syncthing/lib/db/namespaced.go
Jakob Borg b50d57b7fd
lib/db: Refactor: use a Lowlevel type underneath Instance (ref #5198) (#5212)
This adds a thin type that holds the state associated with the
leveldb.DB, leaving the huge Instance type more or less stateless. Also
moves some keying stuff into the DB package so that other packages need
not know the keying specifics.

(This does not, yet, fix the cmd/stindex program, in order to keep the
diff size down. Hence the keying constants are still exported.)
2018-10-10 11:34:24 +02:00

180 lines
5.1 KiB
Go

// Copyright (C) 2014 The Syncthing Authors.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this file,
// You can obtain one at https://mozilla.org/MPL/2.0/.
package db
import (
"encoding/binary"
"time"
"github.com/syndtr/goleveldb/leveldb"
"github.com/syndtr/goleveldb/leveldb/util"
)
// NamespacedKV is a simple key-value store using a specific namespace within
// a leveldb.
type NamespacedKV struct {
db *Lowlevel
prefix []byte
}
// NewNamespacedKV returns a new NamespacedKV that lives in the namespace
// specified by the prefix.
func NewNamespacedKV(db *Lowlevel, prefix string) *NamespacedKV {
return &NamespacedKV{
db: db,
prefix: []byte(prefix),
}
}
// Reset removes all entries in this namespace.
func (n *NamespacedKV) Reset() {
it := n.db.NewIterator(util.BytesPrefix(n.prefix), nil)
defer it.Release()
batch := new(leveldb.Batch)
for it.Next() {
batch.Delete(it.Key())
if batch.Len() > batchFlushSize {
if err := n.db.Write(batch, nil); err != nil {
panic(err)
}
batch.Reset()
}
}
if batch.Len() > 0 {
if err := n.db.Write(batch, nil); err != nil {
panic(err)
}
}
}
// PutInt64 stores a new int64. Any existing value (even if of another type)
// is overwritten.
func (n *NamespacedKV) PutInt64(key string, val int64) {
keyBs := append(n.prefix, []byte(key)...)
var valBs [8]byte
binary.BigEndian.PutUint64(valBs[:], uint64(val))
n.db.Put(keyBs, valBs[:], nil)
}
// Int64 returns the stored value interpreted as an int64 and a boolean that
// is false if no value was stored at the key.
func (n *NamespacedKV) Int64(key string) (int64, bool) {
keyBs := append(n.prefix, []byte(key)...)
valBs, err := n.db.Get(keyBs, nil)
if err != nil {
return 0, false
}
val := binary.BigEndian.Uint64(valBs)
return int64(val), true
}
// PutTime stores a new time.Time. Any existing value (even if of another
// type) is overwritten.
func (n *NamespacedKV) PutTime(key string, val time.Time) {
keyBs := append(n.prefix, []byte(key)...)
valBs, _ := val.MarshalBinary() // never returns an error
n.db.Put(keyBs, valBs, nil)
}
// Time returns the stored value interpreted as a time.Time and a boolean
// that is false if no value was stored at the key.
func (n NamespacedKV) Time(key string) (time.Time, bool) {
var t time.Time
keyBs := append(n.prefix, []byte(key)...)
valBs, err := n.db.Get(keyBs, nil)
if err != nil {
return t, false
}
err = t.UnmarshalBinary(valBs)
return t, err == nil
}
// PutString stores a new string. Any existing value (even if of another type)
// is overwritten.
func (n *NamespacedKV) PutString(key, val string) {
keyBs := append(n.prefix, []byte(key)...)
n.db.Put(keyBs, []byte(val), nil)
}
// String returns the stored value interpreted as a string and a boolean that
// is false if no value was stored at the key.
func (n NamespacedKV) String(key string) (string, bool) {
keyBs := append(n.prefix, []byte(key)...)
valBs, err := n.db.Get(keyBs, nil)
if err != nil {
return "", false
}
return string(valBs), true
}
// PutBytes stores a new byte slice. Any existing value (even if of another type)
// is overwritten.
func (n *NamespacedKV) PutBytes(key string, val []byte) {
keyBs := append(n.prefix, []byte(key)...)
n.db.Put(keyBs, val, nil)
}
// Bytes returns the stored value as a raw byte slice and a boolean that
// is false if no value was stored at the key.
func (n NamespacedKV) Bytes(key string) ([]byte, bool) {
keyBs := append(n.prefix, []byte(key)...)
valBs, err := n.db.Get(keyBs, nil)
if err != nil {
return nil, false
}
return valBs, true
}
// PutBool stores a new boolean. Any existing value (even if of another type)
// is overwritten.
func (n *NamespacedKV) PutBool(key string, val bool) {
keyBs := append(n.prefix, []byte(key)...)
if val {
n.db.Put(keyBs, []byte{0x0}, nil)
} else {
n.db.Put(keyBs, []byte{0x1}, nil)
}
}
// Bool returns the stored value as a boolean and a boolean that
// is false if no value was stored at the key.
func (n NamespacedKV) Bool(key string) (bool, bool) {
keyBs := append(n.prefix, []byte(key)...)
valBs, err := n.db.Get(keyBs, nil)
if err != nil {
return false, false
}
return valBs[0] == 0x0, true
}
// Delete deletes the specified key. It is allowed to delete a nonexistent
// key.
func (n NamespacedKV) Delete(key string) {
keyBs := append(n.prefix, []byte(key)...)
n.db.Delete(keyBs, nil)
}
// Well known namespaces that can be instantiated without knowing the key
// details.
// NewDeviceStatisticsNamespace creates a KV namespace for device statistics
// for the given device.
func NewDeviceStatisticsNamespace(db *Lowlevel, device string) *NamespacedKV {
return NewNamespacedKV(db, string(KeyTypeDeviceStatistic)+device)
}
// NewFolderStatisticsNamespace creates a KV namespace for folder statistics
// for the given folder.
func NewFolderStatisticsNamespace(db *Lowlevel, folder string) *NamespacedKV {
return NewNamespacedKV(db, string(KeyTypeFolderStatistic)+folder)
}
// NewMiscDateNamespace creates a KV namespace for miscellaneous metadata.
func NewMiscDataNamespace(db *Lowlevel) *NamespacedKV {
return NewNamespacedKV(db, string(KeyTypeMiscData))
}