storj/satellite/metainfo/metainfo.go

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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package metainfo
import (
"context"
"crypto/sha256"
"fmt"
"time"
"github.com/spacemonkeygo/monkit/v3"
"github.com/zeebo/errs"
"go.uber.org/zap"
"storj.io/common/context2"
"storj.io/common/encryption"
"storj.io/common/macaroon"
"storj.io/common/memory"
"storj.io/common/pb"
"storj.io/common/rpc/rpcstatus"
"storj.io/common/signing"
"storj.io/common/storj"
"storj.io/common/uuid"
lrucache "storj.io/storj/pkg/cache"
"storj.io/storj/satellite/accounting"
"storj.io/storj/satellite/attribution"
"storj.io/storj/satellite/console"
"storj.io/storj/satellite/internalpb"
"storj.io/storj/satellite/metainfo/metabase"
"storj.io/storj/satellite/metainfo/piecedeletion"
"storj.io/storj/satellite/metainfo/pointerverification"
"storj.io/storj/satellite/orders"
"storj.io/storj/satellite/overlay"
"storj.io/storj/satellite/revocation"
"storj.io/storj/satellite/rewards"
"storj.io/uplink/private/eestream"
)
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const (
satIDExpiration = 48 * time.Hour
deleteObjectPiecesSuccessThreshold = 0.75
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)
var (
mon = monkit.Package()
// Error general metainfo error.
Error = errs.Class("metainfo error")
// ErrNodeAlreadyExists pointer already has a piece for a node err.
ErrNodeAlreadyExists = errs.Class("metainfo error: node already exists")
)
// APIKeys is api keys store methods used by endpoint.
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//
// architecture: Database
type APIKeys interface {
GetByHead(ctx context.Context, head []byte) (*console.APIKeyInfo, error)
}
// Endpoint metainfo endpoint.
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//
// architecture: Endpoint
type Endpoint struct {
log *zap.Logger
metainfo *Service
deletePieces *piecedeletion.Service
orders *orders.Service
overlay *overlay.Service
attributions attribution.DB
partners *rewards.PartnersService
pointerVerification *pointerverification.Service
projectUsage *accounting.Service
projects console.Projects
apiKeys APIKeys
satellite signing.Signer
limiterCache *lrucache.ExpiringLRU
encInlineSegmentSize int64 // max inline segment size + encryption overhead
revocations revocation.DB
defaultRS *pb.RedundancyScheme
config Config
}
// NewEndpoint creates new metainfo endpoint instance.
func NewEndpoint(log *zap.Logger, metainfo *Service, deletePieces *piecedeletion.Service,
orders *orders.Service, cache *overlay.Service, attributions attribution.DB,
partners *rewards.PartnersService, peerIdentities overlay.PeerIdentities,
apiKeys APIKeys, projectUsage *accounting.Service, projects console.Projects,
satellite signing.Signer, revocations revocation.DB, config Config) (*Endpoint, error) {
// TODO do something with too many params
encInlineSegmentSize, err := encryption.CalcEncryptedSize(config.MaxInlineSegmentSize.Int64(), storj.EncryptionParameters{
CipherSuite: storj.EncAESGCM,
BlockSize: 128, // intentionally low block size to allow maximum possible encryption overhead
})
if err != nil {
return nil, err
}
defaultRSScheme := &pb.RedundancyScheme{
Type: pb.RedundancyScheme_RS,
MinReq: int32(config.RS.Min),
RepairThreshold: int32(config.RS.Repair),
SuccessThreshold: int32(config.RS.Success),
Total: int32(config.RS.Total),
ErasureShareSize: config.RS.ErasureShareSize.Int32(),
}
return &Endpoint{
log: log,
metainfo: metainfo,
deletePieces: deletePieces,
orders: orders,
overlay: cache,
attributions: attributions,
partners: partners,
pointerVerification: pointerverification.NewService(peerIdentities),
apiKeys: apiKeys,
projectUsage: projectUsage,
projects: projects,
satellite: satellite,
limiterCache: lrucache.New(lrucache.Options{
Capacity: config.RateLimiter.CacheCapacity,
Expiration: config.RateLimiter.CacheExpiration,
}),
encInlineSegmentSize: encInlineSegmentSize,
revocations: revocations,
defaultRS: defaultRSScheme,
config: config,
}, nil
}
// Close closes resources.
func (endpoint *Endpoint) Close() error { return nil }
func calculateSpaceUsed(segmentSize int64, numberOfPieces int, rs storj.RedundancyScheme) (totalStored int64) {
pieceSize := segmentSize / int64(rs.RequiredShares)
return pieceSize * int64(numberOfPieces)
}
// filterValidPieces filter out the invalid remote pieces held by pointer.
//
// This method expect the pointer to be valid, so it has to be validated before
// calling it.
//
// The method always return a gRPC status error so the caller can directly
// return it to the client.
// func (endpoint *Endpoint) filterValidPieces(ctx context.Context, pointer *pb.Pointer, originalLimits []*pb.OrderLimit) (err error) {
// defer mon.Task()(&ctx)(&err)
// if pointer.Type != pb.Pointer_REMOTE {
// return nil
// }
// // verify that the piece sizes matches what we would expect.
// err = endpoint.pointerVerification.VerifySizes(ctx, pointer)
// if err != nil {
// endpoint.log.Debug("piece sizes are invalid", zap.Error(err))
// return rpcstatus.Errorf(rpcstatus.InvalidArgument, "piece sizes are invalid: %v", err)
// }
// validPieces, invalidPieces, err := endpoint.pointerVerification.SelectValidPieces(ctx, pointer, originalLimits)
// if err != nil {
// endpoint.log.Debug("pointer verification failed", zap.Error(err))
// return rpcstatus.Errorf(rpcstatus.InvalidArgument, "pointer verification failed: %s", err)
// }
// remote := pointer.Remote
// if int32(len(validPieces)) < remote.Redundancy.SuccessThreshold {
// endpoint.log.Debug("Number of valid pieces is less than the success threshold",
// zap.Int("totalReceivedPieces", len(remote.RemotePieces)),
// zap.Int("validPieces", len(validPieces)),
// zap.Int("invalidPieces", len(invalidPieces)),
// zap.Int32("successThreshold", remote.Redundancy.SuccessThreshold),
// )
// errMsg := fmt.Sprintf("Number of valid pieces (%d) is less than the success threshold (%d). Found %d invalid pieces",
// len(validPieces),
// remote.Redundancy.SuccessThreshold,
// len(remote.RemotePieces),
// )
// if len(invalidPieces) > 0 {
// errMsg = fmt.Sprintf("%s. Invalid Pieces:", errMsg)
// for _, p := range invalidPieces {
// errMsg = fmt.Sprintf("%s\nNodeID: %v, PieceNum: %d, Reason: %s",
// errMsg, p.NodeID, p.PieceNum, p.Reason,
// )
// }
// }
// return rpcstatus.Error(rpcstatus.InvalidArgument, errMsg)
// }
// remote.RemotePieces = validPieces
// return nil
// }
// ProjectInfo returns allowed ProjectInfo for the provided API key.
func (endpoint *Endpoint) ProjectInfo(ctx context.Context, req *pb.ProjectInfoRequest) (_ *pb.ProjectInfoResponse, err error) {
defer mon.Task()(&ctx)(&err)
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionProjectInfo,
Time: time.Now(),
})
if err != nil {
return nil, err
}
salt := sha256.Sum256(keyInfo.ProjectID[:])
return &pb.ProjectInfoResponse{
ProjectSalt: salt[:],
}, nil
}
// GetBucket returns a bucket.
