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package db
import (
"bytes"
"fmt"
"sync"
)
// IteratePrefix is a convenience function for iterating over a key domain
// restricted by prefix.
func IteratePrefix(db DB, prefix []byte) Iterator {
var start, end []byte
if len(prefix) == 0 {
start = nil
end = nil
} else {
start = cp(prefix)
end = cpIncr(prefix)
}
return db.Iterator(start, end)
}
/*
TODO: Make test, maybe rename.
// Like IteratePrefix but the iterator strips the prefix from the keys.
func IteratePrefixStripped(db DB, prefix []byte) Iterator {
start, end := ...
return newPrefixIterator(prefix, start, end, IteratePrefix(db, prefix))
}
*/
//----------------------------------------
// prefixDB
type prefixDB struct {
mtx sync.Mutex
prefix []byte
db DB
}
// NewPrefixDB lets you namespace multiple DBs within a single DB.
func NewPrefixDB(db DB, prefix []byte) *prefixDB {
return &prefixDB{
prefix: prefix,
db: db,
}
}
// Implements atomicSetDeleter.
func (pdb *prefixDB) Mutex() *sync.Mutex {
return &(pdb.mtx)
}
// Implements DB.
func (pdb *prefixDB) Get(key []byte) []byte {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
pkey := pdb.prefixed(key)
value := pdb.db.Get(pkey)
return value
}
// Implements DB.
func (pdb *prefixDB) Has(key []byte) bool {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
return pdb.db.Has(pdb.prefixed(key))
}
// Implements DB.
func (pdb *prefixDB) Set(key []byte, value []byte) {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
pkey := pdb.prefixed(key)
pdb.db.Set(pkey, value)
}
// Implements DB.
func (pdb *prefixDB) SetSync(key []byte, value []byte) {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
pdb.db.SetSync(pdb.prefixed(key), value)
}
// Implements DB.
func (pdb *prefixDB) Delete(key []byte) {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
pdb.db.Delete(pdb.prefixed(key))
}
// Implements DB.
func (pdb *prefixDB) DeleteSync(key []byte) {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
pdb.db.DeleteSync(pdb.prefixed(key))
}
// Implements DB.
func (pdb *prefixDB) Iterator(start, end []byte) Iterator {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
var pstart, pend []byte
pstart = append(cp(pdb.prefix), start...)
if end == nil {
pend = cpIncr(pdb.prefix)
} else {
pend = append(cp(pdb.prefix), end...)
}
return newPrefixIterator(
pdb.prefix,
start,
end,
pdb.db.Iterator(
pstart,
pend,
),
)
}
// Implements DB.
func (pdb *prefixDB) ReverseIterator(start, end []byte) Iterator {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
var pstart, pend []byte
if start == nil {
// This may cause the underlying iterator to start with
// an item which doesn't start with prefix. We will skip
// that item later in this function. See 'skipOne'.
pstart = cpIncr(pdb.prefix)
} else {
pstart = append(cp(pdb.prefix), start...)
}
if end == nil {
// This may cause the underlying iterator to end with an
// item which doesn't start with prefix. The
// prefixIterator will terminate iteration
// automatically upon detecting this.
pend = cpDecr(pdb.prefix)
} else {
pend = append(cp(pdb.prefix), end...)
}
ritr := pdb.db.ReverseIterator(pstart, pend)
if start == nil {
skipOne(ritr, cpIncr(pdb.prefix))
}
return newPrefixIterator(
pdb.prefix,
start,
end,
ritr,
)
}
// Implements DB.
// Panics if the underlying DB is not an
// atomicSetDeleter.
func (pdb *prefixDB) NewBatch() Batch {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
return newPrefixBatch(pdb.prefix, pdb.db.NewBatch())
}
/* NOTE: Uncomment to use memBatch instead of prefixBatch
// Implements atomicSetDeleter.
func (pdb *prefixDB) SetNoLock(key []byte, value []byte) {
pdb.db.(atomicSetDeleter).SetNoLock(pdb.prefixed(key), value)
}
// Implements atomicSetDeleter.
func (pdb *prefixDB) SetNoLockSync(key []byte, value []byte) {
pdb.db.(atomicSetDeleter).SetNoLockSync(pdb.prefixed(key), value)
}
// Implements atomicSetDeleter.
