dash/src/masternode.h
Alexander Block 7765c87e79 Remove nType and nVersion from Dash related serialization code
Also remove bogus "nVersion = this->nVersion" assignments. These were
leftovers from old times.
2018-01-15 06:14:15 +01:00

409 lines
14 KiB
C++

// 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.
#ifndef MASTERNODE_H
#define MASTERNODE_H
#include "key.h"
#include "validation.h"
#include "spork.h"
class CMasternode;
class CMasternodeBroadcast;
class CConnman;
static const int MASTERNODE_CHECK_SECONDS = 5;
static const int MASTERNODE_MIN_MNB_SECONDS = 5 * 60;
static const int MASTERNODE_MIN_MNP_SECONDS = 10 * 60;
static const int MASTERNODE_EXPIRATION_SECONDS = 65 * 60;
static const int MASTERNODE_WATCHDOG_MAX_SECONDS = 120 * 60;
static const int MASTERNODE_NEW_START_REQUIRED_SECONDS = 180 * 60;
static const int MASTERNODE_POSE_BAN_MAX_SCORE = 5;
//
// The Masternode Ping Class : Contains a different serialize method for sending pings from masternodes throughout the network
//
// sentinel version before sentinel ping implementation
#define DEFAULT_SENTINEL_VERSION 0x010001
class CMasternodePing
{
public:
CTxIn vin{};
uint256 blockHash{};
int64_t sigTime{}; //mnb message times
std::vector<unsigned char> vchSig{};
bool fSentinelIsCurrent = false; // true if last sentinel ping was actual
// MSB is always 0, other 3 bits corresponds to x.x.x version scheme
uint32_t nSentinelVersion{DEFAULT_SENTINEL_VERSION};
CMasternodePing() = default;
CMasternodePing(const COutPoint& outpoint);
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(vin);
READWRITE(blockHash);
READWRITE(sigTime);
READWRITE(vchSig);
if(ser_action.ForRead() && (s.size() == 0))
{
fSentinelIsCurrent = false;
nSentinelVersion = DEFAULT_SENTINEL_VERSION;
return;
}
READWRITE(fSentinelIsCurrent);
READWRITE(nSentinelVersion);
}
uint256 GetHash() const
{
CHashWriter ss(SER_GETHASH, PROTOCOL_VERSION);
ss << vin;
ss << sigTime;
return ss.GetHash();
}
bool IsExpired() const { return GetAdjustedTime() - sigTime > MASTERNODE_NEW_START_REQUIRED_SECONDS; }
bool Sign(const CKey& keyMasternode, const CPubKey& pubKeyMasternode);
bool CheckSignature(CPubKey& pubKeyMasternode, int &nDos);
bool SimpleCheck(int& nDos);
bool CheckAndUpdate(CMasternode* pmn, bool fFromNewBroadcast, int& nDos, CConnman& connman);
void Relay(CConnman& connman);
};
inline bool operator==(const CMasternodePing& a, const CMasternodePing& b)
{
return a.vin == b.vin && a.blockHash == b.blockHash;
}
inline bool operator!=(const CMasternodePing& a, const CMasternodePing& b)
{
return !(a == b);
}
struct masternode_info_t
{
// Note: all these constructors can be removed once C++14 is enabled.
// (in C++11 the member initializers wrongly disqualify this as an aggregate)
masternode_info_t() = default;
masternode_info_t(masternode_info_t const&) = default;
masternode_info_t(int activeState, int protoVer, int64_t sTime) :
nActiveState{activeState}, nProtocolVersion{protoVer}, sigTime{sTime} {}
masternode_info_t(int activeState, int protoVer, int64_t sTime,
COutPoint const& outpoint, CService const& addr,
CPubKey const& pkCollAddr, CPubKey const& pkMN,
int64_t tWatchdogV = 0) :
nActiveState{activeState}, nProtocolVersion{protoVer}, sigTime{sTime},
vin{outpoint}, addr{addr},
pubKeyCollateralAddress{pkCollAddr}, pubKeyMasternode{pkMN},
nTimeLastWatchdogVote{tWatchdogV} {}
int nActiveState = 0;
int nProtocolVersion = 0;
int64_t sigTime = 0; //mnb message time
CTxIn vin{};
CService addr{};
CPubKey pubKeyCollateralAddress{};
CPubKey pubKeyMasternode{};
int64_t nTimeLastWatchdogVote = 0;
int64_t nLastDsq = 0; //the dsq count from the last dsq broadcast of this node
int64_t nTimeLastChecked = 0;
int64_t nTimeLastPaid = 0;
int64_t nTimeLastPing = 0; //* not in CMN
bool fInfoValid = false; //* not in CMN
};
//
// 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 : public masternode_info_t
{
private:
// critical section to protect the inner data structures
mutable CCriticalSection cs;
public:
enum state {
MASTERNODE_PRE_ENABLED,
MASTERNODE_ENABLED,
MASTERNODE_EXPIRED,
MASTERNODE_OUTPOINT_SPENT,
MASTERNODE_UPDATE_REQUIRED,
MASTERNODE_WATCHDOG_EXPIRED,
MASTERNODE_NEW_START_REQUIRED,
MASTERNODE_POSE_BAN
};
enum CollateralStatus {
COLLATERAL_OK,
COLLATERAL_UTXO_NOT_FOUND,
COLLATERAL_INVALID_AMOUNT,
COLLATERAL_INVALID_PUBKEY
};
CMasternodePing lastPing{};
std::vector<unsigned char> vchSig{};
uint256 nCollateralMinConfBlockHash{};
int nBlockLastPaid{};
int nPoSeBanScore{};
int nPoSeBanHeight{};
bool fAllowMixingTx{};
bool fUnitTest = false;
// KEEP TRACK OF GOVERNANCE ITEMS EACH MASTERNODE HAS VOTE UPON FOR RECALCULATION
std::map<uint256, int> mapGovernanceObjectsVotedOn;
CMasternode();
CMasternode(const CMasternode& other);
CMasternode(const CMasternodeBroadcast& mnb);
CMasternode(CService addrNew, COutPoint outpointNew, CPubKey pubKeyCollateralAddressNew, CPubKey pubKeyMasternodeNew, int nProtocolVersionIn);
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
LOCK(cs);
READWRITE(vin);
READWRITE(addr);
READWRITE(pubKeyCollateralAddress);
READWRITE(pubKeyMasternode);
READWRITE(lastPing);
READWRITE(vchSig);
READWRITE(sigTime);
READWRITE(nLastDsq);
READWRITE(nTimeLastChecked);
READWRITE(nTimeLastPaid);
READWRITE(nTimeLastWatchdogVote);
READWRITE(nActiveState);
READWRITE(nCollateralMinConfBlockHash);
READWRITE(nBlockLastPaid);
READWRITE(nProtocolVersion);
READWRITE(nPoSeBanScore);
READWRITE(nPoSeBanHeight);
READWRITE(fAllowMixingTx);
READWRITE(fUnitTest);
READWRITE(mapGovernanceObjectsVotedOn);
}
// CALCULATE A RANK AGAINST OF GIVEN BLOCK
arith_uint256 CalculateScore(const uint256& blockHash);
bool UpdateFromNewBroadcast(CMasternodeBroadcast& mnb, CConnman& connman);
static CollateralStatus CheckCollateral(const COutPoint& outpoint, const CPubKey& pubkey);
static CollateralStatus CheckCollateral(const COutPoint& outpoint, const CPubKey& pubkey, int& nHeightRet);
void Check(bool fForce = false);
bool IsBroadcastedWithin(int nSeconds) { return GetAdjustedTime() - sigTime < nSeconds; }
bool IsPingedWithin(int nSeconds, int64_t nTimeToCheckAt = -1)
{
if(lastPing == CMasternodePing()) return false;
if(nTimeToCheckAt == -1) {
nTimeToCheckAt = GetAdjustedTime();
}
return nTimeToCheckAt - lastPing.sigTime < nSeconds;
}
bool IsEnabled() { return nActiveState == MASTERNODE_ENABLED; }
bool IsPreEnabled() { return nActiveState == MASTERNODE_PRE_ENABLED; }
bool IsPoSeBanned() { return nActiveState == MASTERNODE_POSE_BAN; }
// NOTE: this one relies on nPoSeBanScore, not on nActiveState as everything else here
bool IsPoSeVerified() { return nPoSeBanScore <= -MASTERNODE_POSE_BAN_MAX_SCORE; }
bool IsExpired() { return nActiveState == MASTERNODE_EXPIRED; }
bool IsOutpointSpent() { return nActiveState == MASTERNODE_OUTPOINT_SPENT; }
bool IsUpdateRequired() { return nActiveState == MASTERNODE_UPDATE_REQUIRED; }
bool IsWatchdogExpired() { return nActiveState == MASTERNODE_WATCHDOG_EXPIRED; }
bool IsNewStartRequired() { return nActiveState == MASTERNODE_NEW_START_REQUIRED; }
static bool IsValidStateForAutoStart(int nActiveStateIn)
{
return nActiveStateIn == MASTERNODE_ENABLED ||
nActiveStateIn == MASTERNODE_PRE_ENABLED ||
nActiveStateIn == MASTERNODE_EXPIRED ||
nActiveStateIn == MASTERNODE_WATCHDOG_EXPIRED;
}
bool IsValidForPayment()
{
if(nActiveState == MASTERNODE_ENABLED) {
return true;
}
if(!sporkManager.IsSporkActive(SPORK_14_REQUIRE_SENTINEL_FLAG) &&
(nActiveState == MASTERNODE_WATCHDOG_EXPIRED)) {
return true;
}
return false;
}
bool IsValidNetAddr();
static bool IsValidNetAddr(CService addrIn);
void IncreasePoSeBanScore() { if(nPoSeBanScore < MASTERNODE_POSE_BAN_MAX_SCORE) nPoSeBanScore++; }
void DecreasePoSeBanScore() { if(nPoSeBanScore > -MASTERNODE_POSE_BAN_MAX_SCORE) nPoSeBanScore--; }
void PoSeBan() { nPoSeBanScore = MASTERNODE_POSE_BAN_MAX_SCORE; }