func (endpoint *Endpoint) GetBucket(ctx context.Context, req *pb.BucketGetRequest) (resp *pb.BucketGetResponse, err error) {
defer mon.Task()(&ctx)(&err)
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Name,
Time: time.Now(),
})
if err != nil {
return nil, err
}
bucket, err := endpoint.metainfo.GetBucket(ctx, req.GetName(), keyInfo.ProjectID)
if err != nil {
if storj.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.NotFound, err.Error())
}
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// override RS to fit satellite settings
convBucket, err := convertBucketToProto(bucket, endpoint.defaultRS)
if err != nil {
return resp, err
}
return &pb.BucketGetResponse{
Bucket: convBucket,
}, nil
}
// CreateBucket creates a new bucket.
func (endpoint *Endpoint) CreateBucket(ctx context.Context, req *pb.BucketCreateRequest) (resp *pb.BucketCreateResponse, err error) {
defer mon.Task()(&ctx)(&err)
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: req.Name,
Time: time.Now(),
})
if err != nil {
return nil, err
}
err = endpoint.validateBucket(ctx, req.Name)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
// checks if bucket exists before updates it or makes a new entry
_, err = endpoint.metainfo.GetBucket(ctx, req.GetName(), keyInfo.ProjectID)
if err == nil {
// When the bucket exists, try to set the attribution.
if err := endpoint.ensureAttribution(ctx, req.Header, keyInfo, req.GetName()); err != nil {
return nil, err
}
return nil, rpcstatus.Error(rpcstatus.AlreadyExists, "bucket already exists")
}
if !storj.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// check if project has exceeded its allocated bucket limit
maxBuckets, err := endpoint.projects.GetMaxBuckets(ctx, keyInfo.ProjectID)
if err != nil {
return nil, err
}
if maxBuckets == nil {
defaultMaxBuckets := endpoint.config.ProjectLimits.MaxBuckets
maxBuckets = &defaultMaxBuckets
}
bucketCount, err := endpoint.metainfo.CountBuckets(ctx, keyInfo.ProjectID)
if err != nil {
return nil, err
}
if bucketCount >= *maxBuckets {
return nil, rpcstatus.Error(rpcstatus.ResourceExhausted, fmt.Sprintf("number of allocated buckets (%d) exceeded", endpoint.config.ProjectLimits.MaxBuckets))
}
bucketReq, err := convertProtoToBucket(req, keyInfo.ProjectID)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
bucket, err := endpoint.metainfo.CreateBucket(ctx, bucketReq)
if err != nil {
endpoint.log.Error("error while creating bucket", zap.String("bucketName", bucketReq.Name), zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, "unable to create bucket")
}
// Once we have created the bucket, we can try setting the attribution.
if err := endpoint.ensureAttribution(ctx, req.Header, keyInfo, req.GetName()); err != nil {
return nil, err
}
// override RS to fit satellite settings
convBucket, err := convertBucketToProto(bucket, endpoint.defaultRS)
if err != nil {
endpoint.log.Error("error while converting bucket to proto", zap.String("bucketName", bucket.Name), zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, "unable to create bucket")
}
return &pb.BucketCreateResponse{
Bucket: convBucket,
}, nil
}
// DeleteBucket deletes a bucket.
func (endpoint *Endpoint) DeleteBucket(ctx context.Context, req *pb.BucketDeleteRequest) (resp *pb.BucketDeleteResponse, err error) {
defer mon.Task()(&ctx)(&err)
now := time.Now()
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionDelete,
Bucket: req.Name,
Time: now,
})
if err != nil {
return nil, err
}
err = endpoint.validateBucket(ctx, req.Name)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
_, err = endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Name,
Time: now,
})
canRead := err == nil
_, err = endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionList,
Bucket: req.Name,
Time: now,
})
canList := err == nil
var (
bucket storj.Bucket
convBucket *pb.Bucket
)
if canRead || canList {
// Info about deleted bucket is returned only if either Read, or List permission is granted.
bucket, err = endpoint.metainfo.GetBucket(ctx, req.Name, keyInfo.ProjectID)
if err != nil {
if storj.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.NotFound, err.Error())
}
return nil, err
}
convBucket, err = convertBucketToProto(bucket, endpoint.defaultRS)
if err != nil {
return nil, err
}
}
err = endpoint.metainfo.DeleteBucket(ctx, req.Name, keyInfo.ProjectID)
if err != nil {
if !canRead && !canList {
// No error info is returned if neither Read, nor List permission is granted.
return &pb.BucketDeleteResponse{}, nil
}
if ErrBucketNotEmpty.Has(err) {
// List permission is required to delete all objects in a bucket.
if !req.GetDeleteAll() || !canList {
return nil, rpcstatus.Error(rpcstatus.FailedPrecondition, err.Error())
}
_, deletedObjCount, err := endpoint.deleteBucketNotEmpty(ctx, keyInfo.ProjectID, req.Name)
if err != nil {
return nil, err
}
return &pb.BucketDeleteResponse{Bucket: convBucket, DeletedObjectsCount: deletedObjCount}, nil
}
if storj.ErrBucketNotFound.Has(err) {
return &pb.BucketDeleteResponse{Bucket: convBucket}, nil
}
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
return &pb.BucketDeleteResponse{Bucket: convBucket}, nil
}
// deleteBucketNotEmpty deletes all objects from bucket and deletes this bucket.
// On success, it returns only the number of deleted objects.
func (endpoint *Endpoint) deleteBucketNotEmpty(ctx context.Context, projectID uuid.UUID, bucketName []byte) ([]byte, int64, error) {
deletedCount, err := endpoint.deleteBucketObjects(ctx, projectID, bucketName)
if err != nil {
return nil, 0, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
err = endpoint.metainfo.DeleteBucket(ctx, bucketName, projectID)
if err != nil {
if ErrBucketNotEmpty.Has(err) {
return nil, deletedCount, rpcstatus.Error(rpcstatus.FailedPrecondition, "cannot delete the bucket because it's being used by another process")
}
if storj.ErrBucketNotFound.Has(err) {
return bucketName, 0, nil
}
return nil, deletedCount, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
return bucketName, deletedCount, nil
}
// deleteBucketObjects deletes all objects in a bucket.
func (endpoint *Endpoint) deleteBucketObjects(ctx context.Context, projectID uuid.UUID, bucketName []byte) (_ int64, err error) {
defer mon.Task()(&ctx)(&err)
bucketLocation := metabase.BucketLocation{ProjectID: projectID, BucketName: string(bucketName)}
deletedObjects, err := endpoint.metainfo.metabaseDB.DeleteBucketObjects(ctx, metabase.DeleteBucketObjects{
Bucket: bucketLocation,
DeletePieces: func(ctx context.Context, deleted []metabase.DeletedSegmentInfo) error {
endpoint.deleteSegmentPieces(ctx, deleted)
return nil
},
})
return deletedObjects, Error.Wrap(err)
}
// ListBuckets returns buckets in a project where the bucket name matches the request cursor.
func (endpoint *Endpoint) ListBuckets(ctx context.Context, req *pb.BucketListRequest) (resp *pb.BucketListResponse, err error) {
defer mon.Task()(&ctx)(&err)
action := macaroon.Action{
// TODO: This has to be ActionList, but it seems to be set to
// ActionRead as a hacky workaround to make bucket listing possible.