func (pdb *prefixDB) DeleteNoLock(key []byte) {
pdb.db.(atomicSetDeleter).DeleteNoLock(pdb.prefixed(key))
}
// Implements atomicSetDeleter.
func (pdb *prefixDB) DeleteNoLockSync(key []byte) {
pdb.db.(atomicSetDeleter).DeleteNoLockSync(pdb.prefixed(key))
}
*/
// Implements DB.
func (pdb *prefixDB) Close() {
pdb.mtx.Lock()
defer pdb.mtx.Unlock()
pdb.db.Close()
}
// Implements DB.
func (pdb *prefixDB) Print() {
fmt.Printf("prefix: %X\n", pdb.prefix)
itr := pdb.Iterator(nil, nil)
defer itr.Close()
for ; itr.Valid(); itr.Next() {
key := itr.Key()
value := itr.Value()
fmt.Printf("[%X]:\t[%X]\n", key, value)
}
}
// Implements DB.
func (pdb *prefixDB) Stats() map[string]string {
stats := make(map[string]string)
stats["prefixdb.prefix.string"] = string(pdb.prefix)
stats["prefixdb.prefix.hex"] = fmt.Sprintf("%X", pdb.prefix)
source := pdb.db.Stats()
for key, value := range source {
stats["prefixdb.source."+key] = value
}
return stats
}
func (pdb *prefixDB) prefixed(key []byte) []byte {
return append(cp(pdb.prefix), key...)
}
//----------------------------------------
// prefixBatch
type prefixBatch struct {
prefix []byte
source Batch
}
func newPrefixBatch(prefix []byte, source Batch) prefixBatch {
return prefixBatch{
prefix: prefix,
source: source,
}
}
func (pb prefixBatch) Set(key, value []byte) {
pkey := append(cp(pb.prefix), key...)
pb.source.Set(pkey, value)
}
func (pb prefixBatch) Delete(key []byte) {
pkey := append(cp(pb.prefix), key...)
pb.source.Delete(pkey)
}
func (pb prefixBatch) Write() {
pb.source.Write()
}
func (pb prefixBatch) WriteSync() {
pb.source.WriteSync()
}
//----------------------------------------
// prefixIterator
var _ Iterator = (*prefixIterator)(nil)
// Strips prefix while iterating from Iterator.
type prefixIterator struct {
prefix []byte
start []byte
end []byte
source Iterator
valid bool
}
func newPrefixIterator(prefix, start, end []byte, source Iterator) *prefixIterator {
if !source.Valid() || !bytes.HasPrefix(source.Key(), prefix) {
return &prefixIterator{
prefix: prefix,
start: start,
end: end,
source: source,
valid: false,
}
} else {
return &prefixIterator{
prefix: prefix,
start: start,
end: end,
source: source,
valid: true,
}
}
}
func (itr *prefixIterator) Domain() (start []byte, end []byte) {
return itr.start, itr.end
}
func (itr *prefixIterator) Valid() bool {
return itr.valid && itr.source.Valid()
}
func (itr *prefixIterator) Next() {
if !itr.valid {
panic("prefixIterator invalid, cannot call Next()")
}
itr.source.Next()
if !itr.source.Valid() || !bytes.HasPrefix(itr.source.Key(), itr.prefix) {
itr.source.Close()
itr.valid = false
return
}
}
func (itr *prefixIterator) Key() (key []byte) {
if !itr.valid {
panic("prefixIterator invalid, cannot call Key()")
}
return stripPrefix(itr.source.Key(), itr.prefix)
}
func (itr *prefixIterator) Value() (value []byte) {
if !itr.valid {
panic("prefixIterator invalid, cannot call Value()")
}
return itr.source.Value()
}
func (itr *prefixIterator) Close() {
itr.source.Close()
}
//----------------------------------------
func stripPrefix(key []byte, prefix []byte) (stripped []byte) {
if len(key) < len(prefix) {
panic("should not happen")
}
if !bytes.Equal(key[:len(prefix)], prefix) {
panic("should not happne")
}
return key[len(prefix):]
}
// If the first iterator item is skipKey, then
// skip it.
func skipOne(itr Iterator, skipKey []byte) {
if itr.Valid() {
if bytes.Equal(itr.Key(), skipKey) {
itr.Next()
}
}
}