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780c0e0b35
storj/satellite/metainfo/endpoint_object.go
Michal Niewrzal 780c0e0b35 satellite/metainfo: adjust ListPendingObjectStreams to pending_objects 
table

New method IteratePendingObjectsByKeyNew is used to provide results for
metainfo.ListPendingObjectStreams. This endpoint is used to list
pending objects with the same object key. In this case to support
both tables (objects, pending_objects) we need to do one query per table
and merge results.

Because existing metainfo protobuf API is missing some fields to have
proper listing cursor we are not able to make ListPendingObjectStreams
correct for returning more than single page. We need to fix it
separately.

With this change also turns out that approach to merge results from
listing objects for ListObjects method was wrong and this change is also
fixing this problem.

Handling both tables will be removed at some point and only
pending_objects will be used to look for results.

Part of https://github.com/storj/storj/issues/6047

Change-Id: I8a88a6f885ad529704e6c032f1d97926123c2909
2023-08-30 13:35:54 +00:00

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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package metainfo
import (
"bytes"
"context"
"fmt"
"sort"
"time"
"github.com/jtolio/eventkit"
"github.com/spacemonkeygo/monkit/v3"
"go.uber.org/zap"
"golang.org/x/sync/errgroup"
"storj.io/common/encryption"
"storj.io/common/errs2"
"storj.io/common/macaroon"
"storj.io/common/pb"
"storj.io/common/rpc/rpcstatus"
"storj.io/common/storj"
"storj.io/common/uuid"
"storj.io/storj/satellite/buckets"
"storj.io/storj/satellite/internalpb"
"storj.io/storj/satellite/metabase"
"storj.io/storj/satellite/orders"
)
// BeginObject begins object.
func (endpoint *Endpoint) BeginObject(ctx context.Context, req *pb.ObjectBeginRequest) (resp *pb.ObjectBeginResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
now := time.Now()
var canDelete bool
keyInfo, err := endpoint.validateAuthN(ctx, req.Header,
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
},
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionDelete,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
actionPermitted: &canDelete,
optional: true,
},
)
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
if !req.ExpiresAt.IsZero() && !req.ExpiresAt.After(time.Now()) {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "Invalid expiration time")
}
// we can do just basic name validation because later we are checking bucket in DB
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
objectKeyLength := len(req.EncryptedObjectKey)
if objectKeyLength > endpoint.config.MaxEncryptedObjectKeyLength {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, fmt.Sprintf("key length is too big, got %v, maximum allowed is %v", objectKeyLength, endpoint.config.MaxEncryptedObjectKeyLength))
}
err = endpoint.checkUploadLimits(ctx, keyInfo.ProjectID)
if err != nil {
return nil, err
}
if err := endpoint.checkObjectUploadRate(ctx, keyInfo.ProjectID, req.Bucket, req.EncryptedObjectKey); err != nil {
return nil, err
}
// TODO this needs to be optimized to avoid DB call on each request
placement, err := endpoint.buckets.GetBucketPlacement(ctx, req.Bucket, keyInfo.ProjectID)
if err != nil {
if buckets.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "bucket not found: %s", req.Bucket)
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
if err := endpoint.ensureAttribution(ctx, req.Header, keyInfo, req.Bucket, nil, false); err != nil {
return nil, err
}
streamID, err := uuid.New()
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// TODO this will work only with newest uplink
// figure out what to do with this
encryptionParameters := storj.EncryptionParameters{
CipherSuite: storj.CipherSuite(req.EncryptionParameters.CipherSuite),
BlockSize: int32(req.EncryptionParameters.BlockSize), // TODO check conversion
}
var expiresAt *time.Time
if req.ExpiresAt.IsZero() {
expiresAt = nil
} else {
expiresAt = &req.ExpiresAt
}
var nonce []byte
if !req.EncryptedMetadataNonce.IsZero() {
nonce = req.EncryptedMetadataNonce[:]
}
object, err := endpoint.metabase.BeginObjectNextVersion(ctx, metabase.BeginObjectNextVersion{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
StreamID: streamID,
Version: metabase.NextVersion,
},
ExpiresAt: expiresAt,
Encryption: encryptionParameters,
EncryptedMetadata: req.EncryptedMetadata,
EncryptedMetadataEncryptedKey: req.EncryptedMetadataEncryptedKey,
EncryptedMetadataNonce: nonce,
UsePendingObjectsTable: endpoint.config.UsePendingObjectsTable,
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
satStreamID, err := endpoint.packStreamID(ctx, &internalpb.StreamID{
Bucket: []byte(object.BucketName),
EncryptedObjectKey: []byte(object.ObjectKey),
Version: int64(object.Version),
CreationDate: object.CreatedAt,
ExpirationDate: req.ExpiresAt, // TODO make ExpirationDate nullable
StreamId: object.StreamID[:],
MultipartObject: object.FixedSegmentSize <= 0,
EncryptionParameters: req.EncryptionParameters,
Placement: int32(placement),
UsePendingObjectsTable: endpoint.config.UsePendingObjectsTable,
})
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
endpoint.log.Info("Object Upload", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "put"), zap.String("type", "object"))
mon.Meter("req_put_object").Mark(1)
return &pb.ObjectBeginResponse{
Bucket: req.Bucket,
EncryptedObjectKey: req.EncryptedObjectKey,
Version: req.Version,
StreamId: satStreamID,
RedundancyScheme: endpoint.defaultRS,
}, nil
}
// CommitObject commits an object when all its segments have already been committed.
func (endpoint *Endpoint) CommitObject(ctx context.Context, req *pb.ObjectCommitRequest) (resp *pb.ObjectCommitResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
now := time.Now()
var allowDelete bool
keyInfo, err := endpoint.validateAuthN(ctx, req.Header,
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedObjectKey,
Time: now,
},
},
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionDelete,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedObjectKey,
Time: now,
},
actionPermitted: &allowDelete,
optional: true,
},
)
if err != nil {
return nil, err
}
var committedObject *metabase.Object
defer func() {
var tags []eventkit.Tag
if committedObject != nil {
tags = []eventkit.Tag{
eventkit.Bool("expires", committedObject.ExpiresAt != nil),
eventkit.Int64("segment_count", int64(committedObject.SegmentCount)),
eventkit.Int64("total_plain_size", committedObject.TotalPlainSize),
eventkit.Int64("total_encrypted_size", committedObject.TotalEncryptedSize),
eventkit.Int64("fixed_segment_size", int64(committedObject.FixedSegmentSize)),
}
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req), tags...)
}()
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// for old uplinks get Encryption from StreamMeta
streamMeta := &pb.StreamMeta{}
encryption := storj.EncryptionParameters{}
err = pb.Unmarshal(req.EncryptedMetadata, streamMeta)
if err != nil {
// TODO: what if this is an error we don't expect?
} else {
encryption.CipherSuite = storj.CipherSuite(streamMeta.EncryptionType)
encryption.BlockSize = streamMeta.EncryptionBlockSize
}
request := metabase.CommitObject{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedObjectKey),
StreamID: id,
Version: metabase.Version(streamID.Version),
},
Encryption: encryption,
DisallowDelete: !allowDelete,
UsePendingObjectsTable: streamID.UsePendingObjectsTable,
}
// uplink can send empty metadata with not empty key/nonce
// we need to fix it on uplink side but that part will be
// needed for backward compatibility
if len(req.EncryptedMetadata) != 0 {
request.OverrideEncryptedMetadata = true
request.EncryptedMetadata = req.EncryptedMetadata
request.EncryptedMetadataNonce = req.EncryptedMetadataNonce[:]
request.EncryptedMetadataEncryptedKey = req.EncryptedMetadataEncryptedKey
// older uplinks might send EncryptedMetadata directly with request but
// key/nonce will be part of StreamMeta
if req.EncryptedMetadataNonce.IsZero() && len(req.EncryptedMetadataEncryptedKey) == 0 &&
streamMeta.LastSegmentMeta != nil {
request.EncryptedMetadataNonce = streamMeta.LastSegmentMeta.KeyNonce
request.EncryptedMetadataEncryptedKey = streamMeta.LastSegmentMeta.EncryptedKey
}
}
if err := endpoint.checkEncryptedMetadataSize(request.EncryptedMetadata, request.EncryptedMetadataEncryptedKey); err != nil {
return nil, err
}
object, err := endpoint.metabase.CommitObject(ctx, request)
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
committedObject = &object
mon.Meter("req_commit_object").Mark(1)
return &pb.ObjectCommitResponse{}, nil
}
// GetObject gets single object metadata.
