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// Copyright (c) 2012-2022 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_DBWRAPPER_H
#define BITCOIN_DBWRAPPER_H

#include <clientversion.h>
#include <fs.h>
#include <logging.h>
#include <serialize.h>
#include <span.h>
#include <streams.h>

#include <cstddef>
#include <cstdint>
#include <exception>
#include <leveldb/db.h>
#include <leveldb/iterator.h>
#include <leveldb/options.h>
#include <leveldb/slice.h>
#include <leveldb/status.h>
#include <leveldb/write_batch.h>
#include <stdexcept>
#include <string>
#include <vector>
namespace leveldb {
class Env;
}

static const size_t DBWRAPPER_PREALLOC_KEY_SIZE = 64;
static const size_t DBWRAPPER_PREALLOC_VALUE_SIZE = 1024;

class dbwrapper_error : public std::runtime_error
{
public:
    explicit dbwrapper_error(const std::string& msg) : std::runtime_error(msg) {}
};

class CDBWrapper;

namespace dbwrapper {
    using leveldb::DestroyDB;
}

/** These should be considered an implementation detail of the specific database.
 */
namespace dbwrapper_private {

/** Handle database error by throwing dbwrapper_error exception.
 */
void HandleError(const leveldb::Status& status);

/** Work around circular dependency, as well as for testing in dbwrapper_tests.
 * Database obfuscation should be considered an implementation detail of the
 * specific database.
 */
const std::vector<unsigned char>& GetObfuscateKey(const CDBWrapper &w);

};

/** Batch of changes queued to be written to a CDBWrapper */
class CDBBatch
{
    friend class CDBWrapper;

private:
    const CDBWrapper &parent;
    leveldb::WriteBatch batch;

    DataStream ssKey{};
    CDataStream ssValue;

    size_t size_estimate{0};

public:
    /**
     * @param[in] _parent   CDBWrapper that this batch is to be submitted to
     */
    explicit CDBBatch(const CDBWrapper& _parent) : parent(_parent), ssValue(SER_DISK, CLIENT_VERSION){};

    void Clear()
    {
        batch.Clear();
        size_estimate = 0;
    }

    template <typename K, typename V>
    void Write(const K& key, const V& value)
    {
        ssKey.reserve(DBWRAPPER_PREALLOC_KEY_SIZE);
        ssKey << key;
        leveldb::Slice slKey((const char*)ssKey.data(), ssKey.size());

        ssValue.reserve(DBWRAPPER_PREALLOC_VALUE_SIZE);
        ssValue << value;
        ssValue.Xor(dbwrapper_private::GetObfuscateKey(parent));
        leveldb::Slice slValue((const char*)ssValue.data(), ssValue.size());

        batch.Put(slKey, slValue);
        // LevelDB serializes writes as:
        // - byte: header
        // - varint: key length (1 byte up to 127B, 2 bytes up to 16383B, ...)
        // - byte[]: key
        // - varint: value length
        // - byte[]: value
        // The formula below assumes the key and value are both less than 16k.
        size_estimate += 3 + (slKey.size() > 127) + slKey.size() + (slValue.size() > 127) + slValue.size();
        ssKey.clear();
        ssValue.clear();
    }

    template <typename K>
    void Erase(const K& key)
    {
        ssKey.reserve(DBWRAPPER_PREALLOC_KEY_SIZE);
        ssKey << key;
        leveldb::Slice slKey((const char*)ssKey.data(), ssKey.size());

        batch.Delete(slKey);
        // LevelDB serializes erases as:
        // - byte: header
        // - varint: key length
        // - byte[]: key
        // The formula below assumes the key is less than 16kB.
        size_estimate += 2 + (slKey.size() > 127) + slKey.size();
        ssKey.clear();
    }

    size_t SizeEstimate() const { return size_estimate; }
};

class CDBIterator
{
private:
    const CDBWrapper &parent;
    leveldb::Iterator *piter;

public:

    /**
     * @param[in] _parent          Parent CDBWrapper instance.
     * @param[in] _piter           The original leveldb iterator.
     */
    CDBIterator(const CDBWrapper &_parent, leveldb::Iterator *_piter) :
        parent(_parent), piter(_piter) { };
    ~CDBIterator();

    bool Valid() const;

    void SeekToFirst();

    template<typename K> void Seek(const K& key) {
        DataStream ssKey{};
        ssKey.reserve(DBWRAPPER_PREALLOC_KEY_SIZE);
        ssKey << key;
        leveldb::Slice slKey((const char*)ssKey.data(), ssKey.size());
        piter->Seek(slKey);
    }

    void Next();

    template<typename K> bool GetKey(K& key) {
        leveldb::Slice slKey = piter->key();
        try {
            DataStream ssKey{MakeByteSpan(slKey)};
            ssKey >> key;
        } catch (const std::exception&) {
            return false;
        }
        return true;
    }

    template<typename V> bool GetValue(V& value) {
        leveldb::Slice slValue = piter->value();
        try {
            CDataStream ssValue{MakeByteSpan(slValue), SER_DISK, CLIENT_VERSION};
            ssValue.Xor(dbwrapper_private::GetObfuscateKey(parent));
            ssValue >> value;
        } catch (const std::exception&) {
            return false;
        }
        return true;
    }
};

class CDBWrapper
{
    friend const std::vector<unsigned char>& dbwrapper_private::GetObfuscateKey(const CDBWrapper &w);
private:
    //! custom environment this database is using (may be nullptr in case of default environment)
    leveldb::Env* penv;

