1f8f7ebf06
inconsistency The original design had a flaw which can potentially cause discrepancy for nodes reputation status between reputations table and nodes table. In the event of a failure(network issue, db failure, satellite failure, etc.) happens between update to reputations table and update to nodes table, data can be out of sync. This PR tries to fix above issue by passing through node's reputation from the beginning of an audit/repair(this data is from nodes table) to the next update in reputation service. If the updated reputation status from the service is different from the existing node status, the service will try to update nodes table. In the case of a failure, the service will be able to try update nodes table again since it can see the discrepancy of the data. This will allow both tables to be in-sync eventually. Change-Id: Ic22130b4503a594b7177237b18f7e68305c2f122
584 lines
20 KiB
Go
584 lines
20 KiB
Go
// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
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package orders
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import (
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"context"
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"math"
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mathrand "math/rand"
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"sync"
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"time"
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"github.com/zeebo/errs"
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"go.uber.org/zap"
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"storj.io/common/pb"
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"storj.io/common/signing"
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"storj.io/common/storj"
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"storj.io/common/uuid"
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"storj.io/storj/satellite/internalpb"
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"storj.io/storj/satellite/metabase"
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"storj.io/storj/satellite/overlay"
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"storj.io/uplink/private/eestream"
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)
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var (
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// ErrDownloadFailedNotEnoughPieces is returned when download failed due to missing pieces.
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ErrDownloadFailedNotEnoughPieces = errs.Class("not enough pieces for download")
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// ErrDecryptOrderMetadata is returned when a step of decrypting metadata fails.
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ErrDecryptOrderMetadata = errs.Class("decrytping order metadata")
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)
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// Config is a configuration struct for orders Service.
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type Config struct {
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EncryptionKeys EncryptionKeys `help:"encryption keys to encrypt info in orders" default:""`
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Expiration time.Duration `help:"how long until an order expires" default:"48h" testDefault:"168h"` // default is 2 days
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FlushBatchSize int `help:"how many items in the rollups write cache before they are flushed to the database" devDefault:"20" releaseDefault:"1000" testDefault:"10"`
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FlushInterval time.Duration `help:"how often to flush the rollups write cache to the database" devDefault:"30s" releaseDefault:"1m" testDefault:"$TESTINTERVAL"`
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NodeStatusLogging bool `hidden:"true" help:"deprecated, log the offline/disqualification status of nodes" default:"false" testDefault:"true"`
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OrdersSemaphoreSize int `help:"how many concurrent orders to process at once. zero is unlimited" default:"2"`
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}
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// BucketsDB returns information about buckets.
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type BucketsDB interface {
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// GetBucketID returns an existing bucket id.
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GetBucketID(ctx context.Context, bucket metabase.BucketLocation) (id uuid.UUID, err error)
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}
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// Service for creating order limits.
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//
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// architecture: Service
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type Service struct {
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log *zap.Logger
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satellite signing.Signer
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overlay *overlay.Service
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orders DB
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buckets BucketsDB
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encryptionKeys EncryptionKeys
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orderExpiration time.Duration
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rngMu sync.Mutex
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rng *mathrand.Rand
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}
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// NewService creates new service for creating order limits.
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func NewService(
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log *zap.Logger, satellite signing.Signer, overlay *overlay.Service,
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orders DB, buckets BucketsDB,
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config Config,
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) (*Service, error) {
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if config.EncryptionKeys.Default.IsZero() {
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return nil, Error.New("encryption keys must be specified to include encrypted metadata")
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}
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return &Service{
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log: log,
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satellite: satellite,
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overlay: overlay,
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orders: orders,
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buckets: buckets,
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encryptionKeys: config.EncryptionKeys,
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orderExpiration: config.Expiration,
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rng: mathrand.New(mathrand.NewSource(time.Now().UnixNano())),
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}, nil
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}
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// VerifyOrderLimitSignature verifies that the signature inside order limit belongs to the satellite.
