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endpoint.go
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endpoint.go
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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package orders
import (
"bytes"
"context"
"errors"
"io"
"sort"
"time"
"github.com/spacemonkeygo/monkit/v3"
"github.com/zeebo/errs"
"go.uber.org/zap"
"storj.io/common/identity"
"storj.io/common/pb"
"storj.io/common/rpc/rpcstatus"
"storj.io/common/signing"
"storj.io/common/storj"
"storj.io/common/uuid"
"storj.io/storj/private/date"
"storj.io/storj/satellite/metabase"
"storj.io/storj/satellite/nodeapiversion"
)
// DB implements saving order after receiving from storage node.
//
// architecture: Database
type DB interface {
// UpdateBucketBandwidthAllocation updates 'allocated' bandwidth for given bucket
UpdateBucketBandwidthAllocation(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) error
// UpdateBucketBandwidthSettle updates 'settled' bandwidth for given bucket
UpdateBucketBandwidthSettle(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) error
// UpdateBucketBandwidthInline updates 'inline' bandwidth for given bucket
UpdateBucketBandwidthInline(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) error
// UpdateBucketBandwidthBatch updates all the bandwidth rollups in the database
UpdateBucketBandwidthBatch(ctx context.Context, intervalStart time.Time, rollups []BucketBandwidthRollup) error
// UpdateStoragenodeBandwidthSettle updates 'settled' bandwidth for given storage node
UpdateStoragenodeBandwidthSettle(ctx context.Context, storageNode storj.NodeID, action pb.PieceAction, amount int64, intervalStart time.Time) error
// UpdateStoragenodeBandwidthSettleWithWindow updates 'settled' bandwidth for given storage node
UpdateStoragenodeBandwidthSettleWithWindow(ctx context.Context, storageNodeID storj.NodeID, actionAmounts map[int32]int64, window time.Time) (status pb.SettlementWithWindowResponse_Status, alreadyProcessed bool, err error)
// GetBucketBandwidth gets total bucket bandwidth from period of time
GetBucketBandwidth(ctx context.Context, projectID uuid.UUID, bucketName []byte, from, to time.Time) (int64, error)
// GetStorageNodeBandwidth gets total storage node bandwidth from period of time
GetStorageNodeBandwidth(ctx context.Context, nodeID storj.NodeID, from, to time.Time) (int64, error)
}
// SerialDeleteOptions are option when deleting from serial tables.
type SerialDeleteOptions struct {
BatchSize int
}
// ConsumedSerial is a serial that has been consumed and its bandwidth recorded.
type ConsumedSerial struct {
NodeID storj.NodeID
SerialNumber storj.SerialNumber
ExpiresAt time.Time
}
// PendingSerial is a serial number reported by a storagenode waiting to be
// settled.
type PendingSerial struct {
NodeID storj.NodeID
BucketID []byte
Action uint
SerialNumber storj.SerialNumber
ExpiresAt time.Time
Settled uint64
}
var (
// Error the default orders errs class.
Error = errs.Class("orders")
// ErrUsingSerialNumber error class for serial number.
ErrUsingSerialNumber = errs.Class("serial number")
mon = monkit.Package()
)
// BucketBandwidthRollup contains all the info needed for a bucket bandwidth rollup.
type BucketBandwidthRollup struct {
ProjectID uuid.UUID
BucketName string
Action pb.PieceAction
Inline int64
Allocated int64
Settled int64
}
// SortBucketBandwidthRollups sorts the rollups.
func SortBucketBandwidthRollups(rollups []BucketBandwidthRollup) {
sort.SliceStable(rollups, func(i, j int) bool {
uuidCompare := bytes.Compare(rollups[i].ProjectID[:], rollups[j].ProjectID[:])
switch {
case uuidCompare == -1:
return true
case uuidCompare == 1:
return false
case rollups[i].BucketName < rollups[j].BucketName:
return true
case rollups[i].BucketName > rollups[j].BucketName:
return false
case rollups[i].Action < rollups[j].Action:
return true
case rollups[i].Action > rollups[j].Action:
return false
default:
return false
}
})
}
// StoragenodeBandwidthRollup contains all the info needed for a storagenode bandwidth rollup.
type StoragenodeBandwidthRollup struct {
NodeID storj.NodeID
Action pb.PieceAction
Allocated int64
Settled int64
}
// SortStoragenodeBandwidthRollups sorts the rollups.
func SortStoragenodeBandwidthRollups(rollups []StoragenodeBandwidthRollup) {
sort.SliceStable(rollups, func(i, j int) bool {
nodeCompare := bytes.Compare(rollups[i].NodeID.Bytes(), rollups[j].NodeID.Bytes())
switch {
case nodeCompare == -1:
return true
case nodeCompare == 1:
return false
case rollups[i].Action < rollups[j].Action:
return true
case rollups[i].Action > rollups[j].Action:
return false
default:
return false
}
})
}
// Endpoint for orders receiving.
