dash/src/masternode.h

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// Copyright (c) 2014-2015 The Dash developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef MASTERNODE_H
#define MASTERNODE_H
#include "sync.h"
#include "net.h"
#include "key.h"
#include "util.h"
#include "base58.h"
#include "main.h"
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#include "timedata.h"
#define MASTERNODE_MIN_CONFIRMATIONS 15
#define MASTERNODE_MIN_MNP_SECONDS (10*60)
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#define MASTERNODE_MIN_MNB_SECONDS (5*60)
#define MASTERNODE_PING_SECONDS (5*60)
#define MASTERNODE_EXPIRATION_SECONDS (65*60)
#define MASTERNODE_REMOVAL_SECONDS (75*60)
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#define MASTERNODE_CHECK_SECONDS 5
using namespace std;
class CMasternode;
class CMasternodeBroadcast;
class CMasternodePing;
extern map<int64_t, uint256> mapCacheBlockHashes;
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bool GetBlockHash(uint256& hash, int nBlockHeight);
//
// The Masternode Ping Class : Contains a different serialize method for sending pings from masternodes throughout the network
//
class CMasternodePing
{
public:
CTxIn vin;
uint256 blockHash;
int64_t sigTime; //mnb message times
std::vector<unsigned char> vchSig;
//removed stop
CMasternodePing();
CMasternodePing(CTxIn& newVin);
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action, int nType, int nVersion) {
READWRITE(vin);
READWRITE(blockHash);
READWRITE(sigTime);
READWRITE(vchSig);
}
bool CheckAndUpdate(int& nDos, bool fRequireEnabled = true);
bool Sign(CKey& keyMasternode, CPubKey& pubKeyMasternode);
void Relay();
uint256 GetHash(){
CHashWriter ss(SER_GETHASH, PROTOCOL_VERSION);
ss << vin;
ss << sigTime;
return ss.GetHash();
}
void swap(CMasternodePing& first, CMasternodePing& second) // nothrow
{
// enable ADL (not necessary in our case, but good practice)
using std::swap;
// by swapping the members of two classes,
// the two classes are effectively swapped
swap(first.vin, second.vin);
swap(first.blockHash, second.blockHash);
swap(first.sigTime, second.sigTime);
swap(first.vchSig, second.vchSig);
}
CMasternodePing& operator=(CMasternodePing from)
{
swap(*this, from);
return *this;
}
friend bool operator==(const CMasternodePing& a, const CMasternodePing& b)
{
return a.vin == b.vin && a.blockHash == b.blockHash;
}
friend bool operator!=(const CMasternodePing& a, const CMasternodePing& b)
{
return !(a == b);
}
};
//
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// The Masternode Class. For managing the Darksend process. It contains the input of the 1000DRK, signature to prove
// it's the one who own that ip address and code for calculating the payment election.
//
class CMasternode
{
private:
// critical section to protect the inner data structures
mutable CCriticalSection cs;
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int64_t lastTimeChecked;
public:
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enum state {
MASTERNODE_PRE_ENABLED,
MASTERNODE_ENABLED,
MASTERNODE_EXPIRED,
MASTERNODE_VIN_SPENT,
MASTERNODE_REMOVE,
MASTERNODE_POS_ERROR
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};
CTxIn vin;
CService addr;
CPubKey pubkey;
CPubKey pubkey2;
std::vector<unsigned char> sig;
int activeState;
int64_t sigTime; //mnb message time
int cacheInputAge;
int cacheInputAgeBlock;
bool unitTest;
bool allowFreeTx;
int protocolVersion;
int64_t nLastDsq; //the dsq count from the last dsq broadcast of this node
int nScanningErrorCount;
int nLastScanningErrorBlockHeight;
CMasternodePing lastPing;
CMasternode();
CMasternode(const CMasternode& other);
CMasternode(const CMasternodeBroadcast& mnb);
void swap(CMasternode& first, CMasternode& second) // nothrow
{
// enable ADL (not necessary in our case, but good practice)
using std::swap;
// by swapping the members of two classes,
// the two classes are effectively swapped
swap(first.vin, second.vin);
swap(first.addr, second.addr);
swap(first.pubkey, second.pubkey);
swap(first.pubkey2, second.pubkey2);
swap(first.sig, second.sig);