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func (service *Service) VerifyOrderLimitSignature(ctx context.Context, signed *pb.OrderLimit) (err error) {
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defer mon.Task()(&ctx)(&err)
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return signing.VerifyOrderLimitSignature(ctx, service.satellite, signed)
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}
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func (service *Service) updateBandwidth(ctx context.Context, bucket metabase.BucketLocation, addressedOrderLimits ...*pb.AddressedOrderLimit) (err error) {
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defer mon.Task()(&ctx)(&err)
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if len(addressedOrderLimits) == 0 {
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return nil
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}
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var action pb.PieceAction
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var bucketAllocation int64
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for _, addressedOrderLimit := range addressedOrderLimits {
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if addressedOrderLimit != nil && addressedOrderLimit.Limit != nil {
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orderLimit := addressedOrderLimit.Limit
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action = orderLimit.Action
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bucketAllocation += orderLimit.Limit
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}
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}
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now := time.Now().UTC()
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intervalStart := time.Date(now.Year(), now.Month(), now.Day(), now.Hour(), 0, 0, 0, now.Location())
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// TODO: all of this below should be a single db transaction. in fact, this whole function should probably be part of an existing transaction
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if err := service.orders.UpdateBucketBandwidthAllocation(ctx, bucket.ProjectID, []byte(bucket.BucketName), action, bucketAllocation, intervalStart); err != nil {
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return Error.Wrap(err)
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}
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return nil
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}
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// CreateGetOrderLimits creates the order limits for downloading the pieces of a segment.
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func (service *Service) CreateGetOrderLimits(ctx context.Context, bucket metabase.BucketLocation, segment metabase.Segment, overrideLimit int64) (_ []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, err error) {
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defer mon.Task()(&ctx)(&err)
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redundancy, err := eestream.NewRedundancyStrategyFromStorj(segment.Redundancy)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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orderLimit := eestream.CalcPieceSize(int64(segment.EncryptedSize), redundancy)
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if overrideLimit > 0 && overrideLimit < orderLimit {
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orderLimit = overrideLimit
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}
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nodeIDs := make([]storj.NodeID, len(segment.Pieces))
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for i, piece := range segment.Pieces {
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nodeIDs[i] = piece.StorageNode
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}
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nodes, err := service.overlay.GetOnlineNodesForGetDelete(ctx, nodeIDs)
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if err != nil {
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service.log.Debug("error getting nodes from overlay", zap.Error(err))
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return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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signer, err := NewSignerGet(service, segment.RootPieceID, time.Now(), orderLimit, bucket)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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neededLimits := segment.Redundancy.DownloadNodes()
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pieces := segment.Pieces
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for _, pieceIndex := range service.perm(len(pieces)) {
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piece := pieces[pieceIndex]
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node, ok := nodes[piece.StorageNode]
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if !ok {
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continue
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}
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address := node.Address.Address
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if node.LastIPPort != "" {
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address = node.LastIPPort
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}
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_, err := signer.Sign(ctx, storj.NodeURL{
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ID: piece.StorageNode,
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Address: address,
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}, int32(piece.Number))
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if err != nil {
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return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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if len(signer.AddressedLimits) >= int(neededLimits) {
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break
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}
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}
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if len(signer.AddressedLimits) < redundancy.RequiredCount() {
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mon.Meter("download_failed_not_enough_pieces_uplink").Mark(1) //mon:locked
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return nil, storj.PiecePrivateKey{}, ErrDownloadFailedNotEnoughPieces.New("not enough orderlimits: got %d, required %d", len(signer.AddressedLimits), redundancy.RequiredCount())
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}
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if err := service.updateBandwidth(ctx, bucket, signer.AddressedLimits...); err != nil {
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return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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signer.AddressedLimits, err = sortLimits(signer.AddressedLimits, segment)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, err
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}
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// workaround to avoid sending nil values on top level
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for i := range signer.AddressedLimits {
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if signer.AddressedLimits[i] == nil {
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signer.AddressedLimits[i] = &pb.AddressedOrderLimit{}
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}
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}
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return signer.AddressedLimits, signer.PrivateKey, nil
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}
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func (service *Service) perm(n int) []int {
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service.rngMu.Lock()
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defer service.rngMu.Unlock()
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return service.rng.Perm(n)
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}
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// sortLimits sorts order limits and fill missing ones with nil values.