func (endpoint *Endpoint) GetObject(ctx context.Context, req *pb.ObjectGetRequest) (resp *pb.ObjectGetResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
now := time.Now()
keyInfo, err := endpoint.validateAuthAny(ctx, req.Header,
macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
macaroon.Action{
Op: macaroon.ActionList,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
)
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
mbObject, err := endpoint.metabase.GetObjectLastCommitted(ctx, metabase.GetObjectLastCommitted{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
},
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
{
tags := []eventkit.Tag{
eventkit.Bool("expires", mbObject.ExpiresAt != nil),
eventkit.Int64("segment_count", int64(mbObject.SegmentCount)),
eventkit.Int64("total_plain_size", mbObject.TotalPlainSize),
eventkit.Int64("total_encrypted_size", mbObject.TotalEncryptedSize),
eventkit.Int64("fixed_segment_size", int64(mbObject.FixedSegmentSize)),
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req), tags...)
}
var segmentRS *pb.RedundancyScheme
// TODO this code is triggered only by very old uplink library and we will remove it eventually.
if !req.RedundancySchemePerSegment && mbObject.SegmentCount > 0 {
segmentRS = endpoint.defaultRS
segment, err := endpoint.metabase.GetSegmentByPosition(ctx, metabase.GetSegmentByPosition{
StreamID: mbObject.StreamID,
Position: metabase.SegmentPosition{
Index: 0,
},
})
if err != nil {
// add user agent to log entry to figure out tool that is using old uplink
userAgent := "unknown"
if req.Header != nil && len(req.Header.UserAgent) != 0 {
userAgent = string(req.Header.UserAgent)
}
// don't fail because its possible that its multipart object
endpoint.log.Warn("unable to get segment metadata to get object redundancy",
zap.Stringer("StreamID", mbObject.StreamID),
zap.Stringer("ProjectID", keyInfo.ProjectID),
zap.String("User Agent", userAgent),
zap.Error(err),
)
} else {
segmentRS = &pb.RedundancyScheme{
Type: pb.RedundancyScheme_SchemeType(segment.Redundancy.Algorithm),
ErasureShareSize: segment.Redundancy.ShareSize,
MinReq: int32(segment.Redundancy.RequiredShares),
RepairThreshold: int32(segment.Redundancy.RepairShares),
SuccessThreshold: int32(segment.Redundancy.OptimalShares),
Total: int32(segment.Redundancy.TotalShares),
}
}
// monitor how many uplinks is still using this additional code
mon.Meter("req_get_object_rs_per_object").Mark(1)
}
object, err := endpoint.objectToProto(ctx, mbObject, segmentRS)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
endpoint.log.Info("Object Get", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "get"), zap.String("type", "object"))
mon.Meter("req_get_object").Mark(1)
return &pb.ObjectGetResponse{Object: object}, nil
}
// DownloadObject gets object information, creates a download for segments and lists the object segments.
func (endpoint *Endpoint) DownloadObject(ctx context.Context, req *pb.ObjectDownloadRequest) (resp *pb.ObjectDownloadResponse, err error) {
defer mon.Task()(&ctx)(&err)
if ctx.Err() != nil {
return nil, rpcstatus.Error(rpcstatus.Canceled, "client has closed the connection")
}
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: time.Now(),
})
if err != nil {
return nil, err
}
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
if exceeded, limit, err := endpoint.projectUsage.ExceedsBandwidthUsage(ctx, keyInfo.ProjectID); err != nil {
if errs2.IsCanceled(err) {
return nil, rpcstatus.Wrap(rpcstatus.Canceled, err)
}
endpoint.log.Error(
"Retrieving project bandwidth total failed; bandwidth limit won't be enforced",
zap.Stringer("Project ID", keyInfo.ProjectID),
zap.Error(err),
)
} else if exceeded {
endpoint.log.Warn("Monthly bandwidth limit exceeded",
zap.Stringer("Limit", limit),
zap.Stringer("Project ID", keyInfo.ProjectID),
)
return nil, rpcstatus.Error(rpcstatus.ResourceExhausted, "Exceeded Usage Limit")
}
// get the object information
object, err := endpoint.metabase.GetObjectLastCommitted(ctx, metabase.GetObjectLastCommitted{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
},
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
// get the range segments
streamRange, err := calculateStreamRange(object, req.Range)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
{
tags := []eventkit.Tag{
eventkit.Bool("expires", object.ExpiresAt != nil),
eventkit.Int64("segment_count", int64(object.SegmentCount)),
eventkit.Int64("total_plain_size", object.TotalPlainSize),
eventkit.Int64("total_encrypted_size", object.TotalEncryptedSize),
eventkit.Int64("fixed_segment_size", int64(object.FixedSegmentSize)),
}
if streamRange != nil {
tags = append(tags,
eventkit.Int64("range_start", streamRange.PlainStart),
eventkit.Int64("range_end", streamRange.PlainLimit))
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req), tags...)
}
segments, err := endpoint.metabase.ListSegments(ctx, metabase.ListSegments{
StreamID: object.StreamID,
Range: streamRange,
Limit: int(req.Limit),
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
// get the download response for the first segment
downloadSegments, err := func() ([]*pb.SegmentDownloadResponse, error) {
if len(segments.Segments) == 0 {
return nil, nil
}
if object.IsMigrated() && streamRange != nil && streamRange.PlainStart > 0 {
return nil, nil
}
segment := segments.Segments[0]
downloadSizes := endpoint.calculateDownloadSizes(streamRange, segment, object.Encryption)
// Update the current bandwidth cache value incrementing the SegmentSize.
err = endpoint.projectUsage.UpdateProjectBandwidthUsage(ctx, keyInfo.ProjectID, downloadSizes.encryptedSize)
if err != nil {
if errs2.IsCanceled(err) {
return nil, rpcstatus.Wrap(rpcstatus.Canceled, err)
}
// log it and continue. it's most likely our own fault that we couldn't
// track it, and the only thing that will be affected is our per-project
// bandwidth limits.
