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// Copyright 2014 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.

package ethdb

import (
    "strconv"
    "strings"
    "sync"
    "time"

    "github.com/ethereum/go-ethereum/log"
    "github.com/ethereum/go-ethereum/metrics"
    "github.com/syndtr/goleveldb/leveldb"
    "github.com/syndtr/goleveldb/leveldb/errors"
    "github.com/syndtr/goleveldb/leveldb/filter"
    "github.com/syndtr/goleveldb/leveldb/iterator"
    "github.com/syndtr/goleveldb/leveldb/opt"
    "github.com/syndtr/goleveldb/leveldb/util"
)

var OpenFileLimit = 64

type LDBDatabase struct {
    fn string      // filename for reporting
    db *leveldb.DB // LevelDB instance

    compTimeMeter  metrics.Meter // Meter for measuring the total time spent in database compaction
    compReadMeter  metrics.Meter // Meter for measuring the data read during compaction
    compWriteMeter metrics.Meter // Meter for measuring the data written during compaction
    diskReadMeter  metrics.Meter // Meter for measuring the effective amount of data read
    diskWriteMeter metrics.Meter // Meter for measuring the effective amount of data written

    quitLock sync.Mutex      // Mutex protecting the quit channel access
    quitChan chan chan error // Quit channel to stop the metrics collection before closing the database

    log log.Logger // Contextual logger tracking the database path
}

// NewLDBDatabase returns a LevelDB wrapped object.
func NewLDBDatabase(file string, cache int, handles int) (*LDBDatabase, error) {
    logger := log.New("database", file)

    // Ensure we have some minimal caching and file guarantees
    if cache < 16 {
        cache = 16
    }
    if handles < 16 {
        handles = 16
    }
    logger.Info("Allocated cache and file handles", "cache", cache, "handles", handles)

    // Open the db and recover any potential corruptions
    db, err := leveldb.OpenFile(file, &opt.Options{
        OpenFilesCacheCapacity: handles,
        BlockCacheCapacity:     cache / 2 * opt.MiB,
        WriteBuffer:            cache / 4 * opt.MiB, // Two of these are used internally
        Filter:                 filter.NewBloomFilter(10),
    })
    if _, corrupted := err.(*errors.ErrCorrupted); corrupted {
        db, err = leveldb.RecoverFile(file, nil)
    }
    // (Re)check for errors and abort if opening of the db failed
    if err != nil {
        return nil, err
    }
    return &LDBDatabase{
        fn:  file,
        db:  db,
        log: logger,
    }, nil
}

// Path returns the path to the database directory.
func (db *LDBDatabase) Path() string {
    return db.fn
}

// Put puts the given key / value to the queue
func (db *LDBDatabase) Put(key []byte, value []byte) error {
    // Generate the data to write to disk, update the meter and write
    //value = rle.Compress(value)

    return db.db.Put(key, value, nil)
}

func (db *LDBDatabase) Has(key []byte) (bool, error) {
    return db.db.Has(key, nil)
}

// Get returns the given key if it's present.
func (db *LDBDatabase) Get(key []byte) ([]byte, error) {
    // Retrieve the key and increment the miss counter if not found
    dat, err := db.db.Get(key, nil)
    if err != nil {
        return nil, err
    }
    return dat, nil
    //return rle.Decompress(dat)
}

// Delete deletes the key from the queue and database
func (db *LDBDatabase) Delete(key []byte) error {
    // Execute the actual operation
    return db.db.Delete(key, nil)
}

func (db *LDBDatabase) NewIterator() iterator.Iterator {
    return db.db.NewIterator(nil, nil)
}