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func sortLimits(limits []*pb.AddressedOrderLimit, segment metabase.Segment) ([]*pb.AddressedOrderLimit, error) {
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sorted := make([]*pb.AddressedOrderLimit, segment.Redundancy.TotalShares)
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for _, piece := range segment.Pieces {
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if int16(piece.Number) >= segment.Redundancy.TotalShares {
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return nil, Error.New("piece number is greater than redundancy total shares: got %d, max %d",
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piece.Number, (segment.Redundancy.TotalShares - 1))
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}
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sorted[piece.Number] = getLimitByStorageNodeID(limits, piece.StorageNode)
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}
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return sorted, nil
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}
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func getLimitByStorageNodeID(limits []*pb.AddressedOrderLimit, storageNodeID storj.NodeID) *pb.AddressedOrderLimit {
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for _, limit := range limits {
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if limit == nil || limit.GetLimit() == nil {
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continue
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}
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if limit.GetLimit().StorageNodeId == storageNodeID {
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return limit
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}
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}
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return nil
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}
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// CreatePutOrderLimits creates the order limits for uploading pieces to nodes.
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func (service *Service) CreatePutOrderLimits(ctx context.Context, bucket metabase.BucketLocation, nodes []*overlay.SelectedNode, pieceExpiration time.Time, maxPieceSize int64) (_ storj.PieceID, _ []*pb.AddressedOrderLimit, privateKey storj.PiecePrivateKey, err error) {
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defer mon.Task()(&ctx)(&err)
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signer, err := NewSignerPut(service, pieceExpiration, time.Now(), maxPieceSize, bucket)
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if err != nil {
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return storj.PieceID{}, nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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for pieceNum, node := range nodes {
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address := node.Address.Address
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if node.LastIPPort != "" {
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address = node.LastIPPort
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}
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_, err := signer.Sign(ctx, storj.NodeURL{ID: node.ID, Address: address}, int32(pieceNum))
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if err != nil {
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return storj.PieceID{}, nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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}
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if err := service.updateBandwidth(ctx, bucket, signer.AddressedLimits...); err != nil {
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return storj.PieceID{}, nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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return signer.RootPieceID, signer.AddressedLimits, signer.PrivateKey, nil
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}
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// CreateAuditOrderLimits creates the order limits for auditing the pieces of a segment.
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func (service *Service) CreateAuditOrderLimits(ctx context.Context, segment metabase.Segment, skip map[storj.NodeID]bool) (_ []*pb.AddressedOrderLimit, _ storj.PiecePrivateKey, cachedNodesInfo map[storj.NodeID]overlay.NodeReputation, err error) {
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defer mon.Task()(&ctx)(&err)
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nodeIDs := make([]storj.NodeID, len(segment.Pieces))
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for i, piece := range segment.Pieces {
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nodeIDs[i] = piece.StorageNode
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}
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nodes, err := service.overlay.GetOnlineNodesForAuditRepair(ctx, nodeIDs)
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if err != nil {
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service.log.Debug("error getting nodes from overlay", zap.Error(err))
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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bucket := metabase.BucketLocation{}
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signer, err := NewSignerAudit(service, segment.RootPieceID, time.Now(), int64(segment.Redundancy.ShareSize), bucket)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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cachedNodesInfo = make(map[storj.NodeID]overlay.NodeReputation)
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var nodeErrors errs.Group
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var limitsCount int16
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limits := make([]*pb.AddressedOrderLimit, segment.Redundancy.TotalShares)
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for _, piece := range segment.Pieces {
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if skip[piece.StorageNode] {
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continue
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}
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node, ok := nodes[piece.StorageNode]
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if !ok {
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nodeErrors.Add(errs.New("node %q is not reliable", piece.StorageNode))
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continue
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}
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address := node.Address.Address
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cachedNodesInfo[piece.StorageNode] = *node
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limit, err := signer.Sign(ctx, storj.NodeURL{
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ID: piece.StorageNode,
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Address: address,
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}, int32(piece.Number))
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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limits[piece.Number] = limit
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limitsCount++
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}
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if limitsCount < segment.Redundancy.RequiredShares {
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err = ErrDownloadFailedNotEnoughPieces.New("not enough nodes available: got %d, required %d", limitsCount, segment.Redundancy.RequiredShares)
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return nil, storj.PiecePrivateKey{}, nil, errs.Combine(err, nodeErrors.Err())
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}
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return limits, signer.PrivateKey, cachedNodesInfo, nil
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}
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// CreateAuditOrderLimit creates an order limit for auditing a single the piece from a segment.