endpoint.log.Error(
"Could not track the new project's bandwidth usage when downloading an object",
zap.Stringer("Project ID", keyInfo.ProjectID),
zap.Error(err),
)
}
encryptedKeyNonce, err := storj.NonceFromBytes(segment.EncryptedKeyNonce)
if err != nil {
endpoint.log.Error("unable to get encryption key nonce from metadata", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
if segment.Inline() {
err := endpoint.orders.UpdateGetInlineOrder(ctx, object.Location().Bucket(), downloadSizes.plainSize)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// TODO we may think about fallback to encrypted size
// as plain size may be empty for old objects
downloaded := segment.PlainSize
if streamRange != nil {
downloaded = int32(streamRange.PlainLimit)
}
endpoint.versionCollector.collectTransferStats(req.Header.UserAgent, download, int(downloaded))
endpoint.log.Info("Inline Segment Download", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "get"), zap.String("type", "inline"))
mon.Meter("req_get_inline").Mark(1)
return []*pb.SegmentDownloadResponse{{
PlainOffset: segment.PlainOffset,
PlainSize: int64(segment.PlainSize),
SegmentSize: int64(segment.EncryptedSize),
EncryptedInlineData: segment.InlineData,
EncryptedKeyNonce: encryptedKeyNonce,
EncryptedKey: segment.EncryptedKey,
Position: &pb.SegmentPosition{
PartNumber: int32(segment.Position.Part),
Index: int32(segment.Position.Index),
},
}}, nil
}
limits, privateKey, err := endpoint.orders.CreateGetOrderLimits(ctx, object.Location().Bucket(), segment, req.GetDesiredNodes(), downloadSizes.orderLimit)
if err != nil {
if orders.ErrDownloadFailedNotEnoughPieces.Has(err) {
endpoint.log.Error("Unable to create order limits.",
zap.Stringer("Project ID", keyInfo.ProjectID),
zap.Stringer("API Key ID", keyInfo.ID),
zap.Error(err),
)
}
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// TODO we may think about fallback to encrypted size
// as plain size may be empty for old objects
downloaded := segment.PlainSize
if streamRange != nil {
downloaded = int32(streamRange.PlainLimit)
}
endpoint.versionCollector.collectTransferStats(req.Header.UserAgent, download, int(downloaded))
endpoint.log.Info("Segment Download", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "get"), zap.String("type", "remote"))
mon.Meter("req_get_remote").Mark(1)
return []*pb.SegmentDownloadResponse{{
AddressedLimits: limits,
PrivateKey: privateKey,
PlainOffset: segment.PlainOffset,
PlainSize: int64(segment.PlainSize),
SegmentSize: int64(segment.EncryptedSize),
EncryptedKeyNonce: encryptedKeyNonce,
EncryptedKey: segment.EncryptedKey,
RedundancyScheme: &pb.RedundancyScheme{
Type: pb.RedundancyScheme_SchemeType(segment.Redundancy.Algorithm),
ErasureShareSize: segment.Redundancy.ShareSize,
MinReq: int32(segment.Redundancy.RequiredShares),
RepairThreshold: int32(segment.Redundancy.RepairShares),
SuccessThreshold: int32(segment.Redundancy.OptimalShares),
Total: int32(segment.Redundancy.TotalShares),
},
Position: &pb.SegmentPosition{
PartNumber: int32(segment.Position.Part),
Index: int32(segment.Position.Index),
},
}}, nil
}()
if err != nil {
return nil, err
}
// convert to response
protoObject, err := endpoint.objectToProto(ctx, object, nil)
if err != nil {
endpoint.log.Error("unable to convert object to proto", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
segmentList, err := convertSegmentListResults(segments)
if err != nil {
endpoint.log.Error("unable to convert stream list", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
endpoint.log.Info("Object Download", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "download"), zap.String("type", "object"))
mon.Meter("req_download_object").Mark(1)
return &pb.ObjectDownloadResponse{
Object: protoObject,
// The RPC API allows for multiple segment download responses, but for now
// we return only one. This can be changed in the future if it seems useful
// to return more than one on the initial response.
SegmentDownload: downloadSegments,
// In the case where the client needs the segment list, it will contain
// every segment. In the case where the segment list is not needed,
// segmentListItems will be nil.
SegmentList: segmentList,
}, nil
}
func convertSegmentListResults(segments metabase.ListSegmentsResult) (*pb.SegmentListResponse, error) {
items := make([]*pb.SegmentListItem, len(segments.Segments))
for i, item := range segments.Segments {
items[i] = &pb.SegmentListItem{
Position: &pb.SegmentPosition{
PartNumber: int32(item.Position.Part),
Index: int32(item.Position.Index),
},
PlainSize: int64(item.PlainSize),
PlainOffset: item.PlainOffset,
CreatedAt: item.CreatedAt,
EncryptedETag: item.EncryptedETag,
EncryptedKey: item.EncryptedKey,
}
var err error
items[i].EncryptedKeyNonce, err = storj.NonceFromBytes(item.EncryptedKeyNonce)
if err != nil {
return nil, err
}
}
return &pb.SegmentListResponse{
Items: items,
More: segments.More,
}, nil
}
type downloadSizes struct {
// amount of data that uplink eventually gets
plainSize int64
// amount of data that's present after encryption
encryptedSize int64
// amount of data that's read from a storage node
orderLimit int64
}
func (endpoint *Endpoint) calculateDownloadSizes(streamRange *metabase.StreamRange, segment metabase.Segment, encryptionParams storj.EncryptionParameters) downloadSizes {
if segment.Inline() {
return downloadSizes{
plainSize: int64(len(segment.InlineData)),
encryptedSize: int64(segment.EncryptedSize),
}
}
// calculate the range inside the given segment
readStart := segment.PlainOffset
if streamRange != nil && readStart <= streamRange.PlainStart {
readStart = streamRange.PlainStart
}
readLimit := segment.PlainOffset + int64(segment.PlainSize)
if streamRange != nil && streamRange.PlainLimit < readLimit {
readLimit = streamRange.PlainLimit
}
plainSize := readLimit - readStart
// calculate the read range given the segment start
readStart -= segment.PlainOffset
readLimit -= segment.PlainOffset
// align to encryption block size
enc, err := encryption.NewEncrypter(encryptionParams.CipherSuite, &storj.Key{1}, &storj.Nonce{1}, int(encryptionParams.BlockSize))
if err != nil {
// We ignore the error and fallback to the max amount to download.
// It's unlikely that we fail here, but if we do, we don't want to block downloading.
endpoint.log.Error("unable to create encrypter", zap.Error(err))
return downloadSizes{
plainSize: int64(segment.PlainSize),
encryptedSize: int64(segment.EncryptedSize),
orderLimit: 0,
}
}
encryptedStartBlock, encryptedLimitBlock := calculateBlocks(readStart, readLimit, int64(enc.InBlockSize()))
encryptedStart, encryptedLimit := encryptedStartBlock*int64(enc.OutBlockSize()), encryptedLimitBlock*int64(enc.OutBlockSize())
encryptedSize := encryptedLimit - encryptedStart
if encryptedSize > int64(segment.EncryptedSize) {
encryptedSize = int64(segment.EncryptedSize)
}
// align to blocks
stripeSize := int64(segment.Redundancy.StripeSize())
stripeStart, stripeLimit := alignToBlock(encryptedStart, encryptedLimit, stripeSize)
// calculate how much shares we need to download from a node
stripeCount := (stripeLimit - stripeStart) / stripeSize
orderLimit := stripeCount * int64(segment.Redundancy.ShareSize)
return downloadSizes{
plainSize: plainSize,
encryptedSize: encryptedSize,
orderLimit: orderLimit,
}
}
func calculateBlocks(start, limit int64, blockSize int64) (startBlock, limitBlock int64) {
return start / blockSize, (limit + blockSize - 1) / blockSize
}
func alignToBlock(start, limit int64, blockSize int64) (alignedStart, alignedLimit int64) {
return (start / blockSize) * blockSize, ((limit + blockSize - 1) / blockSize) * blockSize
}
func calculateStreamRange(object metabase.Object, req *pb.Range) (*metabase.StreamRange, error) {
if req == nil || req.Range == nil {
mon.Event("download_range", monkit.NewSeriesTag("type", "empty"))
return nil, nil
}
if object.IsMigrated() {
// The object is in old format, which does not have plain_offset specified.
// We need to fallback to returning all segments.
return nil, nil
}
switch r := req.Range.(type) {
case *pb.Range_Start:
if r.Start == nil {
return nil, Error.New("Start missing for Range_Start")
}
mon.Event("download_range", monkit.NewSeriesTag("type", "start"))
return &metabase.StreamRange{
PlainStart: r.Start.PlainStart,
PlainLimit: object.TotalPlainSize,
}, nil
case *pb.Range_StartLimit:
if r.StartLimit == nil {
return nil, Error.New("StartEnd missing for Range_StartEnd")
}
mon.Event("download_range", monkit.NewSeriesTag("type", "startlimit"))
return &metabase.StreamRange{
PlainStart: r.StartLimit.PlainStart,
PlainLimit: r.StartLimit.PlainLimit,
}, nil
case *pb.Range_Suffix:
if r.Suffix == nil {
return nil, Error.New("Suffix missing for Range_Suffix")
}
mon.Event("download_range", monkit.NewSeriesTag("type", "suffix"))
return &metabase.StreamRange{
PlainStart: object.TotalPlainSize - r.Suffix.PlainSuffix,
PlainLimit: object.TotalPlainSize,
}, nil
}
mon.Event("download_range", monkit.NewSeriesTag("type", "unsupported"))
// if it's a new unsupported range type, let's return all data
return nil, nil
}
// ListObjects list objects according to specific parameters.
