPrint ( " privatesend " , " CPrivateSend::CheckDSTXes -- mapDSTX.size()=%llu \n " , mapDSTX . size ( ) ) ;
}
void CPrivateSend : : SyncTransaction ( const CTransaction & tx , const CBlock * pblock )
{
if ( tx . IsCoinBase ( ) ) return ;
LOCK2 ( cs_main , cs_mapdstx ) ;
uint256 txHash = tx . GetHash ( ) ;
if ( ! mapDSTX . count ( txHash ) ) return ;
// When tx is 0-confirmed or conflicted, pblock is NULL and nConfirmedHeight should be set to -1
CBlockIndex * pblockindex = NULL ;
if ( pblock ) {
uint256 blockHash = pblock - > GetHash ( ) ;
BlockMap : : iterator mi = mapBlockIndex . find ( blockHash ) ;
if ( mi = = mapBlockIndex . end ( ) | | ! mi - > second ) {
// shouldn't happen
LogPrint ( " privatesend " , " CPrivateSendClient::SyncTransaction -- Failed to find block %s \n " , blockHash . ToString ( ) ) ;
return ;
}
pblockindex = mi - > second ;
}
mapDSTX [ txHash ] . SetConfirmedHeight ( pblockindex ? pblockindex - > nHeight : - 1 ) ;
LogPrint ( " privatesend " , " CPrivateSendClient::SyncTransaction -- txid=%s \n " , txHash . ToString ( ) ) ;
}
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//TODO: Rename/move to core
void ThreadCheckPrivateSend ( )
{
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 " ) ;
unsigned int nTick = 0 ;
while ( true )
{
MilliSleep ( 1000 ) ;
// try to sync from all available nodes, one step at a time
masternodeSync . ProcessTick ( ) ;
if ( masternodeSync . IsBlockchainSynced ( ) & & ! ShutdownRequested ( ) ) {
nTick + + ;
// make sure to check all masternodes first
mnodeman . Check ( ) ;
// check if we should activate or ping every few minutes,
// slightly postpone first run to give net thread a chance to connect to some peers
if ( nTick % MASTERNODE_MIN_MNP_SECONDS = = 15 )
activeMasternode . ManageState ( ) ;
if ( nTick % 60 = = 0 ) {
mnodeman . ProcessMasternodeConnections ( ) ;
mnodeman . CheckAndRemove ( ) ;
mnpayments . CheckAndRemove ( ) ;
instantsend . CheckAndRemove ( ) ;
}
if ( fMasterNode & & ( nTick % ( 60 * 5 ) = = 0 ) ) {
mnodeman . DoFullVerificationStep ( ) ;
}
if ( nTick % ( 60 * 5 ) = = 0 ) {
governance . DoMaintenance ( ) ;
}
}
}
}