7ba8a627bc
By using a separate function for deleting the latest object and fetching the latest version we can simplify some of the code. However, there can be more performant approaches, such as using ON CONFLICT for updating the existing object or using select and delete in the same query in databases that support it. Change-Id: I52bc3f9fa025f44d05ee010723ffb81f5bd2a2d7
553 lines
16 KiB
Go
553 lines
16 KiB
Go
// Copyright (C) 2020 Storj Labs, Inc.
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// See LICENSE for copying information.
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package metabase
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import (
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"database/sql/driver"
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"math"
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"sort"
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"strconv"
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"strings"
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"github.com/zeebo/errs"
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"storj.io/common/storj"
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"storj.io/common/uuid"
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)
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var (
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// Error is the default error for metabase.
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Error = errs.Class("metabase")
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// ErrObjectAlreadyExists is used to indicate that object already exists.
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ErrObjectAlreadyExists = errs.Class("object already exists")
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// ErrPendingObjectMissing is used to indicate a pending object is no longer accessible.
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ErrPendingObjectMissing = errs.Class("pending object missing")
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// ErrPermissionDenied general error for denying permission.
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ErrPermissionDenied = errs.Class("permission denied")
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)
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// Common constants for segment keys.
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const (
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Delimiter = '/'
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LastSegmentName = "l"
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LastSegmentIndex = uint32(math.MaxUint32)
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)
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// ListLimit is the maximum number of items the client can request for listing.
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const ListLimit = intLimitRange(1000)
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// MoveSegmentLimit is the maximum number of segments that can be moved.
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const MoveSegmentLimit = int64(10000)
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// CopySegmentLimit is the maximum number of segments that can be copied.
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const CopySegmentLimit = int64(10000)
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// batchsizeLimit specifies up to how many items fetch from the storage layer at
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// a time.
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//
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// NOTE: A frequent pattern while listing items is to list up to ListLimit items
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// and see whether there is more by trying to fetch another one. If the caller
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// requests a list of ListLimit size and batchSizeLimit equals ListLimit, we
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// would have queried another batch on that check for more items. Most of these
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// results, except the first one, would be thrown away by callers. To prevent
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// this from happening, we add 1 to batchSizeLimit.
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const batchsizeLimit = ListLimit + 1
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// BucketPrefix consists of <project id>/<bucket name>.
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type BucketPrefix string
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// BucketLocation defines a bucket that belongs to a project.
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type BucketLocation struct {
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ProjectID uuid.UUID
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BucketName string
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}
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// ParseBucketPrefix parses BucketPrefix.
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func ParseBucketPrefix(prefix BucketPrefix) (BucketLocation, error) {
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elements := strings.Split(string(prefix), "/")
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if len(elements) != 2 {
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return BucketLocation{}, Error.New("invalid prefix %q", prefix)
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}
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projectID, err := uuid.FromString(elements[0])
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if err != nil {
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return BucketLocation{}, Error.Wrap(err)
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}
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return BucketLocation{
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ProjectID: projectID,
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BucketName: elements[1],
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}, nil
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}
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// Verify object location fields.
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func (loc BucketLocation) Verify() error {
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switch {
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case loc.ProjectID.IsZero():
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return ErrInvalidRequest.New("ProjectID missing")
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case loc.BucketName == "":
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return ErrInvalidRequest.New("BucketName missing")
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}
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return nil
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}
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// ParseCompactBucketPrefix parses BucketPrefix.
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func ParseCompactBucketPrefix(compactPrefix []byte) (BucketLocation, error) {
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if len(compactPrefix) < len(uuid.UUID{}) {
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return BucketLocation{}, Error.New("invalid prefix %q", compactPrefix)
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}
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var loc BucketLocation
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copy(loc.ProjectID[:], compactPrefix)
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loc.BucketName = string(compactPrefix[len(loc.ProjectID):])
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return loc, nil
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}
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// Prefix converts bucket location into bucket prefix.
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func (loc BucketLocation) Prefix() BucketPrefix {
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return BucketPrefix(loc.ProjectID.String() + "/" + loc.BucketName)
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}
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// CompactPrefix converts bucket location into bucket prefix with compact project ID.
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func (loc BucketLocation) CompactPrefix() []byte {
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xs := make([]byte, 0, len(loc.ProjectID)+len(loc.BucketName))
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xs = append(xs, loc.ProjectID[:]...)
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xs = append(xs, []byte(loc.BucketName)...)
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return xs
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}
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// ObjectKey is an encrypted object key encoded using Path Component Encoding.
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// It is not ascii safe.
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type ObjectKey string
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// Value converts a ObjectKey to a database field.
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func (o ObjectKey) Value() (driver.Value, error) {
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return []byte(o), nil
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}
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// Scan extracts a ObjectKey from a database field.