Op: macaroon.ActionRead,
Time: time.Now(),
}
keyInfo, err := endpoint.validateAuth(ctx, req.Header, action)
if err != nil {
return nil, err
}
allowedBuckets, err := getAllowedBuckets(ctx, req.Header, action)
if err != nil {
return nil, err
}
listOpts := storj.BucketListOptions{
Cursor: string(req.Cursor),
Limit: int(req.Limit),
Direction: storj.ListDirection(req.Direction),
}
bucketList, err := endpoint.metainfo.ListBuckets(ctx, keyInfo.ProjectID, listOpts, allowedBuckets)
if err != nil {
return nil, err
}
bucketItems := make([]*pb.BucketListItem, len(bucketList.Items))
for i, item := range bucketList.Items {
bucketItems[i] = &pb.BucketListItem{
Name: []byte(item.Name),
CreatedAt: item.Created,
}
}
return &pb.BucketListResponse{
Items: bucketItems,
More: bucketList.More,
}, nil
}
// CountBuckets returns the number of buckets a project currently has.
// TODO: add this to the uplink client side.
func (endpoint *Endpoint) CountBuckets(ctx context.Context, projectID uuid.UUID) (count int, err error) {
count, err = endpoint.metainfo.CountBuckets(ctx, projectID)
if err != nil {
return 0, err
}
return count, nil
}
func getAllowedBuckets(ctx context.Context, header *pb.RequestHeader, action macaroon.Action) (_ macaroon.AllowedBuckets, err error) {
key, err := getAPIKey(ctx, header)
if err != nil {
return macaroon.AllowedBuckets{}, rpcstatus.Errorf(rpcstatus.InvalidArgument, "Invalid API credentials: %v", err)
}
allowedBuckets, err := key.GetAllowedBuckets(ctx, action)
if err != nil {
return macaroon.AllowedBuckets{}, rpcstatus.Errorf(rpcstatus.Internal, "GetAllowedBuckets: %v", err)
}
return allowedBuckets, err
}
func convertProtoToBucket(req *pb.BucketCreateRequest, projectID uuid.UUID) (bucket storj.Bucket, err error) {
bucketID, err := uuid.New()
if err != nil {
return storj.Bucket{}, err
}
defaultRS := req.GetDefaultRedundancyScheme()
defaultEP := req.GetDefaultEncryptionParameters()
// TODO: resolve partner id
var partnerID uuid.UUID
err = partnerID.UnmarshalJSON(req.GetPartnerId())
// bucket's partnerID should never be set
// it is always read back from buckets DB
if err != nil && !partnerID.IsZero() {
return bucket, errs.New("Invalid uuid")
}
return storj.Bucket{
ID: bucketID,
Name: string(req.GetName()),
ProjectID: projectID,
PartnerID: partnerID,
PathCipher: storj.CipherSuite(req.GetPathCipher()),
DefaultSegmentsSize: req.GetDefaultSegmentSize(),
DefaultRedundancyScheme: storj.RedundancyScheme{
Algorithm: storj.RedundancyAlgorithm(defaultRS.GetType()),
ShareSize: defaultRS.GetErasureShareSize(),
RequiredShares: int16(defaultRS.GetMinReq()),
RepairShares: int16(defaultRS.GetRepairThreshold()),
OptimalShares: int16(defaultRS.GetSuccessThreshold()),
TotalShares: int16(defaultRS.GetTotal()),
},
DefaultEncryptionParameters: storj.EncryptionParameters{
CipherSuite: storj.CipherSuite(defaultEP.CipherSuite),
BlockSize: int32(defaultEP.BlockSize),
},
}, nil
}
func convertBucketToProto(bucket storj.Bucket, rs *pb.RedundancyScheme) (pbBucket *pb.Bucket, err error) {
if bucket == (storj.Bucket{}) {
return nil, nil
}
partnerID, err := bucket.PartnerID.MarshalJSON()
if err != nil {
return pbBucket, rpcstatus.Error(rpcstatus.Internal, "UUID marshal error")
}
pbBucket = &pb.Bucket{
Name: []byte(bucket.Name),
PathCipher: pb.CipherSuite(bucket.PathCipher),
PartnerId: partnerID,
CreatedAt: bucket.Created,
DefaultSegmentSize: bucket.DefaultSegmentsSize,
DefaultRedundancyScheme: rs,
DefaultEncryptionParameters: &pb.EncryptionParameters{
CipherSuite: pb.CipherSuite(bucket.DefaultEncryptionParameters.CipherSuite),
BlockSize: int64(bucket.DefaultEncryptionParameters.BlockSize),
},
}
// this part is to provide default ciphers (path and encryption) for old uplinks
// new uplinks are using ciphers from encryption access
if pbBucket.PathCipher == pb.CipherSuite_ENC_UNSPECIFIED {
pbBucket.PathCipher = pb.CipherSuite_ENC_AESGCM
}
if pbBucket.DefaultEncryptionParameters.CipherSuite == pb.CipherSuite_ENC_UNSPECIFIED {
pbBucket.DefaultEncryptionParameters.CipherSuite = pb.CipherSuite_ENC_AESGCM
pbBucket.DefaultEncryptionParameters.BlockSize = int64(rs.ErasureShareSize * rs.MinReq)
}
return pbBucket, nil
}
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// BeginObject begins object.
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func (endpoint *Endpoint) BeginObject(ctx context.Context, req *pb.ObjectBeginRequest) (resp *pb.ObjectBeginResponse, err error) {
defer mon.Task()(&ctx)(&err)
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
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Op: macaroon.ActionWrite,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, err
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}
if !req.ExpiresAt.IsZero() && !req.ExpiresAt.After(time.Now()) {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "Invalid expiration time")
}
err = endpoint.validateBucket(ctx, 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
_, err = endpoint.metainfo.GetBucket(ctx, req.Bucket, keyInfo.ProjectID)
if err != nil {
if storj.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.NotFound, err.Error())
}
endpoint.log.Error("unable to check bucket", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
_, err = endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionDelete,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Time: time.Now(),
})
canDelete := err == nil
if canDelete {
_, err = endpoint.DeleteCommittedObject(ctx, keyInfo.ProjectID, string(req.Bucket), metabase.ObjectKey(req.EncryptedPath))
if err != nil {
return nil, err
}
} else {
_, err = endpoint.metainfo.metabaseDB.GetObjectLatestVersion(ctx, metabase.GetObjectLatestVersion{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedPath),
},
})
if err == nil {
return nil, rpcstatus.Error(rpcstatus.PermissionDenied, "Unauthorized API credentials")
}
}
if err := endpoint.ensureAttribution(ctx, req.Header, keyInfo, req.Bucket); err != nil {
return nil, err
}
// use only satellite values for Redundancy Scheme
pbRS := endpoint.defaultRS
streamID, err := uuid.New()
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// TODO this will work only with newsest uplink
// figue 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
}
_, err = endpoint.metainfo.metabaseDB.BeginObjectExactVersion(ctx, metabase.BeginObjectExactVersion{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedPath),
StreamID: streamID,
Version: metabase.Version(1),
},
ExpiresAt: expiresAt,
Encryption: encryptionParameters,
})
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,
EncryptedPath: req.EncryptedPath,
Version: req.Version,
Redundancy: pbRS,
CreationDate: time.Now(),
ExpirationDate: req.ExpiresAt,
StreamId: streamID[:],
})
if err != nil {
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)
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return &pb.ObjectBeginResponse{
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Version: req.Version,
StreamId: satStreamID,
RedundancyScheme: pbRS,
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}, nil
}
// CommitObject commits an object when all its segments have already been committed.