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func (service *Service) CreateAuditOrderLimit(ctx context.Context, nodeID storj.NodeID, pieceNum uint16, rootPieceID storj.PieceID, shareSize int32) (limit *pb.AddressedOrderLimit, _ storj.PiecePrivateKey, nodeInfo *overlay.NodeReputation, err error) {
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// TODO reduce number of params ?
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defer mon.Task()(&ctx)(&err)
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node, err := service.overlay.Get(ctx, nodeID)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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nodeInfo = &overlay.NodeReputation{
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ID: nodeID,
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Address: node.Address,
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LastNet: node.LastNet,
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LastIPPort: node.LastIPPort,
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Reputation: node.Reputation.Status,
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}
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if node.Disqualified != nil {
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return nil, storj.PiecePrivateKey{}, nodeInfo, overlay.ErrNodeDisqualified.New("%v", nodeID)
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}
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if node.ExitStatus.ExitFinishedAt != nil {
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return nil, storj.PiecePrivateKey{}, nodeInfo, overlay.ErrNodeFinishedGE.New("%v", nodeID)
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}
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if !service.overlay.IsOnline(node) {
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return nil, storj.PiecePrivateKey{}, nodeInfo, overlay.ErrNodeOffline.New("%v", nodeID)
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}
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signer, err := NewSignerAudit(service, rootPieceID, time.Now(), int64(shareSize), metabase.BucketLocation{})
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nodeInfo, Error.Wrap(err)
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}
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orderLimit, err := signer.Sign(ctx, storj.NodeURL{
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ID: nodeID,
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Address: node.Address.Address,
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}, int32(pieceNum))
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nodeInfo, Error.Wrap(err)
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}
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return orderLimit, signer.PrivateKey, nodeInfo, nil
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}
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// CreateGetRepairOrderLimits creates the order limits for downloading the
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// healthy pieces of segment as the source for repair.
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//
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// The length of the returned orders slice is the total number of pieces of the
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// segment, setting to null the ones which don't correspond to a healthy piece.
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func (service *Service) CreateGetRepairOrderLimits(ctx context.Context, bucket metabase.BucketLocation, segment metabase.Segment, healthy metabase.Pieces) (_ []*pb.AddressedOrderLimit, _ storj.PiecePrivateKey, cachedNodesInfo map[storj.NodeID]overlay.NodeReputation, err error) {
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defer mon.Task()(&ctx)(&err)
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redundancy, err := eestream.NewRedundancyStrategyFromStorj(segment.Redundancy)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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pieceSize := eestream.CalcPieceSize(int64(segment.EncryptedSize), redundancy)
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totalPieces := redundancy.TotalCount()
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nodeIDs := make([]storj.NodeID, len(segment.Pieces))
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for i, piece := range segment.Pieces {
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nodeIDs[i] = piece.StorageNode
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}
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nodes, err := service.overlay.GetOnlineNodesForAuditRepair(ctx, nodeIDs)
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if err != nil {
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service.log.Debug("error getting nodes from overlay", zap.Error(err))
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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signer, err := NewSignerRepairGet(service, segment.RootPieceID, time.Now(), pieceSize, bucket)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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cachedNodesInfo = make(map[storj.NodeID]overlay.NodeReputation, len(healthy))
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var nodeErrors errs.Group
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var limitsCount int
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limits := make([]*pb.AddressedOrderLimit, totalPieces)
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for _, piece := range healthy {
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node, ok := nodes[piece.StorageNode]
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if !ok {
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nodeErrors.Add(errs.New("node %q is not reliable", piece.StorageNode))
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continue
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}
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cachedNodesInfo[piece.StorageNode] = *node
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limit, err := signer.Sign(ctx, storj.NodeURL{
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ID: piece.StorageNode,
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Address: node.Address.Address,
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}, int32(piece.Number))
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if err != nil {
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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limits[piece.Number] = limit
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limitsCount++
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}
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if limitsCount < redundancy.RequiredCount() {
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err = ErrDownloadFailedNotEnoughPieces.New("not enough nodes available: got %d, required %d", limitsCount, redundancy.RequiredCount())
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return nil, storj.PiecePrivateKey{}, nil, errs.Combine(err, nodeErrors.Err())
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}
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if err := service.updateBandwidth(ctx, bucket, limits...); err != nil {
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return nil, storj.PiecePrivateKey{}, nil, Error.Wrap(err)
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}
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return limits, signer.PrivateKey, cachedNodesInfo, nil
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}
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// CreatePutRepairOrderLimits creates the order limits for uploading the repaired pieces of segment to newNodes.