func (endpoint *Endpoint) ListObjects(ctx context.Context, req *pb.ObjectListRequest) (resp *pb.ObjectListResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionList,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPrefix,
Time: time.Now(),
})
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
// TODO this needs to be optimized to avoid DB call on each request
placement, err := endpoint.buckets.GetBucketPlacement(ctx, req.Bucket, keyInfo.ProjectID)
if err != nil {
if buckets.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "bucket not found: %s", req.Bucket)
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
limit := int(req.Limit)
if limit < 0 {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "limit is negative")
}
metabase.ListLimit.Ensure(&limit)
var prefix metabase.ObjectKey
if len(req.EncryptedPrefix) != 0 {
prefix = metabase.ObjectKey(req.EncryptedPrefix)
if prefix[len(prefix)-1] != metabase.Delimiter {
prefix += metabase.ObjectKey(metabase.Delimiter)
}
}
// Default to Commmitted status for backward-compatibility with older uplinks.
status := metabase.Committed
if req.Status != pb.Object_INVALID {
status = metabase.ObjectStatus(req.Status)
}
cursorKey := metabase.ObjectKey(req.EncryptedCursor)
cursorVersion := metabase.Version(0)
cursorStreamID := uuid.UUID{}
if len(cursorKey) != 0 {
cursorKey = prefix + cursorKey
// TODO this is a workaround to avoid duplicates while listing objects by libuplink.
// because version is not part of cursor yet and we can have object with version higher
// than 1 we cannot use hardcoded version 1 as default.
// This workaround should be in place for a longer time even if metainfo protocol will be
// fix as we still want to avoid this problem for older libuplink versions.
//
// it should be set in case of pending and committed objects
cursorVersion = metabase.MaxVersion
// for the same reasons as above we need to set maximum UUID as a cursor stream id
cursorStreamID = uuid.Max()
}
includeCustomMetadata := true
includeSystemMetadata := true
if req.UseObjectIncludes {
includeCustomMetadata = req.ObjectIncludes.Metadata
// because multipart upload UploadID depends on some System metadata fields we need
// to force reading it for listing pending object when its not included in options.
// This is used by libuplink ListUploads method.
includeSystemMetadata = status == metabase.Pending || !req.ObjectIncludes.ExcludeSystemMetadata
}
resp = &pb.ObjectListResponse{}
if endpoint.config.TestListingQuery {
result, err := endpoint.metabase.ListObjects(ctx,
metabase.ListObjects{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
Prefix: prefix,
Cursor: metabase.ListObjectsCursor{
Key: cursorKey,
Version: cursorVersion,
},
Recursive: req.Recursive,
Limit: limit,
Status: status,
IncludeCustomMetadata: includeCustomMetadata,
IncludeSystemMetadata: includeSystemMetadata,
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
for _, entry := range result.Objects {
item, err := endpoint.objectEntryToProtoListItem(ctx, req.Bucket, entry, prefix, includeSystemMetadata, includeCustomMetadata, placement)
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
resp.Items = append(resp.Items, item)
}
resp.More = result.More
} else {
if status == metabase.Pending && endpoint.config.UsePendingObjectsTable {
type ObjectListItem struct {
Item *pb.ObjectListItem
StreamID uuid.UUID
}
pendingObjectsEntries := make([]ObjectListItem, 0, limit)
// TODO when objects table will be free from pending objects only this listing method will remain
err = endpoint.metabase.IteratePendingObjects(ctx, metabase.IteratePendingObjects{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
Prefix: prefix,
Cursor: metabase.PendingObjectsCursor{
Key: cursorKey,
StreamID: cursorStreamID,
},
Recursive: req.Recursive,
BatchSize: limit + 1,
IncludeCustomMetadata: includeCustomMetadata,
IncludeSystemMetadata: includeSystemMetadata,
}, func(ctx context.Context, it metabase.PendingObjectsIterator) error {
entry := metabase.PendingObjectEntry{}
for it.Next(ctx, &entry) {
item, err := endpoint.pendingObjectEntryToProtoListItem(ctx, req.Bucket, entry, prefix, includeSystemMetadata, includeCustomMetadata, placement)
if err != nil {
return err
}
pendingObjectsEntries = append(pendingObjectsEntries, ObjectListItem{
Item: item,
StreamID: entry.StreamID,
})
}
return nil
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
// we always need results from both tables for now
objectsEntries := make([]ObjectListItem, 0, limit)
err = endpoint.metabase.IterateObjectsAllVersionsWithStatus(ctx,
metabase.IterateObjectsWithStatus{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
Prefix: prefix,
Cursor: metabase.IterateCursor{
Key: cursorKey,
Version: cursorVersion,
},
Recursive: req.Recursive,
BatchSize: limit + 1,
Status: metabase.Pending,
IncludeCustomMetadata: includeCustomMetadata,
IncludeSystemMetadata: includeSystemMetadata,
}, func(ctx context.Context, it metabase.ObjectsIterator) error {
entry := metabase.ObjectEntry{}
for it.Next(ctx, &entry) {
item, err := endpoint.objectEntryToProtoListItem(ctx, req.Bucket, entry, prefix, includeSystemMetadata, includeCustomMetadata, placement)
if err != nil {
return err
}
objectsEntries = append(objectsEntries, ObjectListItem{
Item: item,
StreamID: entry.StreamID,
})
}
return nil
},
)
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
// combine results from both tables and sort them by object key to be able to cut results to the limit
allResults := make([]ObjectListItem, 0, len(pendingObjectsEntries)+len(objectsEntries))
allResults = append(allResults, pendingObjectsEntries...)
allResults = append(allResults, objectsEntries...)
sort.Slice(allResults, func(i, j int) bool {
keyCompare := bytes.Compare(allResults[i].Item.EncryptedObjectKey, allResults[j].Item.EncryptedObjectKey)
switch {
case keyCompare == -1:
return true
case keyCompare == 1:
return false
case allResults[i].Item.Version < allResults[j].Item.Version:
return true
case allResults[i].Item.Version > allResults[j].Item.Version:
return false
default:
return allResults[i].StreamID.Less(allResults[j].StreamID)
}
})
if len(allResults) >= limit {
resp.More = len(allResults) > limit
allResults = allResults[:limit]
}
resp.Items = make([]*pb.ObjectListItem, len(allResults))
for i, objectListItem := range allResults {
resp.Items[i] = objectListItem.Item
}
} else {
// we always need results from both tables for now
err = endpoint.metabase.IterateObjectsAllVersionsWithStatus(ctx,
metabase.IterateObjectsWithStatus{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
Prefix: prefix,
Cursor: metabase.IterateCursor{
Key: cursorKey,
Version: cursorVersion,
},
Recursive: req.Recursive,
BatchSize: limit + 1,
Status: status,
IncludeCustomMetadata: includeCustomMetadata,
IncludeSystemMetadata: includeSystemMetadata,
}, func(ctx context.Context, it metabase.ObjectsIterator) error {
entry := metabase.ObjectEntry{}
for len(resp.Items) < limit && it.Next(ctx, &entry) {
item, err := endpoint.objectEntryToProtoListItem(ctx, req.Bucket, entry, prefix, includeSystemMetadata, includeCustomMetadata, placement)
if err != nil {
return err
}
resp.Items = append(resp.Items, item)
}
// we need to take into account also potential results from IteratePendingObjects
resp.More = resp.More || it.Next(ctx, &entry)
return nil
},
)
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
}
}
endpoint.log.Info("Object List", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "list"), zap.String("type", "object"))
mon.Meter("req_list_object").Mark(1)
return resp, nil
}
// ListPendingObjectStreams list pending objects according to specific parameters.