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func (endpoint *Endpoint) CommitObject(ctx context.Context, req *pb.ObjectCommitRequest) (resp *pb.ObjectCommitResponse, err error) {
defer mon.Task()(&ctx)(&err)
return endpoint.commitObject(ctx, req, nil)
}
func (endpoint *Endpoint) commitObject(ctx context.Context, req *pb.ObjectCommitRequest, pointer *pb.Pointer) (resp *pb.ObjectCommitResponse, err error) {
defer mon.Task()(&ctx)(&err)
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamId)
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if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
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}
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
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Op: macaroon.ActionWrite,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, err
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}
metadataSize := memory.Size(len(req.EncryptedMetadata))
if metadataSize > endpoint.config.MaxMetadataSize {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, fmt.Sprintf("Metadata is too large, got %v, maximum allowed is %v", metadataSize, endpoint.config.MaxMetadataSize))
}
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
_, err = endpoint.metainfo.metabaseDB.CommitObject(ctx, metabase.CommitObject{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedPath),
StreamID: id,
Version: metabase.Version(1),
},
EncryptedMetadata: req.EncryptedMetadata,
EncryptedMetadataNonce: req.EncryptedMetadataNonce[:],
EncryptedMetadataEncryptedKey: req.EncryptedMetadataEncryptedKey,
})
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
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return &pb.ObjectCommitResponse{}, nil
}
// GetObject gets single object.
func (endpoint *Endpoint) GetObject(ctx context.Context, req *pb.ObjectGetRequest) (resp *pb.ObjectGetResponse, err error) {
defer mon.Task()(&ctx)(&err)
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, err
}
err = endpoint.validateBucket(ctx, req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
object, err := endpoint.getObject(ctx, keyInfo.ProjectID, req.Bucket, req.EncryptedPath, req.Version)
if err != nil {
return nil, err
}
endpoint.log.Info("Object Download", 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
}
func (endpoint *Endpoint) getObject(ctx context.Context, projectID uuid.UUID, bucket, encryptedPath []byte, version int32) (*pb.Object, error) {
metaObject, err := endpoint.metainfo.metabaseDB.GetObjectLatestVersion(ctx, metabase.GetObjectLatestVersion{
ObjectLocation: metabase.ObjectLocation{
ProjectID: projectID,
BucketName: string(bucket),
ObjectKey: metabase.ObjectKey(encryptedPath),
},
})
if err != nil {
if storj.ErrObjectNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.NotFound, err.Error())
}
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
object, err := endpoint.objectToProto(ctx, metaObject)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
return object, nil
}
// ListObjects list objects according to specific parameters.
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func (endpoint *Endpoint) ListObjects(ctx context.Context, req *pb.ObjectListRequest) (resp *pb.ObjectListResponse, err error) {
defer mon.Task()(&ctx)(&err)
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
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Op: macaroon.ActionList,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPrefix,
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Time: time.Now(),
})
if err != nil {
return nil, err
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}
err = endpoint.validateBucket(ctx, req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
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}
// TODO this needs to be optimized to avoid DB call on each request
_, err = endpoint.metainfo.GetBucket(ctx, req.Bucket, keyInfo.ProjectID)
if err != nil {
if storj.ErrBucketNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.NotFound, err.Error())
}
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")
}
if limit == 0 {
limit = metabase.MaxListLimit
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}
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)
}
cursor := string(req.EncryptedCursor)
if len(cursor) != 0 {
cursor = string(prefix) + cursor
}
resp = &pb.ObjectListResponse{}
// TODO: Replace with IterateObjectsLatestVersion when ready
err = endpoint.metainfo.metabaseDB.IterateObjectsAllVersionsWithStatus(ctx,
metabase.IterateObjectsWithStatus{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
Prefix: prefix,
Cursor: metabase.IterateCursor{
Key: metabase.ObjectKey(cursor),
Version: 1, // TODO: set to a the version from the protobuf request when it supports this
},
Recursive: req.Recursive,
BatchSize: limit + 1,
Status: status,
}, 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)
if err != nil {
return err
}
resp.Items = append(resp.Items, item)
}
resp.More = it.Next(ctx, &entry)
return nil
},
)
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if err != nil {
if metabase.ErrInvalidRequest.Has(err) {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
endpoint.log.Error("unable to list objects", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
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}
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)
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return resp, nil
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}
// BeginDeleteObject begins object deletion process.
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func (endpoint *Endpoint) BeginDeleteObject(ctx context.Context, req *pb.ObjectBeginDeleteRequest) (resp *pb.ObjectBeginDeleteResponse, err error) {
defer mon.Task()(&ctx)(&err)
now := time.Now()
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
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Op: macaroon.ActionDelete,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Time: now,
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})
if err != nil {
return nil, err
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}
err = endpoint.validateBucket(ctx, req.Bucket)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
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}
_, err = endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Time: now,
})
canRead := err == nil
_, err = endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionList,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Time: now,
})
canList := err == nil
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, keyInfo.ProjectID, string(req.Bucket), metabase.ObjectKey(req.EncryptedPath), req.GetVersion(), streamID)
}
}
} else {
deletedObjects, err = endpoint.DeleteCommittedObject(ctx, keyInfo.ProjectID, string(req.Bucket), metabase.ObjectKey(req.EncryptedPath))
}
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, 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.EncryptedPath)),
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)
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return &pb.ObjectBeginDeleteResponse{
Object: object,
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}, nil
}
// FinishDeleteObject finishes object deletion.
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func (endpoint *Endpoint) FinishDeleteObject(ctx context.Context, req *pb.ObjectFinishDeleteRequest) (resp *pb.ObjectFinishDeleteResponse, err error) {
// all logic for deleting is now in BeginDeleteObject
return nil, rpcstatus.Error(rpcstatus.Unimplemented, "not implemented")
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}
// 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)
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionRead,
Bucket: req.Bucket,
EncryptedPath: req.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, err
}
err = endpoint.validateBucket(ctx, 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.metainfo.metabaseDB.GetObjectLatestVersion(ctx, metabase.GetObjectLatestVersion{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(req.Bucket),
ObjectKey: metabase.ObjectKey(req.EncryptedPath),
},
})
if err != nil {
if storj.ErrObjectNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.NotFound, err.Error())
}
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
more := true
cursor := metabase.SegmentPosition{}
var nodeIDs []storj.NodeID
for more {
list, err := endpoint.metainfo.metabaseDB.ListSegments(ctx, metabase.ListSegments{
StreamID: object.StreamID,
Cursor: cursor,
})
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
for _, segment := range list.Segments {
for _, piece := range segment.Pieces {
nodeIDs = append(nodeIDs, piece.StorageNode)
}
cursor = segment.Position
}
more = list.More
}
nodes, err := endpoint.overlay.GetOnlineNodesForGetDelete(ctx, nodeIDs)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
resp = &pb.ObjectGetIPsResponse{}
for _, node := range nodes {
address := node.Address.GetAddress()
if address != "" {
resp.Ips = append(resp.Ips, []byte(address))
}
}
return resp, nil
}
// BeginSegment begins segment uploading.