//
// architecture: Endpoint
type Endpoint struct {
pb.DRPCOrdersUnimplementedServer
log *zap.Logger
satelliteSignee signing.Signee
DB DB
nodeAPIVersionDB nodeapiversion.DB
ordersSemaphore chan struct{}
ordersService *Service
}
// NewEndpoint new orders receiving endpoint.
//
// ordersSemaphoreSize controls the number of concurrent clients allowed to submit orders at once.
// A value of zero means unlimited.
func NewEndpoint(log *zap.Logger, satelliteSignee signing.Signee, db DB, nodeAPIVersionDB nodeapiversion.DB,
ordersSemaphoreSize int, ordersService *Service) *Endpoint {
var ordersSemaphore chan struct{}
if ordersSemaphoreSize > 0 {
ordersSemaphore = make(chan struct{}, ordersSemaphoreSize)
}
return &Endpoint{
log: log,
satelliteSignee: satelliteSignee,
DB: db,
nodeAPIVersionDB: nodeAPIVersionDB,
ordersSemaphore: ordersSemaphore,
ordersService: ordersService,
}
}
type bucketIDAction struct {
bucketname string
projectID uuid.UUID
action pb.PieceAction
}
// SettlementWithWindow processes all orders that were created in a 1 hour window.
// Only one window is processed at a time.
// Batches are atomic, all orders are settled successfully or they all fail.
func (endpoint *Endpoint) SettlementWithWindow(stream pb.DRPCOrders_SettlementWithWindowStream) (err error) {
return endpoint.SettlementWithWindowFinal(stream)
}
func trackFinalStatus(status pb.SettlementWithWindowResponse_Status) {
switch status {
case pb.SettlementWithWindowResponse_ACCEPTED:
mon.Event("settlement_response_accepted")
case pb.SettlementWithWindowResponse_REJECTED:
mon.Event("settlement_response_rejected")
default:
mon.Event("settlement_response_unknown")
}
}
// SettlementWithWindowFinal processes all orders that were created in a 1 hour window.
// Only one window is processed at a time.
// Batches are atomic, all orders are settled successfully or they all fail.
func (endpoint *Endpoint) SettlementWithWindowFinal(stream pb.DRPCOrders_SettlementWithWindowStream) (err error) {
ctx := stream.Context()
defer mon.Task()(&ctx)(&err)
var alreadyProcessed bool
var status pb.SettlementWithWindowResponse_Status
defer trackFinalStatus(status)
peer, err := identity.PeerIdentityFromContext(ctx)
if err != nil {
endpoint.log.Debug("err peer identity from context", zap.Error(err))
return rpcstatus.Error(rpcstatus.Unauthenticated, err.Error())
}
versionAtLeast, err := endpoint.nodeAPIVersionDB.VersionAtLeast(ctx, peer.ID, nodeapiversion.HasWindowedOrders)
if err != nil {
endpoint.log.Info("could not query if node version was new enough", zap.Error(err))
versionAtLeast = false
}
if !versionAtLeast {
err = endpoint.nodeAPIVersionDB.UpdateVersionAtLeast(ctx, peer.ID, nodeapiversion.HasWindowedOrders)
if err != nil {
return rpcstatus.Wrap(rpcstatus.Internal, err)
}
}
log := endpoint.log.Named(peer.ID.String())
log.Debug("SettlementWithWindow")
storagenodeSettled := map[int32]int64{}
bucketSettled := map[bucketIDAction]int64{}
seenSerials := map[storj.SerialNumber]struct{}{}
var window int64
var request *pb.SettlementRequest
var receivedCount int
for {
request, err = stream.Recv()
if err != nil {
if errors.Is(err, io.EOF) {
break
}
log.Debug("err streaming order request", zap.Error(err))
return rpcstatus.Error(rpcstatus.Unknown, err.Error())
}
receivedCount++
orderLimit := request.Limit
if orderLimit == nil {
log.Debug("request.OrderLimit is nil")
continue
}
if window == 0 {
window = date.TruncateToHourInNano(orderLimit.OrderCreation)
}
order := request.Order
if order == nil {
log.Debug("request.Order is nil")
continue
}
serialNum := order.SerialNumber
// don't process orders that aren't valid
if !endpoint.isValid(ctx, log, order, orderLimit, peer.ID, window) {
continue
}
// don't process orders with serial numbers we've already seen
if _, ok := seenSerials[serialNum]; ok {
log.Debug("seen serial", zap.String("serial number", serialNum.String()))
continue
}
seenSerials[serialNum] = struct{}{}
storagenodeSettled[int32(orderLimit.Action)] += order.Amount
metadata, err := endpoint.ordersService.DecryptOrderMetadata(ctx, orderLimit)
if err != nil {
log.Debug("decrypt order metadata err:", zap.Error(err))
mon.Event("bucketinfo_from_orders_metadata_error_1")
continue