func (endpoint *Endpoint) ListPendingObjectStreams(ctx context.Context, req *pb.ObjectListPendingStreamsRequest) (resp *pb.ObjectListPendingStreamsResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionList,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: time.Now(),
})
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
placement, err := endpoint.buckets.GetBucketPlacement(ctx, req.Bucket, keyInfo.ProjectID)
if err != nil {
if buckets.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "bucket not found: %s", req.Bucket)
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
cursor := metabase.StreamIDCursor{}
if req.StreamIdCursor != nil {
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamIdCursor)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
cursor.StreamID, err = uuid.FromBytes(streamID.StreamId)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
}
limit := int(req.Limit)
if limit < 0 {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "limit is negative")
}
metabase.ListLimit.Ensure(&limit)
resp = &pb.ObjectListPendingStreamsResponse{}
resp.Items = []*pb.ObjectListItem{}
options := metabase.IteratePendingObjectsByKey{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
},
BatchSize: limit + 1,
Cursor: cursor,
}
if endpoint.config.UsePendingObjectsTable {
err = endpoint.metabase.IteratePendingObjectsByKeyNew(ctx,
options, func(ctx context.Context, it metabase.PendingObjectsIterator) error {
entry := metabase.PendingObjectEntry{}
for it.Next(ctx, &entry) {
item, err := endpoint.pendingObjectEntryToProtoListItem(ctx, req.Bucket, entry, "", true, true, placement)
if err != nil {
return err
}
resp.Items = append(resp.Items, item)
}
return nil
},
)
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
}
objectsEntries := make([]*pb.ObjectListItem, 0, limit)
err = endpoint.metabase.IteratePendingObjectsByKey(ctx,
options, func(ctx context.Context, it metabase.ObjectsIterator) error {
entry := metabase.ObjectEntry{}
for it.Next(ctx, &entry) {
item, err := endpoint.objectEntryToProtoListItem(ctx, req.Bucket, entry, "", true, true, placement)
if err != nil {
return err
}
objectsEntries = append(objectsEntries, item)
}
return nil
},
)
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
// TODO currently this request have a bug if we would like to list all pending objects
// with the same name if we have more than single page of them (1000) because protobuf
// cursor doesn't include additional things like StreamID so it's a bit useless to do
// anything else than just combine results
resp.Items = append(resp.Items, objectsEntries...)
if len(resp.Items) >= limit {
resp.More = len(resp.Items) > limit
resp.Items = resp.Items[:limit]
}
endpoint.log.Info("List pending object streams", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "list"), zap.String("type", "object"))
mon.Meter("req_list_pending_object_streams").Mark(1)
return resp, nil
}
// BeginDeleteObject begins object deletion process.
func (endpoint *Endpoint) BeginDeleteObject(ctx context.Context, req *pb.ObjectBeginDeleteRequest) (resp *pb.ObjectBeginDeleteResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
now := time.Now()
var canRead, canList bool
keyInfo, err := endpoint.validateAuthN(ctx, req.Header,
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionDelete,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
},
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
actionPermitted: &canRead,
optional: true,
},
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionList,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
actionPermitted: &canList,
optional: true,
},
)
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
var deletedObjects []*pb.Object
if req.GetStatus() == int32(metabase.Pending) {
if req.StreamId == nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "StreamID missing")
}
var pbStreamID *internalpb.StreamID
pbStreamID, err = endpoint.unmarshalSatStreamID(ctx, *(req.StreamId))
if err == nil {
var streamID uuid.UUID
streamID, err = uuid.FromBytes(pbStreamID.StreamId)
if err == nil {
deletedObjects, err = endpoint.DeletePendingObject(ctx,
metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(pbStreamID.Bucket),
ObjectKey: metabase.ObjectKey(pbStreamID.EncryptedObjectKey),
Version: metabase.Version(pbStreamID.Version),
StreamID: streamID,
}, pbStreamID.UsePendingObjectsTable)
}
}
} else {
deletedObjects, err = endpoint.DeleteCommittedObject(ctx, keyInfo.ProjectID, string(req.Bucket), metabase.ObjectKey(req.EncryptedObjectKey))
}
if err != nil {
if !canRead && !canList {
// No error info is returned if neither Read, nor List permission is granted
return &pb.ObjectBeginDeleteResponse{}, nil
}
return nil, endpoint.convertMetabaseErr(err)
}
var object *pb.Object
if canRead || canList {
// Info about deleted object is returned only if either Read, or List permission is granted
if err != nil {
endpoint.log.Error("failed to construct deleted object information",
zap.Stringer("Project ID", keyInfo.ProjectID),
zap.String("Bucket", string(req.Bucket)),
zap.String("Encrypted Path", string(req.EncryptedObjectKey)),
zap.Error(err),
)
}
if len(deletedObjects) > 0 {
object = deletedObjects[0]
}
}
endpoint.log.Info("Object Delete", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "delete"), zap.String("type", "object"))
mon.Meter("req_delete_object").Mark(1)
return &pb.ObjectBeginDeleteResponse{
Object: object,
}, nil
}
// GetObjectIPs returns the IP addresses of the nodes holding the pieces for
// the provided object. This is useful for knowing the locations of the pieces.
func (endpoint *Endpoint) GetObjectIPs(ctx context.Context, req *pb.ObjectGetIPsRequest) (resp *pb.ObjectGetIPsResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
now := time.Now()
keyInfo, err := endpoint.validateAuthAny(ctx, req.Header,
macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
macaroon.Action{
Op: macaroon.ActionList,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
)
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
// TODO we may need custom metabase request to avoid two DB calls
object, err := endpoint.metabase.GetObjectLastCommitted(ctx, metabase.GetObjectLastCommitted{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
},
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
var pieceCountByNodeID map[storj.NodeID]int64
var placement storj.PlacementConstraint
// TODO this is short term fix to easily filter out IPs out of bucket/object placement
// this request is not heavily used so it should be fine to add additional request to DB for now.
var group errgroup.Group
group.Go(func() error {
placement, err = endpoint.buckets.GetBucketPlacement(ctx, req.Bucket, keyInfo.ProjectID)
return err
})
group.Go(func() (err error) {
pieceCountByNodeID, err = endpoint.metabase.GetStreamPieceCountByNodeID(ctx,
metabase.GetStreamPieceCountByNodeID{
StreamID: object.StreamID,
})
return err
})
err = group.Wait()
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
nodeIDs := make([]storj.NodeID, 0, len(pieceCountByNodeID))
for nodeID := range pieceCountByNodeID {
nodeIDs = append(nodeIDs, nodeID)
}
nodeIPMap, err := endpoint.overlay.GetNodeIPsFromPlacement(ctx, nodeIDs, placement)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
nodeIPs := make([][]byte, 0, len(nodeIPMap))
pieceCount := int64(0)
reliablePieceCount := int64(0)
for nodeID, count := range pieceCountByNodeID {
pieceCount += count
ip, reliable := nodeIPMap[nodeID]
if !reliable {
continue
}
nodeIPs = append(nodeIPs, []byte(ip))
reliablePieceCount += count
}
mon.Meter("req_get_object_ips").Mark(1)
return &pb.ObjectGetIPsResponse{
Ips: nodeIPs,
SegmentCount: int64(object.SegmentCount),
ReliablePieceCount: reliablePieceCount,
PieceCount: pieceCount,
}, nil
}
// UpdateObjectMetadata replaces object metadata.