func (endpoint *Endpoint) BeginSegment(ctx context.Context, req *pb.SegmentBeginRequest) (resp *pb.SegmentBeginResponse, err error) {
defer mon.Task()(&ctx)(&err)
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,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, err
}
// no need to validate streamID fields because it was validated during BeginObject
if req.Position.Index < 0 {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "segment index must be greater then 0")
}
exceeded, limit, err := endpoint.projectUsage.ExceedsStorageUsage(ctx, keyInfo.ProjectID)
if err != nil {
endpoint.log.Error("Retrieving project storage totals failed.", zap.Error(err))
}
if exceeded {
endpoint.log.Error("Monthly storage limit exceeded.",
zap.Stringer("Limit", limit),
zap.Stringer("Project ID", keyInfo.ProjectID),
)
return nil, rpcstatus.Error(rpcstatus.ResourceExhausted, "Exceeded Usage Limit")
}
redundancy, err := eestream.NewRedundancyStrategyFromProto(streamID.Redundancy)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
maxPieceSize := eestream.CalcPieceSize(req.MaxOrderLimit, redundancy)
request := overlay.FindStorageNodesRequest{
RequestedCount: redundancy.TotalCount(),
}
nodes, err := endpoint.overlay.FindStorageNodesForUpload(ctx, request)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
bucket := metabase.BucketLocation{ProjectID: keyInfo.ProjectID, BucketName: string(streamID.Bucket)}
rootPieceID, addressedLimits, piecePrivateKey, err := endpoint.orders.CreatePutOrderLimits(ctx, bucket, nodes, streamID.ExpirationDate, maxPieceSize)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
pieces := metabase.Pieces{}
for i, limit := range addressedLimits {
pieces = append(pieces, metabase.Piece{
Number: uint16(i),
StorageNode: limit.Limit.StorageNodeId,
})
}
err = endpoint.metainfo.metabaseDB.BeginSegment(ctx, metabase.BeginSegment{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedPath),
StreamID: id,
Version: 1,
},
Position: metabase.SegmentPosition{
Part: uint32(req.Position.PartNumber),
Index: uint32(req.Position.Index),
},
RootPieceID: rootPieceID,
Pieces: pieces,
})
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
segmentID, err := endpoint.packSegmentID(ctx, &internalpb.SegmentID{
StreamId: streamID,
PartNumber: req.Position.PartNumber,
Index: req.Position.Index,
OriginalOrderLimits: addressedLimits,
RootPieceId: rootPieceID,
CreationDate: time.Now(),
})
endpoint.log.Info("Segment Upload", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "put"), zap.String("type", "remote"))
mon.Meter("req_put_remote").Mark(1)
return &pb.SegmentBeginResponse{
SegmentId: segmentID,
AddressedLimits: addressedLimits,
PrivateKey: piecePrivateKey,
RedundancyScheme: endpoint.defaultRS,
}, nil
}
// CommitSegment commits segment after uploading.
func (endpoint *Endpoint) CommitSegment(ctx context.Context, req *pb.SegmentCommitRequest) (resp *pb.SegmentCommitResponse, err error) {
defer mon.Task()(&ctx)(&err)
_, resp, err = endpoint.commitSegment(ctx, req, true)
return resp, err
}
func (endpoint *Endpoint) commitSegment(ctx context.Context, req *pb.SegmentCommitRequest, savePointer bool) (_ *pb.Pointer, resp *pb.SegmentCommitResponse, err error) {
defer mon.Task()(&ctx)(&err)
segmentID, err := endpoint.unmarshalSatSegmentID(ctx, req.SegmentId)
if err != nil {
return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
streamID := segmentID.StreamId
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, nil, err
}
if numResults := len(req.UploadResult); numResults < int(streamID.Redundancy.GetSuccessThreshold()) {
endpoint.log.Debug("the results of uploaded pieces for the segment is below the redundancy optimal threshold",
zap.Int("upload pieces results", numResults),
zap.Int32("redundancy optimal threshold", streamID.Redundancy.GetSuccessThreshold()),
zap.Stringer("Segment ID", req.SegmentId),
)
return nil, nil, rpcstatus.Errorf(rpcstatus.InvalidArgument,
"the number of results of uploaded pieces (%d) is below the optimal threshold (%d)",
numResults, streamID.Redundancy.GetSuccessThreshold(),
)
}
// TODO bring back validation
// orderLimits := make([]*pb.OrderLimit, len(segmentID.OriginalOrderLimits))
// for i, orderLimit := range segmentID.OriginalOrderLimits {
// orderLimits[i] = orderLimit.Limit
// }
// err = endpoint.validatePointer(ctx, pointer, orderLimits)
// if err != nil {
// return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
// }
// err = endpoint.filterValidPieces(ctx, pointer, orderLimits)
// if err != nil {
// return nil, nil, err
// }
exceeded, limit, err := endpoint.projectUsage.ExceedsStorageUsage(ctx, keyInfo.ProjectID)
if err != nil {
return nil, nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
if exceeded {
endpoint.log.Error("The project limit of storage and bandwidth has been exceeded",
zap.Int64("limit", limit.Int64()),
zap.Stringer("Project ID", keyInfo.ProjectID),
)
return nil, nil, rpcstatus.Error(rpcstatus.ResourceExhausted, "Exceeded Usage Limit")
}
pieces := metabase.Pieces{}
for _, result := range req.UploadResult {
pieces = append(pieces, metabase.Piece{
Number: uint16(result.PieceNum),
StorageNode: result.NodeId,
})
}
rs := storj.RedundancyScheme{
Algorithm: storj.RedundancyAlgorithm(endpoint.defaultRS.Type),
RequiredShares: int16(endpoint.defaultRS.MinReq),
RepairShares: int16(endpoint.defaultRS.RepairThreshold),
OptimalShares: int16(endpoint.defaultRS.SuccessThreshold),
TotalShares: int16(endpoint.defaultRS.Total),
ShareSize: endpoint.defaultRS.ErasureShareSize,
}
segmentSize := req.SizeEncryptedData
totalStored := calculateSpaceUsed(segmentSize, len(pieces), rs)
// ToDo: Replace with hash & signature validation
// Ensure neither uplink or storage nodes are cheating on us
// We cannot have more redundancy than total/min
if float64(totalStored) > (float64(segmentSize)/float64(rs.RequiredShares))*float64(rs.TotalShares) {
endpoint.log.Debug("data size mismatch",
zap.Int64("segment", segmentSize),
zap.Int64("pieces", totalStored),
zap.Int16("redundancy minimum requested", rs.RequiredShares),
zap.Int16("redundancy total", rs.TotalShares),
)
return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, "mismatched segment size and piece usage")
}
satellite/accounting: refactor live accounting to hold current estimated totals live accounting used to be a cache to store writes before they are picked up during the tally iteration, after which the cache is cleared. This created a window in which users could potentially exceed the storage limit. This PR refactors live accounting to hold current estimations of space used per project. This should also reduce DB load since we no longer need to query the satellite DB when checking space used for limiting. The mechanism by which the new live accounting system works is as follows: During the upload of any segment, the size of that segment is added to its respective project total in live accounting. At the beginning of the tally iteration we record the current values in live accounting as `initialLiveTotals`. At the end of the tally iteration we again record the current totals in live accounting as `latestLiveTotals`. The metainfo loop observer in tally allows us to get the project totals from what it observed in metainfo DB which are stored in `tallyProjectTotals`. However, for any particular segment uploaded during the metainfo loop, the observer may or may not have seen it. Thus, we take half of the difference between `latestLiveTotals` and `initialLiveTotals`, and add that to the total that was found during tally and set that as the new live accounting total. Initially, live accounting was storing the total stored amount across all nodes rather than the segment size, which is inconsistent with how we record amounts stored in the project accounting DB, so we have refactored live accounting to record segment size Change-Id: Ie48bfdef453428fcdc180b2d781a69d58fd927fb
2019-10-31 17:27:38 +00:00
if err := endpoint.projectUsage.AddProjectStorageUsage(ctx, keyInfo.ProjectID, segmentSize); err != nil {
endpoint.log.Error("Could not track new storage usage by project",
zap.Stringer("Project ID", keyInfo.ProjectID),
zap.Error(err),
)
// but 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 and storage limits.
