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// Copyright (c) 2009-2010 Satoshi Nakamoto
// Copyright (c) 2009-2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.

#ifndef BITCOIN_COINS_H
#define BITCOIN_COINS_H

#include <compressor.h>
#include <core_memusage.h>
#include <memusage.h>
#include <primitives/transaction.h>
#include <serialize.h>
#include <uint256.h>
#include <util/hasher.h>

#include <assert.h>
#include <stdint.h>

#include <functional>
#include <unordered_map>

/**
 * A UTXO entry.
 *
 * Serialized format:
 * - VARINT((coinbase ? 1 : 0) | (height << 1))
 * - the non-spent CTxOut (via TxOutCompression)
 */
class Coin
{
public:
    //! unspent transaction output
    CTxOut out;

    //! whether containing transaction was a coinbase
    unsigned int fCoinBase : 1;

    //! at which height this containing transaction was included in the active block chain
    uint32_t nHeight : 31;

    //! construct a Coin from a CTxOut and height/coinbase information.
    Coin(CTxOut&& outIn, int nHeightIn, bool fCoinBaseIn) : out(std::move(outIn)), fCoinBase(fCoinBaseIn), nHeight(nHeightIn) {}
    Coin(const CTxOut& outIn, int nHeightIn, bool fCoinBaseIn) : out(outIn), fCoinBase(fCoinBaseIn),nHeight(nHeightIn) {}

    void Clear() {
        out.SetNull();
        fCoinBase = false;
        nHeight = 0;
    }

    //! empty constructor
    Coin() : fCoinBase(false), nHeight(0) { }

    bool IsCoinBase() const {
        return fCoinBase;
    }

    template<typename Stream>
    void Serialize(Stream &s) const {
        assert(!IsSpent());
        uint32_t code = nHeight * uint32_t{2} + fCoinBase;
        ::Serialize(s, VARINT(code));
        ::Serialize(s, Using<TxOutCompression>(out));
    }

    template<typename Stream>
    void Unserialize(Stream &s) {
        uint32_t code = 0;
        ::Unserialize(s, VARINT(code));
        nHeight = code >> 1;
        fCoinBase = code & 1;
        ::Unserialize(s, Using<TxOutCompression>(out));
    }

    /** Either this coin never existed (see e.g. coinEmpty in coins.cpp), or it
      * did exist and has been spent.
      */
    bool IsSpent() const {
        return out.IsNull();
    }

    size_t DynamicMemoryUsage() const {
        return memusage::DynamicUsage(out.scriptPubKey);
    }
};

/**
 * A Coin in one level of the coins database caching hierarchy.
 *
 * A coin can either be:
 * - unspent or spent (in which case the Coin object will be nulled out - see Coin.Clear())
 * - DIRTY or not DIRTY
 * - FRESH or not FRESH
 *
 * Out of these 2^3 = 8 states, only some combinations are valid:
 * - unspent, FRESH, DIRTY (e.g. a new coin created in the cache)
 * - unspent, not FRESH, DIRTY (e.g. a coin changed in the cache during a reorg)
 * - unspent, not FRESH, not DIRTY (e.g. an unspent coin fetched from the parent cache)
 * - spent, FRESH, not DIRTY (e.g. a spent coin fetched from the parent cache)
 * - spent, not FRESH, DIRTY (e.g. a coin is spent and spentness needs to be flushed to the parent)
 */
struct CCoinsCacheEntry
{
    Coin coin; // The actual cached data.
    unsigned char flags;

    enum Flags {
        /**
         * DIRTY means the CCoinsCacheEntry is potentially different from the
         * version in the parent cache. Failure to mark a coin as DIRTY when
         * it is potentially different from the parent cache will cause a
         * consensus failure, since the coin's state won't get written to the
         * parent when the cache is flushed.
         */
        DIRTY = (1 << 0),
        /**
         * FRESH means the parent cache does not have this coin or that it is a
         * spent coin in the parent cache. If a FRESH coin in the cache is
         * later spent, it can be deleted entirely and doesn't ever need to be
         * flushed to the parent. This is a performance optimization. Marking a
         * coin as FRESH when it exists unspent in the parent cache will cause a
         * consensus failure, since it might not be deleted from the parent
         * when this cache is flushed.
         */
        FRESH = (1 << 1),
    };

    CCoinsCacheEntry() : flags(0) {}
    explicit CCoinsCacheEntry(Coin&& coin_) : coin(std::move(coin_)), flags(0) {}
    CCoinsCacheEntry(Coin&& coin_, unsigned char flag) : coin(std::move(coin_)), flags(flag) {}
};

typedef std::unordered_map<COutPoint, CCoinsCacheEntry, SaltedOutpointHasher> CCoinsMap;