func (endpoint *Endpoint) UpdateObjectMetadata(ctx context.Context, req *pb.ObjectUpdateMetadataRequest) (resp *pb.ObjectUpdateMetadataResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: time.Now(),
})
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
if err := endpoint.checkEncryptedMetadataSize(req.EncryptedMetadata, req.EncryptedMetadataEncryptedKey); err != nil {
return nil, err
}
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
var encryptedMetadataNonce []byte
if !req.EncryptedMetadataNonce.IsZero() {
encryptedMetadataNonce = req.EncryptedMetadataNonce[:]
}
err = endpoint.metabase.UpdateObjectMetadata(ctx, metabase.UpdateObjectMetadata{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
StreamID: id,
EncryptedMetadata: req.EncryptedMetadata,
EncryptedMetadataNonce: encryptedMetadataNonce,
EncryptedMetadataEncryptedKey: req.EncryptedMetadataEncryptedKey,
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
mon.Meter("req_update_object_metadata").Mark(1)
return &pb.ObjectUpdateMetadataResponse{}, nil
}
func (endpoint *Endpoint) objectToProto(ctx context.Context, object metabase.Object, rs *pb.RedundancyScheme) (*pb.Object, error) {
expires := time.Time{}
if object.ExpiresAt != nil {
expires = *object.ExpiresAt
}
// TotalPlainSize != 0 means object was uploaded with newer uplink
multipartObject := object.TotalPlainSize != 0 && object.FixedSegmentSize <= 0
streamID, err := endpoint.packStreamID(ctx, &internalpb.StreamID{
Bucket: []byte(object.BucketName),
EncryptedObjectKey: []byte(object.ObjectKey),
Version: int64(object.Version),
CreationDate: object.CreatedAt,
ExpirationDate: expires,
StreamId: object.StreamID[:],
MultipartObject: multipartObject,
EncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(object.Encryption.CipherSuite),
BlockSize: int64(object.Encryption.BlockSize),
},
// TODO: this is the only one place where placement is not added to the StreamID
// bucket info would be required to add placement here
})
if err != nil {
return nil, err
}
var nonce storj.Nonce
if len(object.EncryptedMetadataNonce) > 0 {
nonce, err = storj.NonceFromBytes(object.EncryptedMetadataNonce)
if err != nil {
return nil, err
}
}
streamMeta := &pb.StreamMeta{}
err = pb.Unmarshal(object.EncryptedMetadata, streamMeta)
if err != nil {
return nil, err
}
// TODO is this enough to handle old uplinks
if streamMeta.EncryptionBlockSize == 0 {
streamMeta.EncryptionBlockSize = object.Encryption.BlockSize
}
if streamMeta.EncryptionType == 0 {
streamMeta.EncryptionType = int32(object.Encryption.CipherSuite)
}
if streamMeta.NumberOfSegments == 0 {
streamMeta.NumberOfSegments = int64(object.SegmentCount)
}
if streamMeta.LastSegmentMeta == nil {
streamMeta.LastSegmentMeta = &pb.SegmentMeta{
EncryptedKey: object.EncryptedMetadataEncryptedKey,
KeyNonce: object.EncryptedMetadataNonce,
}
}
metadataBytes, err := pb.Marshal(streamMeta)
if err != nil {
return nil, err
}
result := &pb.Object{
Bucket: []byte(object.BucketName),
EncryptedObjectKey: []byte(object.ObjectKey),
Version: int32(object.Version), // TODO incompatible types
StreamId: streamID,
ExpiresAt: expires,
CreatedAt: object.CreatedAt,
TotalSize: object.TotalEncryptedSize,
PlainSize: object.TotalPlainSize,
EncryptedMetadata: metadataBytes,
EncryptedMetadataNonce: nonce,
EncryptedMetadataEncryptedKey: object.EncryptedMetadataEncryptedKey,
EncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(object.Encryption.CipherSuite),
BlockSize: int64(object.Encryption.BlockSize),
},
RedundancyScheme: rs,
}
return result, nil
}
func (endpoint *Endpoint) objectEntryToProtoListItem(ctx context.Context, bucket []byte,
entry metabase.ObjectEntry, prefixToPrependInSatStreamID metabase.ObjectKey,
includeSystem, includeMetadata bool, placement storj.PlacementConstraint) (item *pb.ObjectListItem, err error) {
item = &pb.ObjectListItem{
EncryptedObjectKey: []byte(entry.ObjectKey),
Version: int32(entry.Version), // TODO incompatible types
Status: pb.Object_Status(entry.Status),
}
expiresAt := time.Time{}
if entry.ExpiresAt != nil {
expiresAt = *entry.ExpiresAt
}
if includeSystem {
item.ExpiresAt = expiresAt
item.CreatedAt = entry.CreatedAt
item.PlainSize = entry.TotalPlainSize
}
if includeMetadata {
var nonce storj.Nonce
if len(entry.EncryptedMetadataNonce) > 0 {
nonce, err = storj.NonceFromBytes(entry.EncryptedMetadataNonce)
if err != nil {
return nil, err
}
}
streamMeta := &pb.StreamMeta{}
err = pb.Unmarshal(entry.EncryptedMetadata, streamMeta)
if err != nil {
return nil, err
}
if entry.Encryption != (storj.EncryptionParameters{}) {
streamMeta.EncryptionType = int32(entry.Encryption.CipherSuite)
streamMeta.EncryptionBlockSize = entry.Encryption.BlockSize
}
if entry.SegmentCount != 0 {
streamMeta.NumberOfSegments = int64(entry.SegmentCount)
}
if entry.EncryptedMetadataEncryptedKey != nil {
streamMeta.LastSegmentMeta = &pb.SegmentMeta{
EncryptedKey: entry.EncryptedMetadataEncryptedKey,
KeyNonce: entry.EncryptedMetadataNonce,
}
}
metadataBytes, err := pb.Marshal(streamMeta)
if err != nil {
return nil, err
}
item.EncryptedMetadata = metadataBytes
item.EncryptedMetadataNonce = nonce
item.EncryptedMetadataEncryptedKey = entry.EncryptedMetadataEncryptedKey
}
// Add Stream ID to list items if listing is for pending objects.
// The client requires the Stream ID to use in the MultipartInfo.
if entry.Status == metabase.Pending {
satStreamID, err := endpoint.packStreamID(ctx, &internalpb.StreamID{
Bucket: bucket,
EncryptedObjectKey: append([]byte(prefixToPrependInSatStreamID), []byte(entry.ObjectKey)...),
Version: int64(entry.Version),
CreationDate: entry.CreatedAt,
ExpirationDate: expiresAt,
StreamId: entry.StreamID[:],
MultipartObject: entry.FixedSegmentSize <= 0,
EncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(entry.Encryption.CipherSuite),
BlockSize: int64(entry.Encryption.BlockSize),
},
Placement: int32(placement),
})
if err != nil {
return nil, err
}
item.StreamId = &satStreamID
}
return item, nil
}
func (endpoint *Endpoint) pendingObjectEntryToProtoListItem(ctx context.Context, bucket []byte,
entry metabase.PendingObjectEntry, prefixToPrependInSatStreamID metabase.ObjectKey,
includeSystem, includeMetadata bool, placement storj.PlacementConstraint) (item *pb.ObjectListItem, err error) {
item = &pb.ObjectListItem{
EncryptedObjectKey: []byte(entry.ObjectKey),
Status: pb.Object_UPLOADING,
}
expiresAt := time.Time{}
if entry.ExpiresAt != nil {
expiresAt = *entry.ExpiresAt
}
if includeSystem {
item.ExpiresAt = expiresAt
item.CreatedAt = entry.CreatedAt
}
if includeMetadata {
var nonce storj.Nonce
if len(entry.EncryptedMetadataNonce) > 0 {
nonce, err = storj.NonceFromBytes(entry.EncryptedMetadataNonce)
if err != nil {
return nil, err
}
}
streamMeta := &pb.StreamMeta{}
err = pb.Unmarshal(entry.EncryptedMetadata, streamMeta)
if err != nil {
return nil, err
}
if entry.Encryption != (storj.EncryptionParameters{}) {
streamMeta.EncryptionType = int32(entry.Encryption.CipherSuite)
streamMeta.EncryptionBlockSize = entry.Encryption.BlockSize
}
if entry.EncryptedMetadataEncryptedKey != nil {
streamMeta.LastSegmentMeta = &pb.SegmentMeta{
EncryptedKey: entry.EncryptedMetadataEncryptedKey,
KeyNonce: entry.EncryptedMetadataNonce,
}
}
metadataBytes, err := pb.Marshal(streamMeta)
if err != nil {
return nil, err
}
item.EncryptedMetadata = metadataBytes
item.EncryptedMetadataNonce = nonce
item.EncryptedMetadataEncryptedKey = entry.EncryptedMetadataEncryptedKey
}
// Add Stream ID to list items if listing is for pending objects.
