storj/satellite/satellitedb/orders.go

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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package satellitedb
import (
"bytes"
"context"
"database/sql"
"sort"
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"time"
"github.com/skyrings/skyring-common/tools/uuid"
"github.com/zeebo/errs"
"storj.io/common/pb"
"storj.io/common/storj"
"storj.io/storj/private/dbutil/pgutil"
"storj.io/storj/satellite/orders"
dbx "storj.io/storj/satellite/satellitedb/dbx"
)
const defaultIntervalSeconds = int(time.Hour / time.Second)
var (
// ErrDifferentStorageNodes is returned when ProcessOrders gets orders from different storage nodes.
ErrDifferentStorageNodes = errs.Class("different storage nodes")
)
type ordersDB struct {
satellite/satellitedb: unexport satellitedb.DB Backstory: I needed a better way to pass around information about the underlying driver and implementation to all the various db-using things in satellitedb (at least until some new "cockroach driver" support makes it to DBX). After hitting a few dead ends, I decided I wanted to have a type that could act like a *dbx.DB but which would also carry information about the implementation, etc. Then I could pass around that type to all the things in satellitedb that previously wanted *dbx.DB. But then I realized that *satellitedb.DB was, essentially, exactly that already. One thing that might have kept *satellitedb.DB from being directly usable was that embedding a *dbx.DB inside it would make a lot of dbx methods publicly available on a *satellitedb.DB instance that previously were nicely encapsulated and hidden. But after a quick look, I realized that _nothing_ outside of satellite/satellitedb even needs to use satellitedb.DB at all. It didn't even need to be exported, except for some trivially-replaceable code in migrate_postgres_test.go. And once I made it unexported, any concerns about exposing new methods on it were entirely moot. So I have here changed the exported *satellitedb.DB type into the unexported *satellitedb.satelliteDB type, and I have changed all the places here that wanted raw dbx.DB handles to use this new type instead. Now they can just take a gander at the implementation member on it and know all they need to know about the underlying database. This will make it possible for some other pending code here to differentiate between postgres and cockroach backends. Change-Id: I27af99f8ae23b50782333da5277b553b34634edc
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db *satelliteDB
}
// CreateSerialInfo creates serial number entry in database
func (db *ordersDB) CreateSerialInfo(ctx context.Context, serialNumber storj.SerialNumber, bucketID []byte, limitExpiration time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
return db.db.CreateNoReturn_SerialNumber(
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ctx,
dbx.SerialNumber_SerialNumber(serialNumber.Bytes()),
dbx.SerialNumber_BucketId(bucketID),
dbx.SerialNumber_ExpiresAt(limitExpiration),
)
}
// DeleteExpiredSerials deletes all expired serials in serial_number and used_serials table.
func (db *ordersDB) DeleteExpiredSerials(ctx context.Context, now time.Time) (_ int, err error) {
defer mon.Task()(&ctx)(&err)
count, err := db.db.Delete_SerialNumber_By_ExpiresAt_LessOrEqual(ctx, dbx.SerialNumber_ExpiresAt(now))
if err != nil {
return 0, err
}
return int(count), nil
}
// UseSerialNumber creates serial number entry in database
func (db *ordersDB) UseSerialNumber(ctx context.Context, serialNumber storj.SerialNumber, storageNodeID storj.NodeID) (_ []byte, err error) {
defer mon.Task()(&ctx)(&err)
statement := db.db.Rebind(
`INSERT INTO used_serials (serial_number_id, storage_node_id)
SELECT id, ? FROM serial_numbers WHERE serial_number = ?`,
)
_, err = db.db.ExecContext(ctx, statement, storageNodeID.Bytes(), serialNumber.Bytes())
if err != nil {
if pgutil.IsConstraintError(err) {
return nil, orders.ErrUsingSerialNumber.New("serial number already used")
}
return nil, err
}
dbxSerialNumber, err := db.db.Find_SerialNumber_By_SerialNumber(
ctx,
dbx.SerialNumber_SerialNumber(serialNumber.Bytes()),
)
if err != nil {
return nil, err
}
if dbxSerialNumber == nil {
return nil, orders.ErrUsingSerialNumber.New("serial number not found")
}
return dbxSerialNumber.BucketId, nil
}
// UpdateBucketBandwidthAllocation updates 'allocated' bandwidth for given bucket
func (db *ordersDB) UpdateBucketBandwidthAllocation(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
statement := db.db.Rebind(
`INSERT INTO bucket_bandwidth_rollups (bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled)
VALUES (?, ?, ?, ?, ?, ?, ?, ?)