}
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
return nil, nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
err = endpoint.metainfo.metabaseDB.CommitSegment(ctx, metabase.CommitSegment{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedPath),
StreamID: id,
Version: 1,
},
EncryptedKey: req.EncryptedKey,
EncryptedKeyNonce: req.EncryptedKeyNonce[:],
EncryptedSize: int32(req.SizeEncryptedData), // TODO incompatible types int32 vs int64
PlainSize: int32(req.PlainSize), // TODO incompatible types int32 vs int64
Position: metabase.SegmentPosition{
Part: uint32(segmentID.PartNumber),
Index: uint32(segmentID.Index),
},
RootPieceID: segmentID.RootPieceId,
Redundancy: rs,
Pieces: pieces,
})
if err != nil {
if metabase.ErrInvalidRequest.Has(err) {
return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
endpoint.log.Error("internal", zap.Error(err))
return nil, nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
return nil, &pb.SegmentCommitResponse{
SuccessfulPieces: int32(len(pieces)),
}, nil
}
// MakeInlineSegment makes inline segment on satellite.
func (endpoint *Endpoint) MakeInlineSegment(ctx context.Context, req *pb.SegmentMakeInlineRequest) (resp *pb.SegmentMakeInlineResponse, err error) {
defer mon.Task()(&ctx)(&err)
_, resp, err = endpoint.makeInlineSegment(ctx, req, true)
return resp, err
}
// makeInlineSegment makes inline segment on satellite.
func (endpoint *Endpoint) makeInlineSegment(ctx context.Context, req *pb.SegmentMakeInlineRequest, savePointer bool) (pointer *pb.Pointer, resp *pb.SegmentMakeInlineResponse, err error) {
defer mon.Task()(&ctx)(&err)
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamId)
if err != nil {
return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
keyInfo, err := endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionWrite,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, nil, err
}
if req.Position.Index < 0 {
return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, "segment index must be greater then 0")
}
inlineUsed := int64(len(req.EncryptedInlineData))
// TODO silently ignore empty inline segmens to be backward compatible with old uplinks.
// Metabase is rejecting empty inline segments.
if inlineUsed == 0 {
return nil, &pb.SegmentMakeInlineResponse{}, nil
}
if inlineUsed > endpoint.encInlineSegmentSize {
return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, fmt.Sprintf("inline segment size cannot be larger than %s", endpoint.config.MaxInlineSegmentSize))
}
exceeded, limit, err := endpoint.projectUsage.ExceedsStorageUsage(ctx, keyInfo.ProjectID)
if err != nil {
return nil, nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
if exceeded {
endpoint.log.Error("Monthly storage limit exceeded.",
zap.Stringer("Limit", limit),
zap.Stringer("Project ID", keyInfo.ProjectID),
)
return nil, nil, rpcstatus.Error(rpcstatus.ResourceExhausted, "Exceeded Usage Limit")
}
satellite/accounting: refactor live accounting to hold current estimated totals live accounting used to be a cache to store writes before they are picked up during the tally iteration, after which the cache is cleared. This created a window in which users could potentially exceed the storage limit. This PR refactors live accounting to hold current estimations of space used per project. This should also reduce DB load since we no longer need to query the satellite DB when checking space used for limiting. The mechanism by which the new live accounting system works is as follows: During the upload of any segment, the size of that segment is added to its respective project total in live accounting. At the beginning of the tally iteration we record the current values in live accounting as `initialLiveTotals`. At the end of the tally iteration we again record the current totals in live accounting as `latestLiveTotals`. The metainfo loop observer in tally allows us to get the project totals from what it observed in metainfo DB which are stored in `tallyProjectTotals`. However, for any particular segment uploaded during the metainfo loop, the observer may or may not have seen it. Thus, we take half of the difference between `latestLiveTotals` and `initialLiveTotals`, and add that to the total that was found during tally and set that as the new live accounting total. Initially, live accounting was storing the total stored amount across all nodes rather than the segment size, which is inconsistent with how we record amounts stored in the project accounting DB, so we have refactored live accounting to record segment size Change-Id: Ie48bfdef453428fcdc180b2d781a69d58fd927fb
2019-10-31 17:27:38 +00:00
if err := endpoint.projectUsage.AddProjectStorageUsage(ctx, keyInfo.ProjectID, inlineUsed); err != nil {
endpoint.log.Error("Could not track new storage usage.", zap.Stringer("Project ID", keyInfo.ProjectID), zap.Error(err))
// but 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 and storage limits.
}
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
return nil, nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
err = endpoint.metainfo.metabaseDB.CommitInlineSegment(ctx, metabase.CommitInlineSegment{
ObjectStream: metabase.ObjectStream{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedPath),
StreamID: id,
Version: 1,
},
EncryptedKey: req.EncryptedKey,
EncryptedKeyNonce: req.EncryptedKeyNonce.Bytes(),
Position: metabase.SegmentPosition{
Part: uint32(req.Position.PartNumber),
Index: uint32(req.Position.Index),
},
PlainSize: int32(req.PlainSize), // TODO incompatible types int32 vs int64
InlineData: req.EncryptedInlineData,
})
if err != nil {
if metabase.ErrInvalidRequest.Has(err) {
return nil, nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
endpoint.log.Error("internal", zap.Error(err))
return nil, nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
bucket := metabase.BucketLocation{ProjectID: keyInfo.ProjectID, BucketName: string(streamID.Bucket)}
err = endpoint.orders.UpdatePutInlineOrder(ctx, bucket, inlineUsed)
if err != nil {
return nil, nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
endpoint.log.Info("Inline Segment Upload", zap.Stringer("Project ID", keyInfo.ProjectID), zap.String("operation", "put"), zap.String("type", "inline"))
mon.Meter("req_put_inline").Mark(1)
return nil, &pb.SegmentMakeInlineResponse{}, nil
}
// BeginDeleteSegment begins segment deletion process.
func (endpoint *Endpoint) BeginDeleteSegment(ctx context.Context, req *pb.SegmentBeginDeleteRequest) (resp *pb.SegmentBeginDeleteResponse, err error) {
// all logic for deleting is now in BeginDeleteObject
return nil, rpcstatus.Error(rpcstatus.Unimplemented, "not implemented")
}
// FinishDeleteSegment finishes segment deletion process.
func (endpoint *Endpoint) FinishDeleteSegment(ctx context.Context, req *pb.SegmentFinishDeleteRequest) (resp *pb.SegmentFinishDeleteResponse, err error) {
// all logic for deleting is now in BeginDeleteObject
return nil, rpcstatus.Error(rpcstatus.Unimplemented, "not implemented")
}
// ListSegments list object segments.