// The client requires the Stream ID to use in the MultipartInfo.
satStreamID, err := endpoint.packStreamID(ctx, &internalpb.StreamID{
Bucket: bucket,
EncryptedObjectKey: append([]byte(prefixToPrependInSatStreamID), []byte(entry.ObjectKey)...),
Version: 1,
CreationDate: entry.CreatedAt,
ExpirationDate: expiresAt,
StreamId: entry.StreamID[:],
MultipartObject: true,
EncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(entry.Encryption.CipherSuite),
BlockSize: int64(entry.Encryption.BlockSize),
},
Placement: int32(placement),
UsePendingObjectsTable: true,
})
if err != nil {
return nil, err
}
item.StreamId = &satStreamID
return item, nil
}
// DeleteCommittedObject deletes all the pieces of the storage nodes that belongs
// to the specified object.
//
// NOTE: this method is exported for being able to individually test it without
// having import cycles.
// TODO: see note on DeleteObjectAnyStatus.
func (endpoint *Endpoint) DeleteCommittedObject(
ctx context.Context, projectID uuid.UUID, bucket string, object metabase.ObjectKey,
) (deletedObjects []*pb.Object, err error) {
defer mon.Task()(&ctx, projectID.String(), bucket, object)(&err)
req := metabase.ObjectLocation{
ProjectID: projectID,
BucketName: bucket,
ObjectKey: object,
}
var result metabase.DeleteObjectResult
if endpoint.config.ServerSideCopy {
result, err = endpoint.metabase.DeleteObjectLastCommitted(ctx, metabase.DeleteObjectLastCommitted{
ObjectLocation: req,
})
} else {
result, err = endpoint.metabase.DeleteObjectsAllVersions(ctx, metabase.DeleteObjectsAllVersions{Locations: []metabase.ObjectLocation{req}})
}
if err != nil {
return nil, Error.Wrap(err)
}
deletedObjects, err = endpoint.deleteObjectResultToProto(ctx, result)
if err != nil {
endpoint.log.Error("failed to convert delete object result",
zap.Stringer("project", projectID),
zap.String("bucket", bucket),
zap.Binary("object", []byte(object)),
zap.Error(err),
)
return nil, Error.Wrap(err)
}
return deletedObjects, nil
}
// DeletePendingObject deletes all the pieces of the storage nodes that belongs
// to the specified pending object.
//
// NOTE: this method is exported for being able to individually test it without
// having import cycles.
// TODO: see note on DeleteObjectAnyStatus.
func (endpoint *Endpoint) DeletePendingObject(ctx context.Context, stream metabase.ObjectStream, usePendingObjectTable bool) (deletedObjects []*pb.Object, err error) {
req := metabase.DeletePendingObject{
ObjectStream: stream,
}
var result metabase.DeleteObjectResult
if usePendingObjectTable {
result, err = endpoint.metabase.DeletePendingObjectNew(ctx, req)
} else {
result, err = endpoint.metabase.DeletePendingObject(ctx, req)
}
if err != nil {
return nil, err
}
return endpoint.deleteObjectResultToProto(ctx, result)
}
func (endpoint *Endpoint) deleteObjectResultToProto(ctx context.Context, result metabase.DeleteObjectResult) (deletedObjects []*pb.Object, err error) {
deletedObjects = make([]*pb.Object, len(result.Objects))
for i, object := range result.Objects {
deletedObject, err := endpoint.objectToProto(ctx, object, endpoint.defaultRS)
if err != nil {
return nil, err
}
deletedObjects[i] = deletedObject
}
return deletedObjects, nil
}
// Server side move.
// BeginMoveObject begins moving object to different key.
func (endpoint *Endpoint) BeginMoveObject(ctx context.Context, req *pb.ObjectBeginMoveRequest) (resp *pb.ObjectBeginMoveResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
now := time.Now()
keyInfo, err := endpoint.validateAuthN(ctx, req.Header,
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
},
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionDelete,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
},
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: req.NewBucket,
EncryptedPath: req.NewEncryptedObjectKey,
Time: now,
},
},
)
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
for _, bucket := range [][]byte{req.Bucket, req.NewBucket} {
err = endpoint.validateBucketNameLength(bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
}
// if source and target buckets are different, we need to check their geofencing configs
if !bytes.Equal(req.Bucket, req.NewBucket) {
// TODO we may try to combine those two DB calls into single one
oldBucketPlacement, err := endpoint.buckets.GetBucketPlacement(ctx, req.Bucket, keyInfo.ProjectID)
if err != nil {
if buckets.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "bucket not found: %s", req.Bucket)
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
newBucketPlacement, err := endpoint.buckets.GetBucketPlacement(ctx, req.NewBucket, keyInfo.ProjectID)
if err != nil {
if buckets.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "bucket not found: %s", req.NewBucket)
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
if oldBucketPlacement != newBucketPlacement {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "copying object to bucket with different placement policy is not (yet) supported")
}
}
result, err := endpoint.metabase.BeginMoveObject(ctx, metabase.BeginMoveObject{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
},
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
response, err := convertBeginMoveObjectResults(result)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
satStreamID, err := endpoint.packStreamID(ctx, &internalpb.StreamID{
Bucket: req.Bucket,
EncryptedObjectKey: req.EncryptedObjectKey,
Version: int64(result.Version),
StreamId: result.StreamID[:],
EncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(result.EncryptionParameters.CipherSuite),
BlockSize: int64(result.EncryptionParameters.BlockSize),
},
})
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
endpoint.log.Info("Object Move Begins", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "move"), zap.String("type", "object"))
mon.Meter("req_move_object_begins").Mark(1)
response.StreamId = satStreamID
return response, nil
}
func convertBeginMoveObjectResults(result metabase.BeginMoveObjectResult) (*pb.ObjectBeginMoveResponse, error) {
keys := make([]*pb.EncryptedKeyAndNonce, len(result.EncryptedKeysNonces))
for i, key := range result.EncryptedKeysNonces {
var nonce storj.Nonce
var err error
if len(key.EncryptedKeyNonce) != 0 {
nonce, err = storj.NonceFromBytes(key.EncryptedKeyNonce)
if err != nil {
return nil, err
}
}
keys[i] = &pb.EncryptedKeyAndNonce{
Position: &pb.SegmentPosition{
PartNumber: int32(key.Position.Part),
Index: int32(key.Position.Index),
},
EncryptedKey: key.EncryptedKey,
EncryptedKeyNonce: nonce,
}
}
// TODO we need this because of an uplink issue with how we are storing key and nonce
if result.EncryptedMetadataKey == nil {
streamMeta := &pb.StreamMeta{}
err := pb.Unmarshal(result.EncryptedMetadata, streamMeta)
if err != nil {
return nil, err
}
if streamMeta.LastSegmentMeta != nil {
result.EncryptedMetadataKey = streamMeta.LastSegmentMeta.EncryptedKey
result.EncryptedMetadataKeyNonce = streamMeta.LastSegmentMeta.KeyNonce
}
}
var metadataNonce storj.Nonce
var err error
if len(result.EncryptedMetadataKeyNonce) != 0 {
metadataNonce, err = storj.NonceFromBytes(result.EncryptedMetadataKeyNonce)
if err != nil {
return nil, err
}
}
return &pb.ObjectBeginMoveResponse{
EncryptedMetadataKey: result.EncryptedMetadataKey,
EncryptedMetadataKeyNonce: metadataNonce,
EncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(result.EncryptionParameters.CipherSuite),
BlockSize: int64(result.EncryptionParameters.BlockSize),
},
SegmentKeys: keys,
}, nil
}
// FinishMoveObject accepts new encryption keys for moved object and updates the corresponding object ObjectKey and segments EncryptedKey.
func (endpoint *Endpoint) FinishMoveObject(ctx context.Context, req *pb.ObjectFinishMoveRequest) (resp *pb.ObjectFinishMoveResponse, err error) {
defer mon.Task()(&ctx)(&err)
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionWrite,
Time: time.Now(),
Bucket: req.NewBucket,
EncryptedPath: req.NewEncryptedObjectKey,
})
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Unauthenticated, err.Error())
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.NewBucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
exists, err := endpoint.buckets.HasBucket(ctx, req.NewBucket, keyInfo.ProjectID)
if err != nil {
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
} else if !exists {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "target bucket not found: %s", req.NewBucket)
}
streamUUID, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
err = endpoint.metabase.FinishMoveObject(ctx, metabase.FinishMoveObject{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedObjectKey),
Version: metabase.Version(streamID.Version),
StreamID: streamUUID,
},
NewSegmentKeys: protobufkeysToMetabase(req.NewSegmentKeys),
NewBucket: string(req.NewBucket),
NewEncryptedObjectKey: req.NewEncryptedObjectKey,
NewEncryptedMetadataKeyNonce: req.NewEncryptedMetadataKeyNonce,
NewEncryptedMetadataKey: req.NewEncryptedMetadataKey,
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
endpoint.log.Info("Object Move Finished", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "move"), zap.String("type", "object"))
mon.Meter("req_move_object_finished").Mark(1)
return &pb.ObjectFinishMoveResponse{}, nil
}
// Server side copy.
