frostfs-node/pkg/local_object_storage/metabase/list.go
Pavel Karpy 923f84722a Move to frostfs-node
Signed-off-by: Pavel Karpy <p.karpy@yadro.com>
2022-12-28 15:04:29 +03:00

220 lines
5.8 KiB
Go

package meta
import (
objectcore "github.com/TrueCloudLab/frostfs-node/pkg/core/object"
"github.com/TrueCloudLab/frostfs-node/pkg/local_object_storage/util/logicerr"
cid "github.com/TrueCloudLab/frostfs-sdk-go/container/id"
"github.com/TrueCloudLab/frostfs-sdk-go/object"
oid "github.com/TrueCloudLab/frostfs-sdk-go/object/id"
"go.etcd.io/bbolt"
)
// ErrEndOfListing is returned from object listing with cursor
// when storage can't return any more objects after provided
// cursor. Use nil cursor object to start listing again.
var ErrEndOfListing = logicerr.New("end of object listing")
// Cursor is a type for continuous object listing.
type Cursor struct {
bucketName []byte
inBucketOffset []byte
}
// ListPrm contains parameters for ListWithCursor operation.
type ListPrm struct {
count int
cursor *Cursor
}
// SetCount sets maximum amount of addresses that ListWithCursor should return.
func (l *ListPrm) SetCount(count uint32) {
l.count = int(count)
}
// SetCursor sets cursor for ListWithCursor operation. For initial request
// ignore this param or use nil value. For consecutive requests, use value
// from ListRes.
func (l *ListPrm) SetCursor(cursor *Cursor) {
l.cursor = cursor
}
// ListRes contains values returned from ListWithCursor operation.
type ListRes struct {
addrList []objectcore.AddressWithType
cursor *Cursor
}
// AddressList returns addresses selected by ListWithCursor operation.
func (l ListRes) AddressList() []objectcore.AddressWithType {
return l.addrList
}
// Cursor returns cursor for consecutive listing requests.
func (l ListRes) Cursor() *Cursor {
return l.cursor
}
// ListWithCursor lists physical objects available in metabase starting from
// cursor. Includes objects of all types. Does not include inhumed objects.
// Use cursor value from response for consecutive requests.
//
// Returns ErrEndOfListing if there are no more objects to return or count
// parameter set to zero.
func (db *DB) ListWithCursor(prm ListPrm) (res ListRes, err error) {
db.modeMtx.RLock()
defer db.modeMtx.RUnlock()
if db.mode.NoMetabase() {
return res, ErrDegradedMode
}
result := make([]objectcore.AddressWithType, 0, prm.count)
err = db.boltDB.View(func(tx *bbolt.Tx) error {
res.addrList, res.cursor, err = db.listWithCursor(tx, result, prm.count, prm.cursor)
return err
})
return res, err
}
func (db *DB) listWithCursor(tx *bbolt.Tx, result []objectcore.AddressWithType, count int, cursor *Cursor) ([]objectcore.AddressWithType, *Cursor, error) {
threshold := cursor == nil // threshold is a flag to ignore cursor
var bucketName []byte
c := tx.Cursor()
name, _ := c.First()
if !threshold {
name, _ = c.Seek(cursor.bucketName)
}
var containerID cid.ID
var offset []byte
graveyardBkt := tx.Bucket(graveyardBucketName)
garbageBkt := tx.Bucket(garbageBucketName)
var rawAddr = make([]byte, cidSize, addressKeySize)
loop:
for ; name != nil; name, _ = c.Next() {
cidRaw, prefix := parseContainerIDWithPrefix(&containerID, name)
if cidRaw == nil {
continue
}
var objType object.Type
switch prefix {
case primaryPrefix:
objType = object.TypeRegular
case storageGroupPrefix:
objType = object.TypeStorageGroup
case lockersPrefix:
objType = object.TypeLock
case tombstonePrefix:
objType = object.TypeTombstone
default:
continue
}
bkt := tx.Bucket(name)
if bkt != nil {
copy(rawAddr, cidRaw)
result, offset, cursor = selectNFromBucket(bkt, objType, graveyardBkt, garbageBkt, rawAddr, containerID,
result, count, cursor, threshold)
}
bucketName = name
if len(result) >= count {
break loop
}
// set threshold flag after first `selectNFromBucket` invocation
// first invocation must look for cursor object
threshold = true
}
if offset != nil {
// new slice is much faster but less memory efficient
// we need to copy, because offset exists during bbolt tx
cursor.inBucketOffset = make([]byte, len(offset))
copy(cursor.inBucketOffset, offset)
}
if len(result) == 0 {
return nil, nil, ErrEndOfListing
}
// new slice is much faster but less memory efficient
// we need to copy, because bucketName exists during bbolt tx
cursor.bucketName = make([]byte, len(bucketName))
copy(cursor.bucketName, bucketName)
return result, cursor, nil
}
// selectNFromBucket similar to selectAllFromBucket but uses cursor to find
// object to start selecting from. Ignores inhumed objects.
func selectNFromBucket(bkt *bbolt.Bucket, // main bucket
objType object.Type, // type of the objects stored in the main bucket
graveyardBkt, garbageBkt *bbolt.Bucket, // cached graveyard buckets
cidRaw []byte, // container ID prefix, optimization
cnt cid.ID, // container ID
to []objectcore.AddressWithType, // listing result
limit int, // stop listing at `limit` items in result
cursor *Cursor, // start from cursor object
threshold bool, // ignore cursor and start immediately
) ([]objectcore.AddressWithType, []byte, *Cursor) {
if cursor == nil {
cursor = new(Cursor)
}
count := len(to)
c := bkt.Cursor()
k, _ := c.First()
offset := cursor.inBucketOffset
if !threshold {
c.Seek(offset)
k, _ = c.Next() // we are looking for objects _after_ the cursor
}
for ; k != nil; k, _ = c.Next() {
if count >= limit {
break
}
var obj oid.ID
if err := obj.Decode(k); err != nil {
break
}
offset = k
if inGraveyardWithKey(append(cidRaw, k...), graveyardBkt, garbageBkt) > 0 {
continue
}
var a oid.Address
a.SetContainer(cnt)
a.SetObject(obj)
to = append(to, objectcore.AddressWithType{Address: a, Type: objType})
count++
}
return to, offset, cursor
}
func parseContainerIDWithPrefix(containerID *cid.ID, name []byte) ([]byte, byte) {
if len(name) < bucketKeySize {
return nil, 0
}
rawID := name[1:bucketKeySize]
if err := containerID.Decode(rawID); err != nil {
return nil, 0
}
return rawID, name[0]
}