ON CONFLICT(bucket_name, project_id, interval_start, action)
DO UPDATE SET allocated = bucket_bandwidth_rollups.allocated + ?`,
)
_, err = db.db.ExecContext(ctx, statement,
bucketName, projectID[:], intervalStart, defaultIntervalSeconds, action, 0, uint64(amount), 0, uint64(amount),
)
if err != nil {
return err
}
return nil
}
// UpdateBucketBandwidthSettle updates 'settled' bandwidth for given bucket
func (db *ordersDB) UpdateBucketBandwidthSettle(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
statement := db.db.Rebind(
`INSERT INTO bucket_bandwidth_rollups (bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled)
VALUES (?, ?, ?, ?, ?, ?, ?, ?)
ON CONFLICT(bucket_name, project_id, interval_start, action)
DO UPDATE SET settled = bucket_bandwidth_rollups.settled + ?`,
)
_, err = db.db.ExecContext(ctx, statement,
bucketName, projectID[:], intervalStart, defaultIntervalSeconds, action, 0, 0, uint64(amount), uint64(amount),
)
if err != nil {
return err
}
return nil
}
// UpdateBucketBandwidthInline updates 'inline' bandwidth for given bucket
func (db *ordersDB) UpdateBucketBandwidthInline(ctx context.Context, projectID uuid.UUID, bucketName []byte, action pb.PieceAction, amount int64, intervalStart time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
statement := db.db.Rebind(
`INSERT INTO bucket_bandwidth_rollups (bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled)
VALUES (?, ?, ?, ?, ?, ?, ?, ?)
ON CONFLICT(bucket_name, project_id, interval_start, action)
DO UPDATE SET inline = bucket_bandwidth_rollups.inline + ?`,
)
_, err = db.db.ExecContext(ctx, statement,
bucketName, projectID[:], intervalStart, defaultIntervalSeconds, action, uint64(amount), 0, 0, uint64(amount),
)
if err != nil {
return err
}
return nil
}
// UpdateStoragenodeBandwidthSettle updates 'settled' bandwidth for given storage node for the given intervalStart time
func (db *ordersDB) UpdateStoragenodeBandwidthSettle(ctx context.Context, storageNode storj.NodeID, action pb.PieceAction, amount int64, intervalStart time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
statement := db.db.Rebind(
`INSERT INTO storagenode_bandwidth_rollups (storagenode_id, interval_start, interval_seconds, action, settled)
VALUES (?, ?, ?, ?, ?)
ON CONFLICT(storagenode_id, interval_start, action)
DO UPDATE SET settled = storagenode_bandwidth_rollups.settled + ?`,
)
_, err = db.db.ExecContext(ctx, statement,
storageNode.Bytes(), intervalStart, defaultIntervalSeconds, action, uint64(amount), uint64(amount),
)
if err != nil {
return err
}
return nil
}
// GetBucketBandwidth gets total bucket bandwidth from period of time
func (db *ordersDB) GetBucketBandwidth(ctx context.Context, projectID uuid.UUID, bucketName []byte, from, to time.Time) (_ int64, err error) {
defer mon.Task()(&ctx)(&err)
var sum *int64
query := `SELECT SUM(settled) FROM bucket_bandwidth_rollups WHERE bucket_name = ? AND project_id = ? AND interval_start > ? AND interval_start <= ?`
err = db.db.QueryRow(db.db.Rebind(query), bucketName, projectID[:], from, to).Scan(&sum)
if err == sql.ErrNoRows || sum == nil {
return 0, nil
}
return *sum, err
}
// GetStorageNodeBandwidth gets total storage node bandwidth from period of time
func (db *ordersDB) GetStorageNodeBandwidth(ctx context.Context, nodeID storj.NodeID, from, to time.Time) (_ int64, err error) {
defer mon.Task()(&ctx)(&err)
var sum *int64
query := `SELECT SUM(settled) FROM storagenode_bandwidth_rollups WHERE storagenode_id = ? AND interval_start > ? AND interval_start <= ?`
err = db.db.QueryRow(db.db.Rebind(query), nodeID.Bytes(), from, to).Scan(&sum)
if err == sql.ErrNoRows || sum == nil {
return 0, nil
}
return *sum, err
}
// UnuseSerialNumber removes pair serial number -> storage node id from database
func (db *ordersDB) UnuseSerialNumber(ctx context.Context, serialNumber storj.SerialNumber, storageNodeID storj.NodeID) (err error) {
defer mon.Task()(&ctx)(&err)
statement := `DELETE FROM used_serials WHERE storage_node_id = ? AND
serial_number_id IN (SELECT id FROM serial_numbers WHERE serial_number = ?)`
_, err = db.db.ExecContext(ctx, db.db.Rebind(statement), storageNodeID.Bytes(), serialNumber.Bytes())
return err
}
// ProcessOrders take a list of order requests and "settles" them in one transaction.