// BeginCopyObject begins copying object to different key.
func (endpoint *Endpoint) BeginCopyObject(ctx context.Context, req *pb.ObjectBeginCopyRequest) (resp *pb.ObjectBeginCopyResponse, err error) {
defer mon.Task()(&ctx)(&err)
if !endpoint.config.ServerSideCopy || endpoint.config.ServerSideCopyDisabled {
return nil, rpcstatus.Error(rpcstatus.Unimplemented, "Unimplemented")
}
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
now := time.Now()
keyInfo, err := endpoint.validateAuthN(ctx, req.Header,
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedObjectKey,
Time: now,
},
},
verifyPermission{
action: macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: req.NewBucket,
EncryptedPath: req.NewEncryptedObjectKey,
Time: now,
},
},
)
if err != nil {
return nil, err
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
for _, bucket := range [][]byte{req.Bucket, req.NewBucket} {
err = endpoint.validateBucketNameLength(bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
}
// if source and target buckets are different, we need to check their geofencing configs
if !bytes.Equal(req.Bucket, req.NewBucket) {
// TODO we may try to combine those two DB calls into single one
oldBucketPlacement, err := endpoint.buckets.GetBucketPlacement(ctx, req.Bucket, keyInfo.ProjectID)
if err != nil {
if buckets.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "bucket not found: %s", req.Bucket)
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
newBucketPlacement, err := endpoint.buckets.GetBucketPlacement(ctx, req.NewBucket, keyInfo.ProjectID)
if err != nil {
if buckets.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "bucket not found: %s", req.NewBucket)
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
if oldBucketPlacement != newBucketPlacement {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "copying object to bucket with different placement policy is not (yet) supported")
}
}
result, err := endpoint.metabase.BeginCopyObject(ctx, metabase.BeginCopyObject{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedObjectKey),
},
VerifyLimits: func(encryptedObjectSize int64, nSegments int64) error {
return endpoint.checkUploadLimitsForNewObject(ctx, keyInfo.ProjectID, encryptedObjectSize, nSegments)
},
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
response, err := convertBeginCopyObjectResults(result)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
satStreamID, err := endpoint.packStreamID(ctx, &internalpb.StreamID{
Bucket: req.Bucket,
EncryptedObjectKey: req.EncryptedObjectKey,
Version: int64(result.Version),
StreamId: result.StreamID[:],
EncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(result.EncryptionParameters.CipherSuite),
BlockSize: int64(result.EncryptionParameters.BlockSize),
},
})
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
endpoint.log.Info("Object Copy Begins", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "copy"), zap.String("type", "object"))
mon.Meter("req_copy_object_begins").Mark(1)
response.StreamId = satStreamID
return response, nil
}
func convertBeginCopyObjectResults(result metabase.BeginCopyObjectResult) (*pb.ObjectBeginCopyResponse, error) {
beginMoveObjectResult, err := convertBeginMoveObjectResults(metabase.BeginMoveObjectResult(result))
if err != nil {
return nil, err
}
return &pb.ObjectBeginCopyResponse{
EncryptedMetadataKeyNonce: beginMoveObjectResult.EncryptedMetadataKeyNonce,
EncryptedMetadataKey: beginMoveObjectResult.EncryptedMetadataKey,
SegmentKeys: beginMoveObjectResult.SegmentKeys,
EncryptionParameters: beginMoveObjectResult.EncryptionParameters,
}, nil
}
// FinishCopyObject accepts new encryption keys for object copy and updates the corresponding object ObjectKey and segments EncryptedKey.
func (endpoint *Endpoint) FinishCopyObject(ctx context.Context, req *pb.ObjectFinishCopyRequest) (resp *pb.ObjectFinishCopyResponse, err error) {
defer mon.Task()(&ctx)(&err)
if !endpoint.config.ServerSideCopy || endpoint.config.ServerSideCopyDisabled {
return nil, rpcstatus.Error(rpcstatus.Unimplemented, "Unimplemented")
}
endpoint.versionCollector.collect(req.Header.UserAgent, mon.Func().ShortName())
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionWrite,
Time: time.Now(),
Bucket: req.NewBucket,
EncryptedPath: req.NewEncryptedMetadataKey,
})
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Unauthenticated, err.Error())
}
endpoint.usageTracking(keyInfo, req.Header, fmt.Sprintf("%T", req))
err = endpoint.validateBucketNameLength(req.NewBucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
if err := endpoint.checkEncryptedMetadataSize(req.NewEncryptedMetadata, req.NewEncryptedMetadataKey); err != nil {
return nil, err
}
exists, err := endpoint.buckets.HasBucket(ctx, req.NewBucket, keyInfo.ProjectID)
if err != nil {
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
} else if !exists {
return nil, rpcstatus.Errorf(rpcstatus.NotFound, "target bucket not found: %s", req.NewBucket)
}
streamUUID, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
newStreamID, err := uuid.New()
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
object, err := endpoint.metabase.FinishCopyObject(ctx, metabase.FinishCopyObject{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedObjectKey),
Version: metabase.Version(streamID.Version),
StreamID: streamUUID,
},
NewStreamID: newStreamID,
NewSegmentKeys: protobufkeysToMetabase(req.NewSegmentKeys),
NewBucket: string(req.NewBucket),
NewEncryptedObjectKey: metabase.ObjectKey(req.NewEncryptedObjectKey),
OverrideMetadata: req.OverrideMetadata,
NewEncryptedMetadata: req.NewEncryptedMetadata,
NewEncryptedMetadataKeyNonce: req.NewEncryptedMetadataKeyNonce,
NewEncryptedMetadataKey: req.NewEncryptedMetadataKey,
VerifyLimits: func(encryptedObjectSize int64, nSegments int64) error {
return endpoint.addStorageUsageUpToLimit(ctx, keyInfo.ProjectID, encryptedObjectSize, nSegments)
},
})
if err != nil {
return nil, endpoint.convertMetabaseErr(err)
}
// we can return nil redundancy because this request won't be used for downloading
protoObject, err := endpoint.objectToProto(ctx, object, nil)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
endpoint.log.Info("Object Copy Finished", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "copy"), zap.String("type", "object"))
mon.Meter("req_copy_object_finished").Mark(1)
return &pb.ObjectFinishCopyResponse{
Object: protoObject,
}, nil
}
// protobufkeysToMetabase converts []*pb.EncryptedKeyAndNonce to []metabase.EncryptedKeyAndNonce.
func protobufkeysToMetabase(protoKeys []*pb.EncryptedKeyAndNonce) []metabase.EncryptedKeyAndNonce {
keys := make([]metabase.EncryptedKeyAndNonce, len(protoKeys))
for i, key := range protoKeys {
position := metabase.SegmentPosition{}
if key.Position != nil {
position = metabase.SegmentPosition{
Part: uint32(key.Position.PartNumber),
Index: uint32(key.Position.Index),
}
}
keys[i] = metabase.EncryptedKeyAndNonce{
EncryptedKeyNonce: key.EncryptedKeyNonce.Bytes(),
EncryptedKey: key.EncryptedKey,
Position: position,
}
}
return keys
}
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