agrarian/src/chain.h

// Copyright (c) 2009-2010 Satoshi Nakamoto
// Copyright (c) 2009-2014 The Bitcoin developers
// Copyright (c) 2015-2019 The PIVX developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.

#ifndef BITCOIN_CHAIN_H
#define BITCOIN_CHAIN_H

#include "pow.h"
#include "primitives/block.h"
#include "tinyformat.h"
#include "uint256.h"
#include "util.h"
#include "libzerocoin/Denominations.h"

#include <vector>


struct CDiskBlockPos {
    int nFile;
    unsigned int nPos;

    ADD_SERIALIZE_METHODS;

    template <typename Stream, typename Operation>
    inline void SerializationOp(Stream& s, Operation ser_action, int nType, int nVersion)
    {
        READWRITE(VARINT(nFile));
        READWRITE(VARINT(nPos));
    }

    CDiskBlockPos()
    {
        SetNull();
    }

    CDiskBlockPos(int nFileIn, unsigned int nPosIn)
    {
        nFile = nFileIn;
        nPos = nPosIn;
    }

    friend bool operator==(const CDiskBlockPos& a, const CDiskBlockPos& b)
    {
        return (a.nFile == b.nFile && a.nPos == b.nPos);
    }

    friend bool operator!=(const CDiskBlockPos& a, const CDiskBlockPos& b)
    {
        return !(a == b);
    }

    void SetNull()
    {
        nFile = -1;
        nPos = 0;
    }
    bool IsNull() const { return (nFile == -1); }
};

enum BlockStatus {
    //! Unused.
    BLOCK_VALID_UNKNOWN = 0,

    //! Parsed, version ok, hash satisfies claimed PoW, 1 <= vtx count <= max, timestamp not in future
    BLOCK_VALID_HEADER = 1,

    //! All parent headers found, difficulty matches, timestamp >= median previous, checkpoint. Implies all parents
    //! are also at least TREE.
    BLOCK_VALID_TREE = 2,

    /**
     * Only first tx is coinbase, 2 <= coinbase input script length <= 100, transactions valid, no duplicate txids,
     * sigops, size, merkle root. Implies all parents are at least TREE but not necessarily TRANSACTIONS. When all
     * parent blocks also have TRANSACTIONS, CBlockIndex::nChainTx will be set.
     */
    BLOCK_VALID_TRANSACTIONS = 3,

    //! Outputs do not overspend inputs, no double spends, coinbase output ok, immature coinbase spends, BIP30.
    //! Implies all parents are also at least CHAIN.
    BLOCK_VALID_CHAIN = 4,

    //! Scripts & signatures ok. Implies all parents are also at least SCRIPTS.
    BLOCK_VALID_SCRIPTS = 5,

    //! All validity bits.
    BLOCK_VALID_MASK = BLOCK_VALID_HEADER | BLOCK_VALID_TREE | BLOCK_VALID_TRANSACTIONS |
                       BLOCK_VALID_CHAIN |
                       BLOCK_VALID_SCRIPTS,

    BLOCK_HAVE_DATA = 8,  //! full block available in blk*.dat
    BLOCK_HAVE_UNDO = 16, //! undo data available in rev*.dat
    BLOCK_HAVE_MASK = BLOCK_HAVE_DATA | BLOCK_HAVE_UNDO,

    BLOCK_FAILED_VALID = 32, //! stage after last reached validness failed
    BLOCK_FAILED_CHILD = 64, //! descends from failed block
    BLOCK_FAILED_MASK = BLOCK_FAILED_VALID | BLOCK_FAILED_CHILD,
};

/** The block chain is a tree shaped structure starting with the
 * genesis block at the root, with each block potentially having multiple
 * candidates to be the next block. A blockindex may have multiple pprev pointing
 * to it, but at most one of them can be part of the currently active branch.
 */
class CBlockIndex
{
public:
    //! pointer to the hash of the block, if any. memory is owned by this CBlockIndex
    const uint256* phashBlock;