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func (o *ObjectKey) Scan(value interface{}) error {
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switch value := value.(type) {
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case []byte:
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*o = ObjectKey(value)
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return nil
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default:
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return Error.New("unable to scan %T into ObjectKey", value)
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}
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}
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// ObjectLocation is decoded object key information.
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type ObjectLocation struct {
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ProjectID uuid.UUID
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BucketName string
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ObjectKey ObjectKey
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}
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// Bucket returns bucket location this object belongs to.
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func (obj ObjectLocation) Bucket() BucketLocation {
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return BucketLocation{
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ProjectID: obj.ProjectID,
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BucketName: obj.BucketName,
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}
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}
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// Verify object location fields.
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func (obj ObjectLocation) Verify() error {
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switch {
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case obj.ProjectID.IsZero():
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return ErrInvalidRequest.New("ProjectID missing")
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case obj.BucketName == "":
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return ErrInvalidRequest.New("BucketName missing")
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case len(obj.ObjectKey) == 0:
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return ErrInvalidRequest.New("ObjectKey missing")
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}
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return nil
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}
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// SegmentKey is an encoded metainfo key. This is used as the key in pointerdb key-value store.
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type SegmentKey []byte
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// SegmentLocation is decoded segment key information.
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type SegmentLocation struct {
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ProjectID uuid.UUID
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BucketName string
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ObjectKey ObjectKey
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Position SegmentPosition
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}
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// Bucket returns bucket location this segment belongs to.
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func (seg SegmentLocation) Bucket() BucketLocation {
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return BucketLocation{
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ProjectID: seg.ProjectID,
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BucketName: seg.BucketName,
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}
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}
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// Object returns the object location associated with this segment location.
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func (seg SegmentLocation) Object() ObjectLocation {
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return ObjectLocation{
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ProjectID: seg.ProjectID,
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BucketName: seg.BucketName,
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ObjectKey: seg.ObjectKey,
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}
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}
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// ParseSegmentKey parses an segment key into segment location.
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func ParseSegmentKey(encoded SegmentKey) (SegmentLocation, error) {
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elements := strings.SplitN(string(encoded), "/", 4)
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if len(elements) < 4 {
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return SegmentLocation{}, Error.New("invalid key %q", encoded)
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}
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projectID, err := uuid.FromString(elements[0])
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if err != nil {
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return SegmentLocation{}, Error.New("invalid key %q", encoded)
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}
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var position SegmentPosition
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if elements[1] == LastSegmentName {
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position.Index = LastSegmentIndex
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} else {
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if !strings.HasPrefix(elements[1], "s") {
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return SegmentLocation{}, Error.New("invalid %q, missing segment prefix in %q", string(encoded), elements[1])
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}
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// skip 's' prefix from segment index we got
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parsed, err := strconv.ParseUint(elements[1][1:], 10, 64)
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if err != nil {
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return SegmentLocation{}, Error.New("invalid %q, segment number %q", string(encoded), elements[1])
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}
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position = SegmentPositionFromEncoded(parsed)
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}
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return SegmentLocation{
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ProjectID: projectID,
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BucketName: elements[2],
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Position: position,
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ObjectKey: ObjectKey(elements[3]),
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}, nil
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}
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// Encode converts segment location into a segment key.
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func (seg SegmentLocation) Encode() SegmentKey {
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segment := LastSegmentName
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if seg.Position.Index != LastSegmentIndex {
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segment = "s" + strconv.FormatUint(seg.Position.Encode(), 10)
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}
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return SegmentKey(storj.JoinPaths(
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seg.ProjectID.String(),
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segment,
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seg.BucketName,
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string(seg.ObjectKey),
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))
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}
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// Verify segment location fields.
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func (seg SegmentLocation) Verify() error {
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switch {
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case seg.ProjectID.IsZero():
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return ErrInvalidRequest.New("ProjectID missing")
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case seg.BucketName == "":
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return ErrInvalidRequest.New("BucketName missing")
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case len(seg.ObjectKey) == 0:
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return ErrInvalidRequest.New("ObjectKey missing")
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}
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return nil
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}
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// ObjectStream uniquely defines an object and stream.
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type ObjectStream struct {
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ProjectID uuid.UUID
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BucketName string
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ObjectKey ObjectKey
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Version Version
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StreamID uuid.UUID
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}
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// Verify object stream fields.
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func (obj *ObjectStream) Verify() error {
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switch {
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case obj.ProjectID.IsZero():
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return ErrInvalidRequest.New("ProjectID missing")
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case obj.BucketName == "":
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return ErrInvalidRequest.New("BucketName missing")
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case len(obj.ObjectKey) == 0:
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return ErrInvalidRequest.New("ObjectKey missing")
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case obj.Version < 0:
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return ErrInvalidRequest.New("Version invalid: %v", obj.Version)
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case obj.StreamID.IsZero():
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return ErrInvalidRequest.New("StreamID missing")
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}
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return nil
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}
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// Location returns object location.