}
var bucketInfo metabase.BucketLocation
switch {
case len(metadata.CompactProjectBucketPrefix) > 0:
bucketInfo, err = metabase.ParseCompactBucketPrefix(metadata.GetCompactProjectBucketPrefix())
if err != nil {
log.Debug("decrypt order: ParseCompactBucketPrefix", zap.Error(err))
mon.Event("bucketinfo_from_orders_metadata_error_compact")
continue
}
case len(metadata.ProjectBucketPrefix) > 0:
bucketInfo, err = metabase.ParseBucketPrefix(metabase.BucketPrefix(metadata.GetProjectBucketPrefix()))
if err != nil {
log.Debug("decrypt order: ParseBucketPrefix", zap.Error(err))
mon.Event("bucketinfo_from_orders_metadata_error_uncompact")
continue
}
default:
log.Debug("decrypt order: project bucket prefix missing", zap.Error(err))
mon.Event("bucketinfo_from_orders_metadata_error_default")
continue
}
if bucketInfo.BucketName == "" || bucketInfo.ProjectID.IsZero() {
log.Info("decrypt order: bucketName or projectID not set",
zap.String("bucketName", bucketInfo.BucketName),
zap.String("projectID", bucketInfo.ProjectID.String()),
)
mon.Event("bucketinfo_from_orders_metadata_error_3")
continue
}
bucketSettled[bucketIDAction{
bucketname: bucketInfo.BucketName,
projectID: bucketInfo.ProjectID,
action: orderLimit.Action,
}] += order.Amount
}
if len(storagenodeSettled) == 0 {
log.Debug("no orders were successfully processed", zap.Int("received count", receivedCount))
status = pb.SettlementWithWindowResponse_REJECTED
return stream.SendAndClose(&pb.SettlementWithWindowResponse{
Status: status,
ActionSettled: storagenodeSettled,
})
}
status, alreadyProcessed, err = endpoint.DB.UpdateStoragenodeBandwidthSettleWithWindow(
ctx, peer.ID, storagenodeSettled, time.Unix(0, window),
)
if err != nil {
log.Debug("err updating storagenode bandwidth settle", zap.Error(err))
return err
}
log.Debug("orders processed",
zap.Int("total orders received", receivedCount),
zap.Time("window", time.Unix(0, window)),
zap.String("status", status.String()),
)
if status == pb.SettlementWithWindowResponse_ACCEPTED && !alreadyProcessed {
for bucketIDAction, amount := range bucketSettled {
err = endpoint.DB.UpdateBucketBandwidthSettle(ctx,
bucketIDAction.projectID, []byte(bucketIDAction.bucketname), bucketIDAction.action, amount, time.Unix(0, window),
)
if err != nil {
log.Info("err updating bucket bandwidth settle", zap.Error(err))
}
}
} else {
mon.Event("orders_already_processed")
}
if status == pb.SettlementWithWindowResponse_REJECTED {
storagenodeSettled = map[int32]int64{}
}
return stream.SendAndClose(&pb.SettlementWithWindowResponse{
Status: status,
ActionSettled: storagenodeSettled,
})
}
func (endpoint *Endpoint) isValid(ctx context.Context, log *zap.Logger, order *pb.Order,
orderLimit *pb.OrderLimit, peerID storj.NodeID, window int64) bool {
if orderLimit.StorageNodeId != peerID {
log.Debug("storage node id mismatch")
mon.Event("order_not_valid_storagenodeid")
return false
}
// check expiration first before the signatures so that we can throw out the large amount
// of expired orders being sent to us before doing expensive signature verification.
if orderLimit.OrderExpiration.Before(time.Now().UTC()) {
log.Debug("invalid settlement: order limit expired")
mon.Event("order_not_valid_expired")
return false
}
// satellite verifies that it signed the order limit
if err := signing.VerifyOrderLimitSignature(ctx, endpoint.satelliteSignee, orderLimit); err != nil {
log.Debug("invalid settlement: unable to verify order limit")
mon.Event("order_not_valid_satellite_signature")
return false
}
// satellite verifies that the order signature matches pub key in order limit
if err := signing.VerifyUplinkOrderSignature(ctx, orderLimit.UplinkPublicKey, order); err != nil {
log.Debug("invalid settlement: unable to verify order")
mon.Event("order_not_valid_uplink_signature")
return false
}
if orderLimit.SerialNumber != order.SerialNumber {
log.Debug("invalid settlement: invalid serial number")
mon.Event("order_not_valid_serialnum_mismatch")
return false
}
// verify the 1 hr windows match
if window != date.TruncateToHourInNano(orderLimit.OrderCreation) {
log.Debug("invalid settlement: window mismatch")
mon.Event("order_not_valid_window_mismatch")
return false
}
return true
}