    //! pointer to the index of the predecessor of this block
    CBlockIndex* pprev;

    //! pointer to the index of the next block
    CBlockIndex* pnext;

    //! pointer to the index of some further predecessor of this block
    CBlockIndex* pskip;

    //ppcoin: trust score of block chain
    uint256 bnChainTrust;

    //! height of the entry in the chain. The genesis block has height 0
    int nHeight;

    //! Which # file this block is stored in (blk?????.dat)
    int nFile;

    //! Byte offset within blk?????.dat where this block's data is stored
    unsigned int nDataPos;

    //! Byte offset within rev?????.dat where this block's undo data is stored
    unsigned int nUndoPos;

    //! (memory only) Total amount of work (expected number of hashes) in the chain up to and including this block
    uint256 nChainWork;

    //! Number of transactions in this block.
    //! Note: in a potential headers-first mode, this number cannot be relied upon
    unsigned int nTx;

    //! (memory only) Number of transactions in the chain up to and including this block.
    //! This value will be non-zero only if and only if transactions for this block and all its parents are available.
    //! Change to 64-bit type when necessary; won't happen before 2030
    unsigned int nChainTx;

    //! Verification status of this block. See enum BlockStatus
    unsigned int nStatus;

    unsigned int nFlags; // ppcoin: block index flags
    enum {
        BLOCK_PROOF_OF_STAKE = (1 << 0), // is proof-of-stake block
        BLOCK_STAKE_ENTROPY = (1 << 1),  // entropy bit for stake modifier
        BLOCK_STAKE_MODIFIER = (1 << 2), // regenerated stake modifier
    };

    // proof-of-stake specific fields
    uint256 GetBlockTrust() const;
    uint64_t nStakeModifier;             // hash modifier for proof-of-stake
    unsigned int nStakeModifierChecksum; // checksum of index; in-memeory only
    COutPoint prevoutStake;
    unsigned int nStakeTime;
    uint256 hashProofOfStake;
    int64_t nMint;
    int64_t nMoneySupply;

    //! block header
    int nVersion;
    uint256 hashMerkleRoot;
    unsigned int nTime;
    unsigned int nBits;
    unsigned int nNonce;
    uint256 nAccumulatorCheckpoint;

    //! (memory only) Sequential id assigned to distinguish order in which blocks are received.
    uint32_t nSequenceId;
    
    //! zerocoin specific fields
    std::map<libzerocoin::CoinDenomination, int64_t> mapZerocoinSupply;
    std::vector<libzerocoin::CoinDenomination> vMintDenominationsInBlock;
    
    void SetNull()
    {
        phashBlock = NULL;
        pprev = NULL;
        pskip = NULL;
        nHeight = 0;
        nFile = 0;
        nDataPos = 0;
        nUndoPos = 0;
        nChainWork = 0;
        nTx = 0;
        nChainTx = 0;
        nStatus = 0;
        nSequenceId = 0;

        nMint = 0;
        nMoneySupply = 0;
        nFlags = 0;
        nStakeModifier = 0;
        nStakeModifierChecksum = 0;
        prevoutStake.SetNull();
        nStakeTime = 0;

        nVersion = 0;
        hashMerkleRoot = uint256();
        nTime = 0;
        nBits = 0;
        nNonce = 0;
        nAccumulatorCheckpoint = 0;
        // Start supply of each denomination with 0s
        for (auto& denom : libzerocoin::zerocoinDenomList) {
            mapZerocoinSupply.insert(make_pair(denom, 0));
        }
        vMintDenominationsInBlock.clear();
    }

    CBlockIndex()
    {
        SetNull();
    }

    CBlockIndex(const CBlock& block)
    {
        SetNull();

        nVersion = block.nVersion;
        hashMerkleRoot = block.hashMerkleRoot;
        nTime = block.nTime;
        nBits = block.nBits;
        nNonce = block.nNonce;
        if(block.nVersion > 3)
            nAccumulatorCheckpoint = block.nAccumulatorCheckpoint;