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func (obj *ObjectStream) Location() ObjectLocation {
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return ObjectLocation{
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ProjectID: obj.ProjectID,
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BucketName: obj.BucketName,
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ObjectKey: obj.ObjectKey,
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}
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}
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// PendingObjectStream uniquely defines an pending object and stream.
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type PendingObjectStream struct {
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ProjectID uuid.UUID
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BucketName string
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ObjectKey ObjectKey
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StreamID uuid.UUID
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}
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// Verify object stream fields.
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func (obj *PendingObjectStream) Verify() error {
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switch {
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case obj.ProjectID.IsZero():
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return ErrInvalidRequest.New("ProjectID missing")
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case obj.BucketName == "":
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return ErrInvalidRequest.New("BucketName missing")
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case len(obj.ObjectKey) == 0:
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return ErrInvalidRequest.New("ObjectKey missing")
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case obj.StreamID.IsZero():
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return ErrInvalidRequest.New("StreamID missing")
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}
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return nil
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}
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// SegmentPosition is segment part and index combined.
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type SegmentPosition struct {
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Part uint32
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Index uint32
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}
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// SegmentPositionFromEncoded decodes an uint64 into a SegmentPosition.
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func SegmentPositionFromEncoded(v uint64) SegmentPosition {
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return SegmentPosition{
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Part: uint32(v >> 32),
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Index: uint32(v),
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}
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}
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// Encode encodes a segment position into an uint64, that can be stored in a database.
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func (pos SegmentPosition) Encode() uint64 { return uint64(pos.Part)<<32 | uint64(pos.Index) }
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// Less returns whether pos should before b.
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func (pos SegmentPosition) Less(b SegmentPosition) bool { return pos.Encode() < b.Encode() }
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// Version is used to uniquely identify objects with the same key.
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type Version int64
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// NextVersion means that the version should be chosen automatically.
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const NextVersion = Version(0)
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// DefaultVersion represents default version 1.
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const DefaultVersion = Version(1)
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// PendingVersion represents version that is used for pending objects (with UsePendingObjects).
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const PendingVersion = Version(0)
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// MaxVersion represents maximum version.
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// Version in DB is represented as INT4.
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const MaxVersion = Version(math.MaxInt32)
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// ObjectStatus defines the status that the object is in.
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//
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// There are two types of objects:
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// - Regular (i.e. Committed), which is used for storing data.
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// - Delete Marker, which is used to show that an object has been deleted, while preserving older versions.
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//
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// Each object can be in two states:
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// - Pending, meaning that it's still being uploaded.
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// - Committed, meaning it has finished uploading.
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// Delete Markers are always considered committed, because they do not require committing.
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//
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// There are two options for versioning:
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// - Unversioned, there's only one allowed per project, bucket and encryption key.
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// - Versioned, there can be any number of such objects for a given project, bucket and encryption key.
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//
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// These lead to a few meaningful distinct statuses, listed below.
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type ObjectStatus byte
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const (
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// Pending means that the object is being uploaded or that the client failed during upload.
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// The failed upload may be continued in the future.
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Pending = ObjectStatus(1)
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// Deleting used to one of the stages, which is not in use anymore.
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_ = ObjectStatus(2)
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// CommittedUnversioned means that the object is finished and should be visible for general listing.
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CommittedUnversioned = ObjectStatus(3)
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// CommittedVersioned means that the object is finished and should be visible for general listing.
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CommittedVersioned = ObjectStatus(4)
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// DeleteMarkerUnversioned is inserted when an unversioned object is deleted in a versioning suspended bucket.
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DeleteMarkerUnversioned = ObjectStatus(5)
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// DeleteMarkerVersioned is inserted when an object is deleted in a versioning enabled bucket.
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DeleteMarkerVersioned = ObjectStatus(6)
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// Constants that can be used while constructing SQL queries.
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statusPending = "1"
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statusCommittedUnversioned = "3"
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statusCommittedVersioned = "4"
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statusesCommitted = "(3,4)"
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statusDeleteMarkerUnversioned = "5"
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statusDeleteMarkerVersioned = "6"
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statusesDeleteMarker = "(5,6)"
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statusesUnversioned = "(3,5)"
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)
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// stub uses so the linter wouldn't complain.