// NewIteratorByPrefix returns a iterator to iterate over subset of database content with a particular prefix.
func (db *LDBDatabase) NewIteratorByPrefix(prefix []byte) iterator.Iterator {
    return db.db.NewIterator(util.BytesPrefix(prefix), nil)
}

func (db *LDBDatabase) Close() {
    // Stop the metrics collection to avoid internal database races
    db.quitLock.Lock()
    defer db.quitLock.Unlock()

    if db.quitChan != nil {
        errc := make(chan error)
        db.quitChan <- errc
        if err := <-errc; err != nil {
            db.log.Error("Metrics collection failed", "err", err)
        }
    }
    err := db.db.Close()
    if err == nil {
        db.log.Info("Database closed")
    } else {
        db.log.Error("Failed to close database", "err", err)
    }
}

func (db *LDBDatabase) LDB() *leveldb.DB {
    return db.db
}

// Meter configures the database metrics collectors and
func (db *LDBDatabase) Meter(prefix string) {
    // Short circuit metering if the metrics system is disabled
    if !metrics.Enabled {
        return
    }
    // Initialize all the metrics collector at the requested prefix
    db.compTimeMeter = metrics.NewRegisteredMeter(prefix+"compact/time", nil)
    db.compReadMeter = metrics.NewRegisteredMeter(prefix+"compact/input", nil)
    db.compWriteMeter = metrics.NewRegisteredMeter(prefix+"compact/output", nil)
    db.diskReadMeter = metrics.NewRegisteredMeter(prefix+"disk/read", nil)
    db.diskWriteMeter = metrics.NewRegisteredMeter(prefix+"disk/write", nil)

    // Create a quit channel for the periodic collector and run it
    db.quitLock.Lock()
    db.quitChan = make(chan chan error)
    db.quitLock.Unlock()

    go db.meter(3 * time.Second)
}

// meter periodically retrieves internal leveldb counters and reports them to
// the metrics subsystem.
//
// This is how a stats table look like (currently):
//   Compactions
//    Level |   Tables   |    Size(MB)   |    Time(sec)  |    Read(MB)   |   Write(MB)
//   -------+------------+---------------+---------------+---------------+---------------
//      0   |          0 |       0.00000 |       1.27969 |       0.00000 |      12.31098
//      1   |         85 |     109.27913 |      28.09293 |     213.92493 |     214.26294
//      2   |        523 |    1000.37159 |       7.26059 |      66.86342 |      66.77884
//      3   |        570 |    1113.18458 |       0.00000 |       0.00000 |       0.00000
//
// This is how the iostats look like (currently):
// Read(MB):3895.04860 Write(MB):3654.64712
func (db *LDBDatabase) meter(refresh time.Duration) {
    // Create the counters to store current and previous compaction values
    compactions := make([][]float64, 2)
    for i := 0; i < 2; i++ {
        compactions[i] = make([]float64, 3)
    }
    // Create storage for iostats.
    var iostats [2]float64
    // Iterate ad infinitum and collect the stats
    for i := 1; ; i++ {
        // Retrieve the database stats
        stats, err := db.db.GetProperty("leveldb.stats")
        if err != nil {
            db.log.Error("Failed to read database stats", "err", err)
            return
        }
        // Find the compaction table, skip the header
        lines := strings.Split(stats, "\n")
        for len(lines) > 0 && strings.TrimSpace(lines[0]) != "Compactions" {
            lines = lines[1:]
        }
        if len(lines) <= 3 {
            db.log.Error("Compaction table not found")
            return
        }
        lines = lines[3:]

        // Iterate over all the table rows, and accumulate the entries
        for j := 0; j < len(compactions[i%2]); j++ {
            compactions[i%2][j] = 0
        }
        for _, line := range lines {
            parts := strings.Split(line, "|")
            if len(parts) != 6 {
                break
            }
            for idx, counter := range parts[3:] {
                value, err := strconv.ParseFloat(strings.TrimSpace(counter), 64)
                if err != nil {
                    db.log.Error("Compaction entry parsing failed", "err", err)
                    return
                }
                compactions[i%2][idx] += value
            }
        }
        // Update all the requested meters
        if db.compTimeMeter != nil {
            db.compTimeMeter.Mark(int64((compactions[i%2][0] - compactions[(i-1)%2][0]) * 1000 * 1000 * 1000))
        }
        if db.compReadMeter != nil {
            db.compReadMeter.Mark(int64((compactions[i%2][1] - compactions[(i-1)%2][1]) * 1024 * 1024))
        }
        if db.compWriteMeter != nil {
            db.compWriteMeter.Mark(int64((compactions[i%2][2] - compactions[(i-1)%2][2]) * 1024 * 1024))
        }