        //Proof of Stake
        bnChainTrust = uint256();
        nMint = 0;
        nMoneySupply = 0;
        nFlags = 0;
        nStakeModifier = 0;
        nStakeModifierChecksum = 0;
        hashProofOfStake = uint256();

        if (block.IsProofOfStake()) {
            SetProofOfStake();
            prevoutStake = block.vtx[1].vin[0].prevout;
            nStakeTime = block.nTime;
        } else {
            prevoutStake.SetNull();
            nStakeTime = 0;
        }
    }
    

    CDiskBlockPos GetBlockPos() const
    {
        CDiskBlockPos ret;
        if (nStatus & BLOCK_HAVE_DATA) {
            ret.nFile = nFile;
            ret.nPos = nDataPos;
        }
        return ret;
    }

    CDiskBlockPos GetUndoPos() const
    {
        CDiskBlockPos ret;
        if (nStatus & BLOCK_HAVE_UNDO) {
            ret.nFile = nFile;
            ret.nPos = nUndoPos;
        }
        return ret;
    }

    CBlockHeader GetBlockHeader() const
    {
        CBlockHeader block;
        block.nVersion = nVersion;
        if (pprev)
            block.hashPrevBlock = pprev->GetBlockHash();
        block.hashMerkleRoot = hashMerkleRoot;
        block.nTime = nTime;
        block.nBits = nBits;
        block.nNonce = nNonce;
        block.nAccumulatorCheckpoint = nAccumulatorCheckpoint;
        return block;
    }

    int64_t GetZerocoinSupply() const
    {
        int64_t nTotal = 0;
        for (auto& denom : libzerocoin::zerocoinDenomList) {
            nTotal += GetZcMintsAmount(denom);
        }
        return nTotal;
    }

    /**
     * Total of mints added to the specific accumulator.
     * @param denom
     * @return
     */
    int64_t GetZcMints(libzerocoin::CoinDenomination denom) const
    {
        return mapZerocoinSupply.at(denom);
    }

    /**
     * Total available amount in an specific denom.
     * @param denom
     * @return
     */
    int64_t GetZcMintsAmount(libzerocoin::CoinDenomination denom) const
    {
        return libzerocoin::ZerocoinDenominationToAmount(denom) * GetZcMints(denom);
    }

    bool MintedDenomination(libzerocoin::CoinDenomination denom) const
    {
        return std::find(vMintDenominationsInBlock.begin(), vMintDenominationsInBlock.end(), denom) != vMintDenominationsInBlock.end();
    }

    uint256 GetBlockHash() const
    {
        return *phashBlock;
    }

    int64_t GetBlockTime() const
    {
        return (int64_t)nTime;
    }

    enum { nMedianTimeSpan = 11 };

    int64_t GetMedianTimePast() const
    {
        int64_t pmedian[nMedianTimeSpan];
        int64_t* pbegin = &pmedian[nMedianTimeSpan];
        int64_t* pend = &pmedian[nMedianTimeSpan];

        const CBlockIndex* pindex = this;
        for (int i = 0; i < nMedianTimeSpan && pindex; i++, pindex = pindex->pprev)
            *(--pbegin) = pindex->GetBlockTime();

        std::sort(pbegin, pend);
        return pbegin[(pend - pbegin) / 2];
    }

    bool IsProofOfWork() const
    {
        return !(nFlags & BLOCK_PROOF_OF_STAKE);
    }

    bool IsProofOfStake() const
    {
        return (nFlags & BLOCK_PROOF_OF_STAKE);
    }

    void SetProofOfStake()
    {
        nFlags |= BLOCK_PROOF_OF_STAKE;
    }

    unsigned int GetStakeEntropyBit() const
    {
        unsigned int nEntropyBit = ((GetBlockHash().Get64()) & 1);
        if (GetBoolArg("-printstakemodifier", false))
            LogPrintf("GetStakeEntropyBit: nHeight=%u hashBlock=%s nEntropyBit=%u\n", nHeight, GetBlockHash().ToString().c_str(), nEntropyBit);