func (endpoint *Endpoint) ListSegments(ctx context.Context, req *pb.SegmentListRequest) (resp *pb.SegmentListResponse, err error) {
defer mon.Task()(&ctx)(&err)
streamID, err := endpoint.unmarshalSatStreamID(ctx, req.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, err.Error())
}
_, err = endpoint.validateAuth(ctx, req.Header, macaroon.Action{
Op: macaroon.ActionRead,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, err
}
cursor := req.CursorPosition
if cursor == nil {
cursor = &pb.SegmentPosition{}
}
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
result, err := endpoint.metainfo.metabaseDB.ListSegments(ctx, metabase.ListSegments{
StreamID: id,
Cursor: metabase.SegmentPosition{
Part: uint32(cursor.PartNumber),
Index: uint32(cursor.Index),
},
Limit: int(req.Limit),
})
if err != nil {
if storj.ErrObjectNotFound.Has(err) {
return nil, rpcstatus.Error(rpcstatus.NotFound, err.Error())
}
endpoint.log.Error("internal", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
items := make([]*pb.SegmentListItem, len(result.Segments))
for i, item := range result.Segments {
items[i] = &pb.SegmentListItem{
Position: &pb.SegmentPosition{
PartNumber: int32(item.Position.Part),
Index: int32(item.Position.Index),
},
PlainSize: int64(item.PlainSize),
}
}
return &pb.SegmentListResponse{
Items: items,
More: result.More,
}, nil
}
// DownloadSegment returns data necessary to download segment.
func (endpoint *Endpoint) DownloadSegment(ctx context.Context, req *pb.SegmentDownloadRequest) (resp *pb.SegmentDownloadResponse, err error) {
defer mon.Task()(&ctx)(&err)
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.ActionRead,
Bucket: streamID.Bucket,
EncryptedPath: streamID.EncryptedPath,
Time: time.Now(),
})
if err != nil {
return nil, err
}
bucket := metabase.BucketLocation{ProjectID: keyInfo.ProjectID, BucketName: string(streamID.Bucket)}
exceeded, limit, err := endpoint.projectUsage.ExceedsBandwidthUsage(ctx, keyInfo.ProjectID)
if err != nil {
endpoint.log.Error("Retrieving project bandwidth total failed.", zap.Error(err))
}
if exceeded {
endpoint.log.Error("Monthly bandwidth limit exceeded.",
zap.Stringer("Limit", limit),
zap.Stringer("Project ID", keyInfo.ProjectID),
)
return nil, rpcstatus.Error(rpcstatus.ResourceExhausted, "Exceeded Usage Limit")
}
id, err := uuid.FromBytes(streamID.StreamId)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
var segment metabase.Segment
if req.CursorPosition.PartNumber == 0 && req.CursorPosition.Index == -1 {
segment, err = endpoint.metainfo.metabaseDB.GetLatestObjectLastSegment(ctx, metabase.GetLatestObjectLastSegment{
ObjectLocation: metabase.ObjectLocation{
ProjectID: keyInfo.ProjectID,
BucketName: string(streamID.Bucket),
ObjectKey: metabase.ObjectKey(streamID.EncryptedPath),
},
})
} else {
segment, err = endpoint.metainfo.metabaseDB.GetSegmentByPosition(ctx, metabase.GetSegmentByPosition{
StreamID: id,
Position: metabase.SegmentPosition{
Part: uint32(req.CursorPosition.PartNumber),
Index: uint32(req.CursorPosition.Index),
},
})
}
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
// Update the current bandwidth cache value incrementing the SegmentSize.
err = endpoint.projectUsage.UpdateProjectBandwidthUsage(ctx, keyInfo.ProjectID, int64(segment.EncryptedSize))
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
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.Redundancy.IsZero() { // TODO maybe add method Segment.Inline() bool
// Inline segment
err := endpoint.orders.UpdateGetInlineOrder(ctx, bucket, int64(len(segment.InlineData)))
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
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{
SegmentSize: int64(segment.EncryptedSize),
EncryptedInlineData: segment.InlineData,
EncryptedKeyNonce: encryptedKeyNonce,
EncryptedKey: segment.EncryptedKey,
}, nil
}
// Remote segment
limits, privateKey, err := endpoint.orders.CreateGetOrderLimits2(ctx, bucket, segment)
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),
)
}
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
limits = sortLimits(limits, segment)
// workaround to avoid sending nil values on top level
for i := range limits {
if limits[i] == nil {
limits[i] = &pb.AddressedOrderLimit{}
}
}
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,
SegmentSize: int64(segment.EncryptedSize),
EncryptedKeyNonce: encryptedKeyNonce,
EncryptedKey: segment.EncryptedKey,
}, nil
}
// sortLimits sorts order limits and fill missing ones with nil values.
func sortLimits(limits []*pb.AddressedOrderLimit, segment metabase.Segment) []*pb.AddressedOrderLimit {
sorted := make([]*pb.AddressedOrderLimit, segment.Redundancy.TotalShares)
for _, piece := range segment.Pieces {
sorted[piece.Number] = getLimitByStorageNodeID(limits, piece.StorageNode)
}
return sorted
}
func getLimitByStorageNodeID(limits []*pb.AddressedOrderLimit, storageNodeID storj.NodeID) *pb.AddressedOrderLimit {
for _, limit := range limits {
if limit == nil || limit.GetLimit() == nil {
continue
}
if limit.GetLimit().StorageNodeId == storageNodeID {
return limit
}
}
return nil
}
func (endpoint *Endpoint) packStreamID(ctx context.Context, satStreamID *internalpb.StreamID) (streamID storj.StreamID, err error) {
defer mon.Task()(&ctx)(&err)
signedStreamID, err := SignStreamID(ctx, endpoint.satellite, satStreamID)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
encodedStreamID, err := pb.Marshal(signedStreamID)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
streamID, err = storj.StreamIDFromBytes(encodedStreamID)
if err != nil {
return nil, rpcstatus.Error(rpcstatus.Internal, err.Error())
}
return streamID, nil
}
func (endpoint *Endpoint) packSegmentID(ctx context.Context, satSegmentID *internalpb.SegmentID) (segmentID storj.SegmentID, err error) {
defer mon.Task()(&ctx)(&err)
signedSegmentID, err := SignSegmentID(ctx, endpoint.satellite, satSegmentID)
if err != nil {
return nil, err
}
encodedSegmentID, err := pb.Marshal(signedSegmentID)
if err != nil {
return nil, err
}
segmentID, err = storj.SegmentIDFromBytes(encodedSegmentID)
if err != nil {
return nil, err
}
return segmentID, nil
}
func (endpoint *Endpoint) unmarshalSatStreamID(ctx context.Context, streamID storj.StreamID) (_ *internalpb.StreamID, err error) {
defer mon.Task()(&ctx)(&err)
satStreamID := &internalpb.StreamID{}
err = pb.Unmarshal(streamID, satStreamID)
if err != nil {
return nil, err
}
err = VerifyStreamID(ctx, endpoint.satellite, satStreamID)
if err != nil {
return nil, err
}
if satStreamID.CreationDate.Before(time.Now().Add(-satIDExpiration)) {
return nil, errs.New("stream ID expired")
}
return satStreamID, nil
}
func (endpoint *Endpoint) unmarshalSatSegmentID(ctx context.Context, segmentID storj.SegmentID) (_ *internalpb.SegmentID, err error) {
defer mon.Task()(&ctx)(&err)
satSegmentID := &internalpb.SegmentID{}
err = pb.Unmarshal(segmentID, satSegmentID)
if err != nil {
return nil, err
}
if satSegmentID.StreamId == nil {
return nil, errs.New("stream ID missing")
}
err = VerifySegmentID(ctx, endpoint.satellite, satSegmentID)
if err != nil {
return nil, err
}
if satSegmentID.CreationDate.Before(time.Now().Add(-satIDExpiration)) {
return nil, errs.New("segment ID expired")
}
return satSegmentID, 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.