masternode_info_t GetInfo();
static std::string StateToString(int nStateIn);
std::string GetStateString() const;
std::string GetStatus() const;
int GetLastPaidTime() { return nTimeLastPaid; }
int GetLastPaidBlock() { return nBlockLastPaid; }
void UpdateLastPaid(const CBlockIndex *pindex, int nMaxBlocksToScanBack);
// KEEP TRACK OF EACH GOVERNANCE ITEM INCASE THIS NODE GOES OFFLINE, SO WE CAN RECALC THEIR STATUS
void AddGovernanceVote(uint256 nGovernanceObjectHash);
// RECALCULATE CACHED STATUS FLAGS FOR ALL AFFECTED OBJECTS
void FlagGovernanceItemsAsDirty();
void RemoveGovernanceObject(uint256 nGovernanceObjectHash);
void UpdateWatchdogVoteTime(uint64_t nVoteTime = 0);
CMasternode& operator=(CMasternode const& from)
{
static_cast<masternode_info_t&>(*this)=from;
lastPing = from.lastPing;
vchSig = from.vchSig;
nCollateralMinConfBlockHash = from.nCollateralMinConfBlockHash;
nBlockLastPaid = from.nBlockLastPaid;
nPoSeBanScore = from.nPoSeBanScore;
nPoSeBanHeight = from.nPoSeBanHeight;
fAllowMixingTx = from.fAllowMixingTx;
fUnitTest = from.fUnitTest;
mapGovernanceObjectsVotedOn = from.mapGovernanceObjectsVotedOn;
return *this;
}
};
inline bool operator==(const CMasternode& a, const CMasternode& b)
{
return a.vin == b.vin;
}
inline bool operator!=(const CMasternode& a, const CMasternode& b)
{
return !(a.vin == b.vin);
}
//
// The Masternode Broadcast Class : Contains a different serialize method for sending masternodes through the network
//
class CMasternodeBroadcast : public CMasternode
{
public:
bool fRecovery;
CMasternodeBroadcast() : CMasternode(), fRecovery(false) {}
CMasternodeBroadcast(const CMasternode& mn) : CMasternode(mn), fRecovery(false) {}
CMasternodeBroadcast(CService addrNew, COutPoint outpointNew, CPubKey pubKeyCollateralAddressNew, CPubKey pubKeyMasternodeNew, int nProtocolVersionIn) :
CMasternode(addrNew, outpointNew, pubKeyCollateralAddressNew, pubKeyMasternodeNew, nProtocolVersionIn), fRecovery(false) {}
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(vin);
READWRITE(addr);
READWRITE(pubKeyCollateralAddress);
READWRITE(pubKeyMasternode);
READWRITE(vchSig);
READWRITE(sigTime);
READWRITE(nProtocolVersion);
READWRITE(lastPing);
}
uint256 GetHash() const
{
CHashWriter ss(SER_GETHASH, PROTOCOL_VERSION);
ss << vin;
ss << pubKeyCollateralAddress;
ss << sigTime;
return ss.GetHash();
}
/// Create Masternode broadcast, needs to be relayed manually after that
static bool Create(const COutPoint& outpoint, const CService& service, const CKey& keyCollateralAddressNew, const CPubKey& pubKeyCollateralAddressNew, const CKey& keyMasternodeNew, const CPubKey& pubKeyMasternodeNew, std::string &strErrorRet, CMasternodeBroadcast &mnbRet);
static bool Create(std::string strService, std::string strKey, std::string strTxHash, std::string strOutputIndex, std::string& strErrorRet, CMasternodeBroadcast &mnbRet, bool fOffline = false);
bool SimpleCheck(int& nDos);
bool Update(CMasternode* pmn, int& nDos, CConnman& connman);
bool CheckOutpoint(int& nDos);
bool Sign(const CKey& keyCollateralAddress);
bool CheckSignature(int& nDos);
void Relay(CConnman& connman);
};
class CMasternodeVerification
{
public:
CTxIn vin1{};
CTxIn vin2{};
CService addr{};
int nonce{};
int nBlockHeight{};
std::vector<unsigned char> vchSig1{};
std::vector<unsigned char> vchSig2{};
CMasternodeVerification() = default;
CMasternodeVerification(CService addr, int nonce, int nBlockHeight) :
addr(addr),
nonce(nonce),
nBlockHeight(nBlockHeight)
{}
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(vin1);
READWRITE(vin2);
READWRITE(addr);
READWRITE(nonce);
READWRITE(nBlockHeight);
READWRITE(vchSig1);
READWRITE(vchSig2);
}
uint256 GetHash() const
{
CHashWriter ss(SER_GETHASH, PROTOCOL_VERSION);
ss << vin1;
ss << vin2;
ss << addr;
ss << nonce;
ss << nBlockHeight;
return ss.GetHash();
}
void Relay() const
{
CInv inv(MSG_MASTERNODE_VERIFY, GetHash());
g_connman->RelayInv(inv);
}
};
#endif