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func (service *Service) CreatePutRepairOrderLimits(ctx context.Context, bucket metabase.BucketLocation, segment metabase.Segment, getOrderLimits []*pb.AddressedOrderLimit, newNodes []*overlay.SelectedNode, optimalThresholdMultiplier float64) (_ []*pb.AddressedOrderLimit, _ storj.PiecePrivateKey, err error) {
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defer mon.Task()(&ctx)(&err)
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// Create the order limits for being used to upload the repaired pieces
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redundancy, err := eestream.NewRedundancyStrategyFromStorj(segment.Redundancy)
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if err != nil {
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return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
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}
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pieceSize := eestream.CalcPieceSize(int64(segment.EncryptedSize), redundancy)
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|
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totalPieces := redundancy.TotalCount()
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totalPiecesAfterRepair := int(math.Ceil(float64(redundancy.OptimalThreshold()) * optimalThresholdMultiplier))
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if totalPiecesAfterRepair > totalPieces {
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totalPiecesAfterRepair = totalPieces
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}
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|
|
|
var numCurrentPieces int
|
|
for _, o := range getOrderLimits {
|
|
if o != nil {
|
|
numCurrentPieces++
|
|
}
|
|
}
|
|
|
|
totalPiecesToRepair := totalPiecesAfterRepair - numCurrentPieces
|
|
|
|
limits := make([]*pb.AddressedOrderLimit, totalPieces)
|
|
|
|
expirationDate := time.Time{}
|
|
if segment.ExpiresAt != nil {
|
|
expirationDate = *segment.ExpiresAt
|
|
}
|
|
|
|
signer, err := NewSignerRepairPut(service, segment.RootPieceID, expirationDate, time.Now(), pieceSize, bucket)
|
|
if err != nil {
|
|
return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
|
|
}
|
|
|
|
var pieceNum int32
|
|
for _, node := range newNodes {
|
|
for int(pieceNum) < totalPieces && getOrderLimits[pieceNum] != nil {
|
|
pieceNum++
|
|
}
|
|
|
|
if int(pieceNum) >= totalPieces { // should not happen
|
|
return nil, storj.PiecePrivateKey{}, Error.New("piece num greater than total pieces: %d >= %d", pieceNum, totalPieces)
|
|
}
|
|
|
|
limit, err := signer.Sign(ctx, storj.NodeURL{
|
|
ID: node.ID,
|
|
Address: node.Address.Address,
|
|
}, pieceNum)
|
|
if err != nil {
|
|
return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
|
|
}
|
|
|
|
limits[pieceNum] = limit
|
|
pieceNum++
|
|
totalPiecesToRepair--
|
|
|
|
if totalPiecesToRepair == 0 {
|
|
break
|
|
}
|
|
}
|
|
|
|
if err := service.updateBandwidth(ctx, bucket, limits...); err != nil {
|
|
return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
|
|
}
|
|
|
|
return limits, signer.PrivateKey, nil
|
|
}
|
|
|
|
// CreateGracefulExitPutOrderLimit creates an order limit for graceful exit put transfers.