    //! database options used
    leveldb::Options options;

    //! options used when reading from the database
    leveldb::ReadOptions readoptions;

    //! options used when iterating over values of the database
    leveldb::ReadOptions iteroptions;

    //! options used when writing to the database
    leveldb::WriteOptions writeoptions;

    //! options used when sync writing to the database
    leveldb::WriteOptions syncoptions;

    //! the database itself
    leveldb::DB* pdb;

    //! the name of this database
    std::string m_name;

    //! a key used for optional XOR-obfuscation of the database
    std::vector<unsigned char> obfuscate_key;

    //! the key under which the obfuscation key is stored
    static const std::string OBFUSCATE_KEY_KEY;

    //! the length of the obfuscate key in number of bytes
    static const unsigned int OBFUSCATE_KEY_NUM_BYTES;

    std::vector<unsigned char> CreateObfuscateKey() const;

    //! path to filesystem storage
    const fs::path m_path;

    //! whether or not the database resides in memory
    bool m_is_memory;

public:
    /**
     * @param[in] path        Location in the filesystem where leveldb data will be stored.
     * @param[in] nCacheSize  Configures various leveldb cache settings.
     * @param[in] fMemory     If true, use leveldb's memory environment.
     * @param[in] fWipe       If true, remove all existing data.
     * @param[in] obfuscate   If true, store data obfuscated via simple XOR. If false, XOR
     *                        with a zero'd byte array.
     */
    CDBWrapper(const fs::path& path, size_t nCacheSize, bool fMemory = false, bool fWipe = false, bool obfuscate = false);
    ~CDBWrapper();

    CDBWrapper(const CDBWrapper&) = delete;
    CDBWrapper& operator=(const CDBWrapper&) = delete;

    template <typename K, typename V>
    bool Read(const K& key, V& value) const
    {
        DataStream ssKey{};
        ssKey.reserve(DBWRAPPER_PREALLOC_KEY_SIZE);
        ssKey << key;
        leveldb::Slice slKey((const char*)ssKey.data(), ssKey.size());

        std::string strValue;
        leveldb::Status status = pdb->Get(readoptions, slKey, &strValue);
        if (!status.ok()) {
            if (status.IsNotFound())
                return false;
            LogPrintf("LevelDB read failure: %s\n", status.ToString());
            dbwrapper_private::HandleError(status);
        }
        try {
            CDataStream ssValue{MakeByteSpan(strValue), SER_DISK, CLIENT_VERSION};
            ssValue.Xor(obfuscate_key);
            ssValue >> value;
        } catch (const std::exception&) {
            return false;
        }
        return true;
    }

    template <typename K, typename V>
    bool Write(const K& key, const V& value, bool fSync = false)
    {
        CDBBatch batch(*this);
        batch.Write(key, value);
        return WriteBatch(batch, fSync);
    }

    //! @returns filesystem path to the on-disk data.
    std::optional<fs::path> StoragePath() {
        if (m_is_memory) {
            return {};
        }
        return m_path;
    }

    template <typename K>
    bool Exists(const K& key) const
    {
        DataStream ssKey{};
        ssKey.reserve(DBWRAPPER_PREALLOC_KEY_SIZE);
        ssKey << key;
        leveldb::Slice slKey((const char*)ssKey.data(), ssKey.size());

        std::string strValue;
        leveldb::Status status = pdb->Get(readoptions, slKey, &strValue);
        if (!status.ok()) {
            if (status.IsNotFound())
                return false;
            LogPrintf("LevelDB read failure: %s\n", status.ToString());
            dbwrapper_private::HandleError(status);
        }
        return true;
    }

    template <typename K>
    bool Erase(const K& key, bool fSync = false)
    {
        CDBBatch batch(*this);
        batch.Erase(key);
        return WriteBatch(batch, fSync);
    }

    bool WriteBatch(CDBBatch& batch, bool fSync = false);

    // Get an estimate of LevelDB memory usage (in bytes).
    size_t DynamicMemoryUsage() const;

    CDBIterator *NewIterator()
    {
        return new CDBIterator(*this, pdb->NewIterator(iteroptions));
    }

    /**
     * Return true if the database managed by this class contains no entries.
     */
    bool IsEmpty();

    template<typename K>
    size_t EstimateSize(const K& key_begin, const K& key_end) const
    {
        DataStream ssKey1{}, ssKey2{};
        ssKey1.reserve(DBWRAPPER_PREALLOC_KEY_SIZE);
        ssKey2.reserve(DBWRAPPER_PREALLOC_KEY_SIZE);
        ssKey1 << key_begin;
        ssKey2 << key_end;
        leveldb::Slice slKey1((const char*)ssKey1.data(), ssKey1.size());
        leveldb::Slice slKey2((const char*)ssKey2.data(), ssKey2.size());
        uint64_t size = 0;
        leveldb::Range range(slKey1, slKey2);
        pdb->GetApproximateSizes(&range, 1, &size);
        return size;
    }
};

#endif // BITCOIN_DBWRAPPER_H