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,
}
result, err := endpoint.metainfo.metabaseDB.DeleteObjectsAllVersions(ctx, metabase.DeleteObjectsAllVersions{Locations: []metabase.ObjectLocation{req}})
if err != nil {
return nil, err
}
deletedObjects, err = endpoint.deleteObjectsPieces(ctx, result)
if err != nil {
endpoint.log.Error("failed to delete pointers",
zap.Stringer("project", projectID),
zap.String("bucket", bucket),
zap.Binary("object", []byte(object)),
zap.Error(err),
)
return deletedObjects, 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.
func (endpoint *Endpoint) DeletePendingObject(ctx context.Context, projectID uuid.UUID, bucket string, objectKey metabase.ObjectKey, version int32, streamID uuid.UUID) (deletedObjects []*pb.Object, err error) {
req := metabase.DeletePendingObject{
ObjectLocation: metabase.ObjectLocation{
ProjectID: projectID,
BucketName: bucket,
ObjectKey: objectKey,
},
Version: metabase.Version(version),
StreamID: streamID,
}
result, err := endpoint.metainfo.metabaseDB.DeletePendingObject(ctx, req)
if err != nil {
return nil, err
}
return endpoint.deleteObjectsPieces(ctx, result)
}
func (endpoint *Endpoint) deleteObjectsPieces(ctx context.Context, result metabase.DeleteObjectResult) (deletedObjects []*pb.Object, err error) {
// We should ignore client cancelling and always try to delete segments.
ctx = context2.WithoutCancellation(ctx)
deletedObjects = make([]*pb.Object, len(result.Objects))
for i, object := range result.Objects {
deletedObject, err := endpoint.objectToProto(ctx, object)
if err != nil {
return nil, err
}
deletedObjects[i] = deletedObject
}
endpoint.deleteSegmentPieces(ctx, result.Segments)
return deletedObjects, nil
}
func (endpoint *Endpoint) deleteSegmentPieces(ctx context.Context, segments []metabase.DeletedSegmentInfo) {
nodesPieces := groupPiecesByNodeID(segments)
var requests []piecedeletion.Request
for node, pieces := range nodesPieces {
requests = append(requests, piecedeletion.Request{
Node: storj.NodeURL{
ID: node,
},
Pieces: pieces,
})
}
// Only return an error if we failed to delete the objects. If we failed
// to delete pieces, let garbage collector take care of it.
if err := endpoint.deletePieces.Delete(ctx, requests, deleteObjectPiecesSuccessThreshold); err != nil {
endpoint.log.Error("failed to delete pieces", zap.Error(err))
}
}
func (endpoint *Endpoint) objectToProto(ctx context.Context, object metabase.Object) (*pb.Object, error) {
expires := time.Time{}
if object.ExpiresAt != nil {
expires = *object.ExpiresAt
}
streamID, err := endpoint.packStreamID(ctx, &internalpb.StreamID{
Bucket: []byte(object.BucketName),
EncryptedPath: []byte(object.ObjectKey),
Version: int32(object.Version), // TODO incomatible types
CreationDate: time.Now(),
StreamId: object.StreamID[:],
// TODO: defaultRS may change while the upload is pending.
// Ideally, we should remove redundancy from satStreamID.
Redundancy: endpoint.defaultRS,
})
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),
EncryptedPath: []byte(object.ObjectKey),
Version: int32(object.Version), // TODO incomatible 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),
},
// TODO extend DownloadSegment response to provide RS values for client
RedundancyScheme: endpoint.defaultRS,
}
return result, nil
}
func (endpoint *Endpoint) objectEntryToProtoListItem(ctx context.Context, bucket []byte, entry metabase.ObjectEntry) (item *pb.ObjectListItem, err error) {
expires := time.Time{}
if entry.ExpiresAt != nil {
expires = *entry.ExpiresAt
}
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
}
// TODO is this enough to handle old uplinks
if streamMeta.EncryptionBlockSize == 0 {
streamMeta.EncryptionBlockSize = entry.Encryption.BlockSize
}
if streamMeta.EncryptionType == 0 {
streamMeta.EncryptionType = int32(entry.Encryption.CipherSuite)
}
if streamMeta.NumberOfSegments == 0 {
streamMeta.NumberOfSegments = int64(entry.SegmentCount)
}
if streamMeta.LastSegmentMeta == nil {
streamMeta.LastSegmentMeta = &pb.SegmentMeta{
EncryptedKey: entry.EncryptedMetadataEncryptedKey,
KeyNonce: entry.EncryptedMetadataNonce,
}
}
metadataBytes, err := pb.Marshal(streamMeta)
if err != nil {
return nil, err
}
item = &pb.ObjectListItem{
EncryptedPath: []byte(entry.ObjectKey),
Version: int32(entry.Version), // TODO incomatible types
Status: pb.Object_Status(entry.Status),
ExpiresAt: expires,
CreatedAt: entry.CreatedAt,
PlainSize: entry.TotalPlainSize,
EncryptedMetadata: metadataBytes,
EncryptedMetadataNonce: nonce,
}
// 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,
EncryptedPath: item.EncryptedPath,
Version: item.Version,
CreationDate: item.CreatedAt,
StreamId: entry.StreamID[:],
// TODO: defaultRS may change while the upload is pending.
// Ideally, we should remove redundancy from satStreamID.
Redundancy: endpoint.defaultRS,
})
if err != nil {
return nil, err
}
item.StreamId = &satStreamID
}
return item, nil
}
// groupPiecesByNodeID returns a map that contains pieces with node id as the key.
func groupPiecesByNodeID(segments []metabase.DeletedSegmentInfo) map[storj.NodeID][]storj.PieceID {
piecesToDelete := map[storj.NodeID][]storj.PieceID{}
for _, segment := range segments {
for _, piece := range segment.Pieces {
pieceID := segment.RootPieceID.Derive(piece.StorageNode, int32(piece.Number))
piecesToDelete[piece.StorageNode] = append(piecesToDelete[piece.StorageNode], pieceID)
}
}
return piecesToDelete
}
// RevokeAPIKey handles requests to revoke an api key.
func (endpoint *Endpoint) RevokeAPIKey(ctx context.Context, req *pb.RevokeAPIKeyRequest) (resp *pb.RevokeAPIKeyResponse, err error) {
defer mon.Task()(&ctx)(&err)
macToRevoke, err := macaroon.ParseMacaroon(req.GetApiKey())
if err != nil {
return nil, rpcstatus.Error(rpcstatus.InvalidArgument, "API key to revoke is not a macaroon")
}
keyInfo, err := endpoint.validateRevoke(ctx, req.Header, macToRevoke)
if err != nil {
return nil, err
}
err = endpoint.revocations.Revoke(ctx, macToRevoke.Tail(), keyInfo.ID[:])
if err != nil {
endpoint.log.Error("Failed to revoke API key", zap.Error(err))
return nil, rpcstatus.Error(rpcstatus.Internal, "Failed to revoke API key")
}
return &pb.RevokeAPIKeyResponse{}, nil
}
// CreatePath creates a segment key.
func CreatePath(ctx context.Context, projectID uuid.UUID, segmentIndex uint32, bucket, path []byte) (_ metabase.SegmentLocation, err error) {
// TODO rename to CreateLocation
defer mon.Task()(&ctx)(&err)
return metabase.SegmentLocation{
ProjectID: projectID,
BucketName: string(bucket),
Position: metabase.SegmentPosition{Index: segmentIndex},
ObjectKey: metabase.ObjectKey(path),
}, nil
}