        return nEntropyBit;
    }

    bool SetStakeEntropyBit(unsigned int nEntropyBit)
    {
        if (nEntropyBit > 1)
            return false;
        nFlags |= (nEntropyBit ? BLOCK_STAKE_ENTROPY : 0);
        return true;
    }

    bool GeneratedStakeModifier() const
    {
        return (nFlags & BLOCK_STAKE_MODIFIER);
    }

    void SetStakeModifier(uint64_t nModifier, bool fGeneratedStakeModifier)
    {
        nStakeModifier = nModifier;
        if (fGeneratedStakeModifier)
            nFlags |= BLOCK_STAKE_MODIFIER;
    }

    /**
     * Returns true if there are nRequired or more blocks of minVersion or above
     * in the last Params().ToCheckBlockUpgradeMajority() blocks, starting at pstart 
     * and going backwards.
     */
    static bool IsSuperMajority(int minVersion, const CBlockIndex* pstart, unsigned int nRequired);

    std::string ToString() const
    {
        return strprintf("CBlockIndex(pprev=%p, nHeight=%d, merkle=%s, hashBlock=%s)",
            pprev, nHeight,
            hashMerkleRoot.ToString(),
            GetBlockHash().ToString());
    }

    //! Check whether this block index entry is valid up to the passed validity level.
    bool IsValid(enum BlockStatus nUpTo = BLOCK_VALID_TRANSACTIONS) const
    {
        assert(!(nUpTo & ~BLOCK_VALID_MASK)); // Only validity flags allowed.
        if (nStatus & BLOCK_FAILED_MASK)
            return false;
        return ((nStatus & BLOCK_VALID_MASK) >= nUpTo);
    }

    //! Raise the validity level of this block index entry.
    //! Returns true if the validity was changed.
    bool RaiseValidity(enum BlockStatus nUpTo)
    {
        assert(!(nUpTo & ~BLOCK_VALID_MASK)); // Only validity flags allowed.
        if (nStatus & BLOCK_FAILED_MASK)
            return false;
        if ((nStatus & BLOCK_VALID_MASK) < nUpTo) {
            nStatus = (nStatus & ~BLOCK_VALID_MASK) | nUpTo;
            return true;
        }
        return false;
    }

    //! Build the skiplist pointer for this entry.
    void BuildSkip();

    //! Efficiently find an ancestor of this block.
    CBlockIndex* GetAncestor(int height);
    const CBlockIndex* GetAncestor(int height) const;
};

/** Used to marshal pointers into hashes for db storage. */
class CDiskBlockIndex : public CBlockIndex
{
public:
    uint256 hashPrev;
    uint256 hashNext;

    CDiskBlockIndex()
    {
        hashPrev = uint256();
        hashNext = uint256();
    }

    explicit CDiskBlockIndex(CBlockIndex* pindex) : CBlockIndex(*pindex)
    {
        hashPrev = (pprev ? pprev->GetBlockHash() : uint256());
    }

    ADD_SERIALIZE_METHODS;

    template <typename Stream, typename Operation>
    inline void SerializationOp(Stream& s, Operation ser_action, int nType, int nVersion)
    {
        if (!(nType & SER_GETHASH))
            READWRITE(VARINT(nVersion));

        READWRITE(VARINT(nHeight));
        READWRITE(VARINT(nStatus));
        READWRITE(VARINT(nTx));
        if (nStatus & (BLOCK_HAVE_DATA | BLOCK_HAVE_UNDO))
            READWRITE(VARINT(nFile));
        if (nStatus & BLOCK_HAVE_DATA)
            READWRITE(VARINT(nDataPos));
        if (nStatus & BLOCK_HAVE_UNDO)
            READWRITE(VARINT(nUndoPos));