        // Retrieve the database iostats.
        ioStats, err := db.db.GetProperty("leveldb.iostats")
        if err != nil {
            db.log.Error("Failed to read database iostats", "err", err)
            return
        }
        parts := strings.Split(ioStats, " ")
        if len(parts) < 2 {
            db.log.Error("Bad syntax of ioStats", "ioStats", ioStats)
            return
        }
        r := strings.Split(parts[0], ":")
        if len(r) < 2 {
            db.log.Error("Bad syntax of read entry", "entry", parts[0])
            return
        }
        read, err := strconv.ParseFloat(r[1], 64)
        if err != nil {
            db.log.Error("Read entry parsing failed", "err", err)
            return
        }
        w := strings.Split(parts[1], ":")
        if len(w) < 2 {
            db.log.Error("Bad syntax of write entry", "entry", parts[1])
            return
        }
        write, err := strconv.ParseFloat(w[1], 64)
        if err != nil {
            db.log.Error("Write entry parsing failed", "err", err)
            return
        }
        if db.diskReadMeter != nil {
            db.diskReadMeter.Mark(int64((read - iostats[0]) * 1024 * 1024))
        }
        if db.diskWriteMeter != nil {
            db.diskWriteMeter.Mark(int64((write - iostats[1]) * 1024 * 1024))
        }
        iostats[0] = read
        iostats[1] = write

        // Sleep a bit, then repeat the stats collection
        select {
        case errc := <-db.quitChan:
            // Quit requesting, stop hammering the database
            errc <- nil
            return

        case <-time.After(refresh):
            // Timeout, gather a new set of stats
        }
    }
}

func (db *LDBDatabase) NewBatch() Batch {
    return &ldbBatch{db: db.db, b: new(leveldb.Batch)}
}

type ldbBatch struct {
    db   *leveldb.DB
    b    *leveldb.Batch
    size int
}

func (b *ldbBatch) Put(key, value []byte) error {
    b.b.Put(key, value)
    b.size += len(value)
    return nil
}

func (b *ldbBatch) Write() error {
    return b.db.Write(b.b, nil)
}

func (b *ldbBatch) ValueSize() int {
    return b.size
}

func (b *ldbBatch) Reset() {
    b.b.Reset()
    b.size = 0
}

type table struct {
    db     Database
    prefix string
}

// NewTable returns a Database object that prefixes all keys with a given
// string.
func NewTable(db Database, prefix string) Database {
    return &table{
        db:     db,
        prefix: prefix,
    }
}

func (dt *table) Put(key []byte, value []byte) error {
    return dt.db.Put(append([]byte(dt.prefix), key...), value)
}

func (dt *table) Has(key []byte) (bool, error) {
    return dt.db.Has(append([]byte(dt.prefix), key...))
}

func (dt *table) Get(key []byte) ([]byte, error) {
    return dt.db.Get(append([]byte(dt.prefix), key...))
}

func (dt *table) Delete(key []byte) error {
    return dt.db.Delete(append([]byte(dt.prefix), key...))
}

func (dt *table) Close() {
    // Do nothing; don't close the underlying DB.
}

type tableBatch struct {
    batch  Batch
    prefix string
}

// NewTableBatch returns a Batch object which prefixes all keys with a given string.
func NewTableBatch(db Database, prefix string) Batch {
    return &tableBatch{db.NewBatch(), prefix}
}

func (dt *table) NewBatch() Batch {
    return &tableBatch{dt.db.NewBatch(), dt.prefix}
}

func (tb *tableBatch) Put(key, value []byte) error {
    return tb.batch.Put(append([]byte(tb.prefix), key...), value)
}

func (tb *tableBatch) Write() error {
    return tb.batch.Write()
}

func (tb *tableBatch) ValueSize() int {
    return tb.batch.ValueSize()
}

func (tb *tableBatch) Reset() {
    tb.batch.Reset()
}