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var (
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_ = CommittedVersioned
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_ = DeleteMarkerUnversioned
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_ = DeleteMarkerVersioned
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_ = statusCommittedVersioned
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_ = statusesCommitted
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_ = statusDeleteMarkerUnversioned
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_ = statusDeleteMarkerVersioned
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_ = statusesDeleteMarker
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)
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// Pieces defines information for pieces.
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type Pieces []Piece
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// Piece defines information for a segment piece.
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type Piece struct {
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Number uint16
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StorageNode storj.NodeID
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}
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// Verify verifies pieces.
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func (p Pieces) Verify() error {
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if len(p) == 0 {
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return ErrInvalidRequest.New("pieces missing")
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}
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currentPiece := p[0]
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if currentPiece.StorageNode == (storj.NodeID{}) {
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return ErrInvalidRequest.New("piece number %d is missing storage node id", currentPiece.Number)
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}
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for _, piece := range p[1:] {
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switch {
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case piece.Number == currentPiece.Number:
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return ErrInvalidRequest.New("duplicated piece number %d", piece.Number)
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case piece.Number < currentPiece.Number:
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return ErrInvalidRequest.New("pieces should be ordered")
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case piece.StorageNode == (storj.NodeID{}):
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return ErrInvalidRequest.New("piece number %d is missing storage node id", piece.Number)
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}
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currentPiece = piece
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}
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return nil
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}
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// Equal checks if Pieces structures are equal.
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func (p Pieces) Equal(pieces Pieces) bool {
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if len(p) != len(pieces) {
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return false
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}
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first := make(Pieces, len(p))
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second := make(Pieces, len(p))
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copy(first, p)
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copy(second, pieces)
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sort.Slice(first, func(i, j int) bool {
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return first[i].Number < first[j].Number
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})
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sort.Slice(second, func(i, j int) bool {
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return second[i].Number < second[j].Number
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})
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for i := range first {
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if first[i].Number != second[i].Number {
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return false
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}
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if first[i].StorageNode != second[i].StorageNode {
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return false
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}
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}
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return true
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}
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// Len is the number of pieces.
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func (p Pieces) Len() int { return len(p) }
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// Less reports whether the piece with
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// index i should sort before the piece with index j.
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func (p Pieces) Less(i, j int) bool { return p[i].Number < p[j].Number }
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// Swap swaps the pieces with indexes i and j.
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func (p Pieces) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
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// Add adds the specified pieces and returns the updated Pieces.
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func (p Pieces) Add(piecesToAdd Pieces) (Pieces, error) {
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return p.Update(piecesToAdd, nil)
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}
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// Remove removes the specified pieces from the original pieces
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// and returns the updated Pieces.
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func (p Pieces) Remove(piecesToRemove Pieces) (Pieces, error) {
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if len(p) == 0 {
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return Pieces{}, ErrInvalidRequest.New("pieces missing")
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}
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return p.Update(nil, piecesToRemove)
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}
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// Update adds piecesToAdd pieces and removes piecesToRemove pieces from
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// the original pieces struct and returns the updated Pieces.
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//
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// It removes the piecesToRemove only if all piece number, node id match.
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//
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// When adding a piece, it checks if the piece already exists using the piece Number
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// If a piece already exists, it returns an empty pieces struct and an error.
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func (p Pieces) Update(piecesToAdd, piecesToRemove Pieces) (Pieces, error) {
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pieceMap := make(map[uint16]Piece)
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for _, piece := range p {
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pieceMap[piece.Number] = piece
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}
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// remove the piecesToRemove from the map
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// only if all piece number, node id match
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for _, piece := range piecesToRemove {
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if piece == (Piece{}) {
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continue
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}
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existing := pieceMap[piece.Number]
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if existing != (Piece{}) && existing.StorageNode == piece.StorageNode {
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delete(pieceMap, piece.Number)
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}
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}
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// add the piecesToAdd to the map
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for _, piece := range piecesToAdd {
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if piece == (Piece{}) {
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continue
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}
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_, exists := pieceMap[piece.Number]
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if exists {
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return Pieces{}, Error.New("piece to add already exists (piece no: %d)", piece.Number)
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}
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pieceMap[piece.Number] = piece
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}
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newPieces := make(Pieces, 0, len(pieceMap))
|
|
for _, piece := range pieceMap {
|
|
newPieces = append(newPieces, piece)
|
|
}
|
|
sort.Sort(newPieces)
|
|
|
|
return newPieces, nil
|
|
}
|
|
|
|
// FindByNum finds a piece among the Pieces with the given piece number.
|
|
// If no such piece is found, `found` will be returned false.
|
|
func (p Pieces) FindByNum(pieceNum int) (_ Piece, found bool) {
|
|
for _, piece := range p {
|
|
if int(piece.Number) == pieceNum {
|
|
return piece, true
|
|
}
|
|
}
|
|
return Piece{}, false
|
|
}
|