/** Cursor for iterating over CoinsView state */
class CCoinsViewCursor
{
public:
    CCoinsViewCursor(const uint256 &hashBlockIn): hashBlock(hashBlockIn) {}
    virtual ~CCoinsViewCursor() {}

    virtual bool GetKey(COutPoint &key) const = 0;
    virtual bool GetValue(Coin &coin) const = 0;

    virtual bool Valid() const = 0;
    virtual void Next() = 0;

    //! Get best block at the time this cursor was created
    const uint256 &GetBestBlock() const { return hashBlock; }
private:
    uint256 hashBlock;
};

/** Abstract view on the open txout dataset. */
class CCoinsView
{
public:
    /** Retrieve the Coin (unspent transaction output) for a given outpoint.
     *  Returns true only when an unspent coin was found, which is returned in coin.
     *  When false is returned, coin's value is unspecified.
     */
    virtual bool GetCoin(const COutPoint &outpoint, Coin &coin) const;

    //! Just check whether a given outpoint is unspent.
    virtual bool HaveCoin(const COutPoint &outpoint) const;

    //! Retrieve the block hash whose state this CCoinsView currently represents
    virtual uint256 GetBestBlock() const;

    //! Retrieve the range of blocks that may have been only partially written.
    //! If the database is in a consistent state, the result is the empty vector.
    //! Otherwise, a two-element vector is returned consisting of the new and
    //! the old block hash, in that order.
    virtual std::vector<uint256> GetHeadBlocks() const;

    //! Do a bulk modification (multiple Coin changes + BestBlock change).
    //! The passed mapCoins can be modified.
    virtual bool BatchWrite(CCoinsMap &mapCoins, const uint256 &hashBlock, bool erase = true);

    //! Get a cursor to iterate over the whole state
    virtual std::unique_ptr<CCoinsViewCursor> Cursor() const;

    //! As we use CCoinsViews polymorphically, have a virtual destructor
    virtual ~CCoinsView() {}

    //! Estimate database size (0 if not implemented)
    virtual size_t EstimateSize() const { return 0; }
};


/** CCoinsView backed by another CCoinsView */
class CCoinsViewBacked : public CCoinsView
{
protected:
    CCoinsView *base;

public:
    CCoinsViewBacked(CCoinsView *viewIn);
    bool GetCoin(const COutPoint &outpoint, Coin &coin) const override;
    bool HaveCoin(const COutPoint &outpoint) const override;
    uint256 GetBestBlock() const override;
    std::vector<uint256> GetHeadBlocks() const override;
    void SetBackend(CCoinsView &viewIn);
    bool BatchWrite(CCoinsMap &mapCoins, const uint256 &hashBlock, bool erase = true) override;
    std::unique_ptr<CCoinsViewCursor> Cursor() const override;
    size_t EstimateSize() const override;
};


/** CCoinsView that adds a memory cache for transactions to another CCoinsView */
class CCoinsViewCache : public CCoinsViewBacked
{
protected:
    /**
     * Make mutable so that we can "fill the cache" even from Get-methods
     * declared as "const".
     */
    mutable uint256 hashBlock;
    mutable CCoinsMap cacheCoins;

    /* Cached dynamic memory usage for the inner Coin objects. */
    mutable size_t cachedCoinsUsage;

public:
    CCoinsViewCache(CCoinsView *baseIn);

    /**
     * By deleting the copy constructor, we prevent accidentally using it when one intends to create a cache on top of a base cache.
     */
    CCoinsViewCache(const CCoinsViewCache &) = delete;

    // Standard CCoinsView methods
    bool GetCoin(const COutPoint &outpoint, Coin &coin) const override;
    bool HaveCoin(const COutPoint &outpoint) const override;
    uint256 GetBestBlock() const override;
    void SetBestBlock(const uint256 &hashBlock);
    bool BatchWrite(CCoinsMap &mapCoins, const uint256 &hashBlock, bool erase = true) override;
    std::unique_ptr<CCoinsViewCursor> Cursor() const override {
        throw std::logic_error("CCoinsViewCache cursor iteration not supported.");
    }

    /**
     * Check if we have the given utxo already loaded in this cache.
     * The semantics are the same as HaveCoin(), but no calls to
     * the backing CCoinsView are made.
     */
    bool HaveCoinInCache(const COutPoint &outpoint) const;

