Esempio n. 1
0
// writeLevel0Table writes a memtable to a level-0 on-disk table.
//
// If no error is returned, it adds the file number of that on-disk table to
// d.pendingOutputs. It is the caller's responsibility to remove that fileNum
// from that set when it has been applied to d.versions.
//
// d.mu must be held when calling this, but the mutex may be dropped and
// re-acquired during the course of this method.
func (d *DB) writeLevel0Table(fs db.FileSystem, mem *memdb.MemDB) (meta fileMetadata, err error) {
	meta.fileNum = d.versions.nextFileNum()
	filename := dbFilename(d.dirname, fileTypeTable, meta.fileNum)
	d.pendingOutputs[meta.fileNum] = struct{}{}
	defer func(fileNum uint64) {
		if err != nil {
			delete(d.pendingOutputs, fileNum)
		}
	}(meta.fileNum)

	// Release the d.mu lock while doing I/O.
	// Note the unusual order: Unlock and then Lock.
	d.mu.Unlock()
	defer d.mu.Lock()

	var (
		file db.File
		tw   *table.Writer
		iter db.Iterator
	)
	defer func() {
		if iter != nil {
			err = firstError(err, iter.Close())
		}
		if tw != nil {
			err = firstError(err, tw.Close())
		}
		if file != nil {
			err = firstError(err, file.Close())
		}
		if err != nil {
			fs.Remove(filename)
			meta = fileMetadata{}
		}
	}()

	file, err = fs.Create(filename)
	if err != nil {
		return fileMetadata{}, err
	}
	tw = table.NewWriter(file, &db.Options{
		Comparer: d.icmp,
	})

	iter = mem.Find(nil, nil)
	iter.Next()
	meta.smallest = internalKey(iter.Key()).clone()
	for {
		meta.largest = iter.Key()
		if err1 := tw.Set(meta.largest, iter.Value(), nil); err1 != nil {
			return fileMetadata{}, err1
		}
		if !iter.Next() {
			break
		}
	}
	meta.largest = meta.largest.clone()

	if err1 := iter.Close(); err1 != nil {
		iter = nil
		return fileMetadata{}, err1
	}
	iter = nil

	if err1 := tw.Close(); err1 != nil {
		tw = nil
		return fileMetadata{}, err1
	}
	tw = nil

	// TODO: currently, closing a table.Writer closes its underlying file.
	// We have to re-open the file to Sync or Stat it, which seems stupid.
	file, err = fs.Open(filename)
	if err != nil {
		return fileMetadata{}, err
	}

	if err1 := file.Sync(); err1 != nil {
		return fileMetadata{}, err1
	}

	if stat, err1 := file.Stat(); err1 != nil {
		return fileMetadata{}, err1
	} else {
		size := stat.Size()
		if size < 0 {
			return fileMetadata{}, fmt.Errorf("leveldb: table file %q has negative size %d", filename, size)
		}
		meta.size = uint64(size)
	}

	// TODO: compaction stats.

	return meta, nil
}
Esempio n. 2
0
// internalGet looks up the first key/value pair whose (internal) key is >=
// ikey, according to the internal key ordering, and also returns whether or
// not that search was conclusive.
//
// If there is no such pair, or that pair's key and ikey do not share the same
// user key (according to ucmp), then conclusive will be false. Otherwise,
// conclusive will be true and:
//	* if that pair's key's kind is set, that pair's value will be returned,
//	* if that pair's key's kind is delete, db.ErrNotFound will be returned.
// If the returned error is non-nil then conclusive will be true.
func internalGet(t db.Iterator, ucmp db.Comparer, ukey []byte) (value []byte, conclusive bool, err error) {
	if !t.Next() {
		err = t.Close()
		return nil, err != nil, err
	}
	ikey0 := internalKey(t.Key())
	if !ikey0.valid() {
		t.Close()
		return nil, true, fmt.Errorf("leveldb: corrupt table: invalid internal key")
	}
	if ucmp.Compare(ukey, ikey0.ukey()) != 0 {
		err = t.Close()
		return nil, err != nil, err
	}
	if ikey0.kind() == internalKeyKindDelete {
		t.Close()
		return nil, true, db.ErrNotFound
	}
	return t.Value(), true, t.Close()
}