swap(first.activeState, second.activeState);
swap(first.sigTime, second.sigTime);
swap(first.lastPing, second.lastPing);
swap(first.cacheInputAge, second.cacheInputAge);
swap(first.cacheInputAgeBlock, second.cacheInputAgeBlock);
swap(first.unitTest, second.unitTest);
swap(first.allowFreeTx, second.allowFreeTx);
swap(first.protocolVersion, second.protocolVersion);
swap(first.nLastDsq, second.nLastDsq);
swap(first.nScanningErrorCount, second.nScanningErrorCount);
swap(first.nLastScanningErrorBlockHeight, second.nLastScanningErrorBlockHeight);
}
CMasternode& operator=(CMasternode from)
{
swap(*this, from);
return *this;
}
friend bool operator==(const CMasternode& a, const CMasternode& b)
{
return a.vin == b.vin;
}
friend bool operator!=(const CMasternode& a, const CMasternode& b)
{
return !(a.vin == b.vin);
}
uint256 CalculateScore(int mod=1, int64_t nBlockHeight=0);
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ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action, int nType, int nVersion) {
LOCK(cs);
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READWRITE(vin);
READWRITE(addr);
READWRITE(pubkey);
READWRITE(pubkey2);
READWRITE(sig);
READWRITE(sigTime);
READWRITE(protocolVersion);
READWRITE(activeState);
READWRITE(lastPing);
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READWRITE(cacheInputAge);
READWRITE(cacheInputAgeBlock);
READWRITE(unitTest);
READWRITE(allowFreeTx);
READWRITE(nLastDsq);
READWRITE(nScanningErrorCount);
READWRITE(nLastScanningErrorBlockHeight);
}
int64_t SecondsSincePayment();
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bool UpdateFromNewBroadcast(CMasternodeBroadcast& mnb);
inline uint64_t SliceHash(uint256& hash, int slice)
{
uint64_t n = 0;
memcpy(&n, &hash+slice*64, 64);
return n;
}
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void Check(bool forceCheck = false);
bool IsBroadcastedWithin(int seconds)
{
return (GetAdjustedTime() - sigTime) < seconds;
}
bool IsPingedWithin(int seconds, int64_t now = -1)
{
now == -1 ? now = GetAdjustedTime() : now;
return (lastPing == CMasternodePing())
? false
: now - lastPing.sigTime < seconds;
}
void Disable()
{
sigTime = 0;
lastPing = CMasternodePing();
}
bool IsEnabled()
{
return activeState == MASTERNODE_ENABLED;
}
bool IsPreEnabled()
{
return activeState == MASTERNODE_PRE_ENABLED;
}
int GetMasternodeInputAge()
{
if(chainActive.Tip() == NULL) return 0;
if(cacheInputAge == 0){
cacheInputAge = GetInputAge(vin);
cacheInputAgeBlock = chainActive.Tip()->nHeight;
}
return cacheInputAge+(chainActive.Tip()->nHeight-cacheInputAgeBlock);
}
std::string Status() {
std::string strStatus = "unknown";
if(activeState == CMasternode::MASTERNODE_PRE_ENABLED) strStatus = "PRE_ENABLED";
if(activeState == CMasternode::MASTERNODE_ENABLED) strStatus = "ENABLED";
if(activeState == CMasternode::MASTERNODE_EXPIRED) strStatus = "EXPIRED";
if(activeState == CMasternode::MASTERNODE_VIN_SPENT) strStatus = "VIN_SPENT";
if(activeState == CMasternode::MASTERNODE_REMOVE) strStatus = "REMOVE";
if(activeState == CMasternode::MASTERNODE_POS_ERROR) strStatus = "POS_ERROR";
return strStatus;
}
int64_t GetLastPaid();
};
//
// The Masternode Broadcast Class : Contains a different serialize method for sending masternodes through the network
//
class CMasternodeBroadcast : public CMasternode
{
public:
CMasternodeBroadcast();
CMasternodeBroadcast(CService newAddr, CTxIn newVin, CPubKey newPubkey, CPubKey newPubkey2, int protocolVersionIn);
CMasternodeBroadcast(const CMasternode& mn);
bool CheckAndUpdate(int& nDoS);
bool CheckInputsAndAdd(int& nDos);
bool Sign(CKey& keyCollateralAddress);
void Relay();
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action, int nType, int nVersion) {
READWRITE(vin);
READWRITE(addr);
READWRITE(pubkey);
READWRITE(pubkey2);
READWRITE(sig);
READWRITE(sigTime);
READWRITE(protocolVersion);
READWRITE(lastPing);
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READWRITE(nLastDsq);
}
uint256 GetHash(){
CHashWriter ss(SER_GETHASH, PROTOCOL_VERSION);
ss << sigTime;
ss << pubkey;
return ss.GetHash();
}
};
#endif