        READWRITE(nMint);
        READWRITE(nMoneySupply);
        READWRITE(nFlags);
        READWRITE(nStakeModifier);
        if (IsProofOfStake()) {
            READWRITE(prevoutStake);
            READWRITE(nStakeTime);
        } else {
            const_cast<CDiskBlockIndex*>(this)->prevoutStake.SetNull();
            const_cast<CDiskBlockIndex*>(this)->nStakeTime = 0;
            const_cast<CDiskBlockIndex*>(this)->hashProofOfStake = uint256();
        }

        // block header
        READWRITE(this->nVersion);
        READWRITE(hashPrev);
        READWRITE(hashNext);
        READWRITE(hashMerkleRoot);
        READWRITE(nTime);
        READWRITE(nBits);
        READWRITE(nNonce);
        if(this->nVersion > 3) {
            READWRITE(nAccumulatorCheckpoint);
            READWRITE(mapZerocoinSupply);
            READWRITE(vMintDenominationsInBlock);
        }

    }

    uint256 GetBlockHash() const
    {
        CBlockHeader block;
        block.nVersion = nVersion;
        block.hashPrevBlock = hashPrev;
        block.hashMerkleRoot = hashMerkleRoot;
        block.nTime = nTime;
        block.nBits = nBits;
        block.nNonce = nNonce;
        block.nAccumulatorCheckpoint = nAccumulatorCheckpoint;
        return block.GetHash();
    }


    std::string ToString() const
    {
        std::string str = "CDiskBlockIndex(";
        str += CBlockIndex::ToString();
        str += strprintf("\n                hashBlock=%s, hashPrev=%s)",
            GetBlockHash().ToString(),
            hashPrev.ToString());
        return str;
    }
};

/** An in-memory indexed chain of blocks. */
class CChain
{
private:
    std::vector<CBlockIndex*> vChain;

public:
    /** Returns the index entry for the genesis block of this chain, or NULL if none. */
    CBlockIndex* Genesis() const
    {
        return vChain.size() > 0 ? vChain[0] : NULL;
    }

    /** Returns the index entry for the tip of this chain, or NULL if none. */
    CBlockIndex* Tip(bool fProofOfStake = false) const
    {
        if (vChain.size() < 1)
            return NULL;

        CBlockIndex* pindex = vChain[vChain.size() - 1];

        if (fProofOfStake) {
            while (pindex && pindex->pprev && !pindex->IsProofOfStake())
                pindex = pindex->pprev;
        }
        return pindex;
    }

    /** Returns the index entry at a particular height in this chain, or NULL if no such height exists. */
    CBlockIndex* operator[](int nHeight) const
    {
        if (nHeight < 0 || nHeight >= (int)vChain.size())
            return NULL;
        return vChain[nHeight];
    }

    /** Compare two chains efficiently. */
    friend bool operator==(const CChain& a, const CChain& b)
    {
        return a.vChain.size() == b.vChain.size() &&
               a.vChain[a.vChain.size() - 1] == b.vChain[b.vChain.size() - 1];
    }

    /** Efficiently check whether a block is present in this chain. */
    bool Contains(const CBlockIndex* pindex) const
    {
        return (*this)[pindex->nHeight] == pindex;
    }

    /** Find the successor of a block in this chain, or NULL if the given index is not found or is the tip. */
    CBlockIndex* Next(const CBlockIndex* pindex) const
    {
        if (Contains(pindex))
            return (*this)[pindex->nHeight + 1];
        else
            return NULL;
    }

    /** Return the maximal height in the chain. Is equal to chain.Tip() ? chain.Tip()->nHeight : -1. */
    int Height() const
    {
        return vChain.size() - 1;
    }

    /** Set/initialize a chain with a given tip. */
    void SetTip(CBlockIndex* pindex);

    /** Return a CBlockLocator that refers to a block in this chain (by default the tip). */
    CBlockLocator GetLocator(const CBlockIndex* pindex = NULL) const;

    /** Find the last common block between this chain and a block index entry. */
    const CBlockIndex* FindFork(const CBlockIndex* pindex) const;
};

#endif // BITCOIN_CHAIN_H