storj/satellite/metainfo/metabase/iterator.go
Fadila Khadar c9bbd83f96 satellite/metainfo/metabase: align object status to those already in use
Change-Id: I33b2ce7282838e1172b7cb92d4e76169c96fddcb
2020-11-17 14:07:42 +01:00

205 lines
4.5 KiB
Go

// Copyright (C) 2020 Storj Labs, Inc.
// See LICENSE for copying information.
package metabase
import (
"bytes"
"context"
"github.com/zeebo/errs"
"storj.io/common/uuid"
"storj.io/storj/private/tagsql"
)
// objectIterator enables iteration on objects in a bucket.
type objectsIterator struct {
db *DB
projectID uuid.UUID
bucketName string
status ObjectStatus
limitKey ObjectKey
batchSize int
curIndex int
curRows tagsql.Rows
cursor IterateCursor
}
func iterateAllVersions(ctx context.Context, db *DB, opts IterateObjects, fn func(context.Context, ObjectsIterator) error) (err error) {
defer mon.Task()(&ctx)(&err)
it := &objectsIterator{
db: db,
projectID: opts.ProjectID,
bucketName: opts.BucketName,
status: opts.Status,
limitKey: nextPrefix(opts.Prefix),
batchSize: opts.BatchSize,
curIndex: 0,
cursor: opts.Cursor,
}
// ensure batch size is reasonable
if it.batchSize <= 0 || it.batchSize > batchsizeLimit {
it.batchSize = batchsizeLimit
}
// start from either the cursor or prefix, depending on which is larger
if lessKey(it.cursor.Key, opts.Prefix) {
it.cursor.Key = beforeKey(opts.Prefix)
it.cursor.Version = -1
}
it.curRows, err = it.doNextQuery(ctx)
if err != nil {
return err
}
defer func() {
if rowsErr := it.curRows.Err(); rowsErr != nil {
err = errs.Combine(err, rowsErr)
}
err = errs.Combine(err, it.curRows.Close())
}()
return fn(ctx, it)
}
// Next returns true if there was another item and copy it in item.
func (it *objectsIterator) Next(ctx context.Context, item *ObjectEntry) bool {
next := it.curRows.Next()
if !next {
if it.curIndex < it.batchSize {
return false
}
if it.curRows.Err() != nil {
return false
}
rows, err := it.doNextQuery(ctx)
if err != nil {
return false
}
if it.curRows.Close() != nil {
_ = rows.Close()
return false
}
it.curRows = rows
it.curIndex = 0
if !it.curRows.Next() {
return false
}
}
err := it.scanItem(item)
if err != nil {
return false
}
item.ProjectID = it.projectID
item.BucketName = it.bucketName
it.curIndex++
it.cursor.Key = item.ObjectKey
it.cursor.Version = item.Version
return true
}
// doNextQuery executes query to fetch the next batch returning the rows.
func (it *objectsIterator) doNextQuery(ctx context.Context) (_ tagsql.Rows, err error) {
defer mon.Task()(&ctx)(&err)
if it.limitKey == "" {
return it.db.db.Query(ctx, `
SELECT
object_key, stream_id, version, status,
created_at, expires_at,
segment_count,
encrypted_metadata_nonce, encrypted_metadata, encrypted_metadata_encrypted_key,
total_encrypted_size, fixed_segment_size,
encryption
FROM objects
WHERE
project_id = $1 AND bucket_name = $2
AND status = $3
AND (object_key, version) > ($4, $5)
ORDER BY object_key ASC, version ASC
LIMIT $6
`, it.projectID, it.bucketName,
it.status,
[]byte(it.cursor.Key), int(it.cursor.Version),
it.batchSize,
)
}
return it.db.db.Query(ctx, `
SELECT
object_key, stream_id, version, status,
created_at, expires_at,
segment_count,
encrypted_metadata_nonce, encrypted_metadata, encrypted_metadata_encrypted_key,
total_encrypted_size, fixed_segment_size,
encryption
FROM objects
WHERE
project_id = $1 AND bucket_name = $2
AND status = $3
AND (object_key, version) > ($4, $5)
AND object_key < $6
ORDER BY object_key ASC, version ASC
LIMIT $7
`, it.projectID, it.bucketName,
it.status,
[]byte(it.cursor.Key), int(it.cursor.Version),
[]byte(it.limitKey),
it.batchSize,
)
}
// scanItem scans doNextQuery results into ObjectEntry.
func (it *objectsIterator) scanItem(item *ObjectEntry) error {
return it.curRows.Scan(
&item.ObjectKey, &item.StreamID, &item.Version, &item.Status,
&item.CreatedAt, &item.ExpiresAt,
&item.SegmentCount,
&item.EncryptedMetadataNonce, &item.EncryptedMetadata, &item.EncryptedMetadataEncryptedKey,
&item.TotalEncryptedSize, &item.FixedSegmentSize,
encryptionParameters{&item.Encryption},
)
}
// nextPrefix returns the next prefix of the same length.
func nextPrefix(key ObjectKey) ObjectKey {
if key == "" {
return ""
}
after := []byte(key)
after[len(after)-1]++
return ObjectKey(after)
}
// beforeKey returns the key just before the key.
func beforeKey(key ObjectKey) ObjectKey {
if key == "" {
return ""
}
before := []byte(key)
before[len(before)-1]--
return ObjectKey(append(before, 0xFF))
}
// lessKey returns whether a < b.
func lessKey(a, b ObjectKey) bool {
return bytes.Compare([]byte(a), []byte(b)) < 0
}