    /**
     * Return a reference to Coin in the cache, or coinEmpty if not found. This is
     * more efficient than GetCoin.
     *
     * Generally, do not hold the reference returned for more than a short scope.
     * While the current implementation allows for modifications to the contents
     * of the cache while holding the reference, this behavior should not be relied
     * on! To be safe, best to not hold the returned reference through any other
     * calls to this cache.
     */
    const Coin& AccessCoin(const COutPoint &output) const;

    /**
     * Add a coin. Set possible_overwrite to true if an unspent version may
     * already exist in the cache.
     */
    void AddCoin(const COutPoint& outpoint, Coin&& coin, bool possible_overwrite);

    /**
     * Emplace a coin into cacheCoins without performing any checks, marking
     * the emplaced coin as dirty.
     *
     * NOT FOR GENERAL USE. Used only when loading coins from a UTXO snapshot.
     * @sa ChainstateManager::PopulateAndValidateSnapshot()
     */
    void EmplaceCoinInternalDANGER(COutPoint&& outpoint, Coin&& coin);

    /**
     * Spend a coin. Pass moveto in order to get the deleted data.
     * If no unspent output exists for the passed outpoint, this call
     * has no effect.
     */
    bool SpendCoin(const COutPoint &outpoint, Coin* moveto = nullptr);

    /**
     * Push the modifications applied to this cache to its base and wipe local state.
     * Failure to call this method or Sync() before destruction will cause the changes
     * to be forgotten.
     * If false is returned, the state of this cache (and its backing view) will be undefined.
     */
    bool Flush();

    /**
     * Push the modifications applied to this cache to its base while retaining
     * the contents of this cache (except for spent coins, which we erase).
     * Failure to call this method or Flush() before destruction will cause the changes
     * to be forgotten.
     * If false is returned, the state of this cache (and its backing view) will be undefined.
     */
    bool Sync();

    /**
     * Removes the UTXO with the given outpoint from the cache, if it is
     * not modified.
     */
    void Uncache(const COutPoint &outpoint);

    //! Calculate the size of the cache (in number of transaction outputs)
    unsigned int GetCacheSize() const;

    //! Calculate the size of the cache (in bytes)
    size_t DynamicMemoryUsage() const;

    //! Check whether all prevouts of the transaction are present in the UTXO set represented by this view
    bool HaveInputs(const CTransaction& tx) const;

    //! Force a reallocation of the cache map. This is required when downsizing
    //! the cache because the map's allocator may be hanging onto a lot of
    //! memory despite having called .clear().
    //!
    //! See: https://stackoverflow.com/questions/42114044/how-to-release-unordered-map-memory
    void ReallocateCache();

private:
    /**
     * @note this is marked const, but may actually append to `cacheCoins`, increasing
     * memory usage.
     */
    CCoinsMap::iterator FetchCoin(const COutPoint &outpoint) const;
};

//! Utility function to add all of a transaction's outputs to a cache.
//! When check is false, this assumes that overwrites are only possible for coinbase transactions.
//! When check is true, the underlying view may be queried to determine whether an addition is
//! an overwrite.
// TODO: pass in a boolean to limit these possible overwrites to known
// (pre-BIP34) cases.
void AddCoins(CCoinsViewCache& cache, const CTransaction& tx, int nHeight, bool check = false);

//! Utility function to find any unspent output with a given txid.
//! This function can be quite expensive because in the event of a transaction
//! which is not found in the cache, it can cause up to MAX_OUTPUTS_PER_BLOCK
//! lookups to database, so it should be used with care.
const Coin& AccessByTxid(const CCoinsViewCache& cache, const uint256& txid);

/**
 * This is a minimally invasive approach to shutdown on LevelDB read errors from the
 * chainstate, while keeping user interface out of the common library, which is shared
 * between bitcoind, and bitcoin-qt and non-server tools.
 *
 * Writes do not need similar protection, as failure to write is handled by the caller.
*/
class CCoinsViewErrorCatcher final : public CCoinsViewBacked
{
public:
    explicit CCoinsViewErrorCatcher(CCoinsView* view) : CCoinsViewBacked(view) {}

    void AddReadErrCallback(std::function<void()> f) {
        m_err_callbacks.emplace_back(std::move(f));
    }

    bool GetCoin(const COutPoint &outpoint, Coin &coin) const override;

private:
    /** A list of callbacks to execute upon leveldb read error. */
    std::vector<std::function<void()>> m_err_callbacks;

};

#endif // BITCOIN_COINS_H