|
|
func (service *Service) CreateGracefulExitPutOrderLimit(ctx context.Context, bucket metabase.BucketLocation, nodeID storj.NodeID, pieceNum int32, rootPieceID storj.PieceID, shareSize int32) (limit *pb.AddressedOrderLimit, _ storj.PiecePrivateKey, err error) {
|
|
defer mon.Task()(&ctx)(&err)
|
|
|
|
// should this use KnownReliable or similar?
|
|
node, err := service.overlay.Get(ctx, nodeID)
|
|
if err != nil {
|
|
return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
|
|
}
|
|
if node.Disqualified != nil {
|
|
return nil, storj.PiecePrivateKey{}, overlay.ErrNodeDisqualified.New("%v", nodeID)
|
|
}
|
|
if !service.overlay.IsOnline(node) {
|
|
return nil, storj.PiecePrivateKey{}, overlay.ErrNodeOffline.New("%v", nodeID)
|
|
}
|
|
|
|
signer, err := NewSignerGracefulExit(service, rootPieceID, time.Now(), shareSize, bucket)
|
|
if err != nil {
|
|
return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
|
|
}
|
|
|
|
address := node.Address.Address
|
|
if node.LastIPPort != "" {
|
|
address = node.LastIPPort
|
|
}
|
|
nodeURL := storj.NodeURL{ID: nodeID, Address: address}
|
|
limit, err = signer.Sign(ctx, nodeURL, pieceNum)
|
|
if err != nil {
|
|
return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
|
|
}
|
|
|
|
if err := service.updateBandwidth(ctx, bucket, limit); err != nil {
|
|
return nil, storj.PiecePrivateKey{}, Error.Wrap(err)
|
|
}
|
|
|
|
return limit, signer.PrivateKey, nil
|
|
}
|
|
|
|
// UpdateGetInlineOrder updates amount of inline GET bandwidth for given bucket.
|
|
func (service *Service) UpdateGetInlineOrder(ctx context.Context, bucket metabase.BucketLocation, amount int64) (err error) {
|
|
defer mon.Task()(&ctx)(&err)
|
|
now := time.Now().UTC()
|
|
intervalStart := time.Date(now.Year(), now.Month(), now.Day(), now.Hour(), 0, 0, 0, now.Location())
|
|
|
|
return service.orders.UpdateBucketBandwidthInline(ctx, bucket.ProjectID, []byte(bucket.BucketName), pb.PieceAction_GET, amount, intervalStart)
|
|
}
|
|
|
|
// UpdatePutInlineOrder updates amount of inline PUT bandwidth for given bucket.
|
|
func (service *Service) UpdatePutInlineOrder(ctx context.Context, bucket metabase.BucketLocation, amount int64) (err error) {
|
|
defer mon.Task()(&ctx)(&err)
|
|
now := time.Now().UTC()
|
|
intervalStart := time.Date(now.Year(), now.Month(), now.Day(), now.Hour(), 0, 0, 0, now.Location())
|
|
|
|
return service.orders.UpdateBucketBandwidthInline(ctx, bucket.ProjectID, []byte(bucket.BucketName), pb.PieceAction_PUT, amount, intervalStart)
|
|
}
|
|
|
|
// DecryptOrderMetadata decrypts the order metadata.
|
|
func (service *Service) DecryptOrderMetadata(ctx context.Context, order *pb.OrderLimit) (_ *internalpb.OrderLimitMetadata, err error) {
|
|
defer mon.Task()(&ctx)(&err)
|
|
|
|
var orderKeyID EncryptionKeyID
|
|
copy(orderKeyID[:], order.EncryptedMetadataKeyId)
|
|
|
|
key := service.encryptionKeys.Default
|
|
if key.ID != orderKeyID {
|
|
val, ok := service.encryptionKeys.KeyByID[orderKeyID]
|
|
if !ok {
|
|
return nil, ErrDecryptOrderMetadata.New("no encryption key found that matches the order.EncryptedMetadataKeyId")
|
|
}
|
|
key = EncryptionKey{
|
|
ID: orderKeyID,
|
|
Key: val,
|
|
}
|
|
}
|
|
return key.DecryptMetadata(order.SerialNumber, order.EncryptedMetadata)
|
|
}
|