//
// ProcessOrders requires that all orders come from the same storage node.
func (db *ordersDB) ProcessOrders(ctx context.Context, requests []*orders.ProcessOrderRequest) (responses []*orders.ProcessOrderResponse, err error) {
defer mon.Task()(&ctx)(&err)
if len(requests) == 0 {
return nil, err
}
// check that all requests are from the same storage node
storageNodeID := requests[0].OrderLimit.StorageNodeId
for _, req := range requests[1:] {
if req.OrderLimit.StorageNodeId != storageNodeID {
return nil, ErrDifferentStorageNodes.New("requests from different storage nodes %v and %v", storageNodeID, req.OrderLimit.StorageNodeId)
}
}
// sort requests by serial number, all of them should be from the same storage node
sort.Slice(requests, func(i, k int) bool {
return requests[i].OrderLimit.SerialNumber.Less(requests[k].OrderLimit.SerialNumber)
})
err = db.db.WithTx(ctx, func(ctx context.Context, tx *dbx.Tx) error {
responses, err = db.processOrdersInTx(ctx, requests, storageNodeID, time.Now(), tx.Tx)
return err
})
return responses, errs.Wrap(err)
}
func (db *ordersDB) processOrdersInTx(ctx context.Context, requests []*orders.ProcessOrderRequest, storageNodeID storj.NodeID, now time.Time, tx *sql.Tx) (responses []*orders.ProcessOrderResponse, err error) {
now = now.UTC()
intervalStart := time.Date(now.Year(), now.Month(), now.Day(), now.Hour(), 0, 0, 0, now.Location())
rejected := make(map[storj.SerialNumber]bool)
bucketBySerial := make(map[storj.SerialNumber][]byte)
// load the bucket id and insert into used serials table
for _, request := range requests {
row := tx.QueryRow(db.db.Rebind(`
SELECT id, bucket_id
FROM serial_numbers
WHERE serial_number = ?
`), request.OrderLimit.SerialNumber)
var serialNumberID int64
var bucketID []byte
if err := row.Scan(&serialNumberID, &bucketID); err == sql.ErrNoRows {
rejected[request.OrderLimit.SerialNumber] = true
continue
} else if err != nil {
return nil, Error.Wrap(err)
}
var result sql.Result
var count int64
// try to insert the serial number
result, err = tx.Exec(db.db.Rebind(`
INSERT INTO used_serials(serial_number_id, storage_node_id)
VALUES (?, ?)
ON CONFLICT DO NOTHING
`), serialNumberID, storageNodeID)
if err != nil {
return nil, Error.Wrap(err)
}
// if we didn't update any rows, then it must already exist
count, err = result.RowsAffected()
if err != nil {
return nil, Error.Wrap(err)
}
if count == 0 {
rejected[request.OrderLimit.SerialNumber] = true
continue
}
bucketBySerial[request.OrderLimit.SerialNumber] = bucketID
}
// add up amount by action
var largestAction pb.PieceAction
amountByAction := map[pb.PieceAction]int64{}
for _, request := range requests {
if rejected[request.OrderLimit.SerialNumber] {
continue
}
limit, order := request.OrderLimit, request.Order
amountByAction[limit.Action] += order.Amount
if largestAction < limit.Action {
largestAction = limit.Action
}
}
// do action updates for storage node
for action := pb.PieceAction(0); action <= largestAction; action++ {
amount := amountByAction[action]
if amount == 0 {
continue
}
_, err := tx.Exec(db.db.Rebind(`
INSERT INTO storagenode_bandwidth_rollups
(storagenode_id, interval_start, interval_seconds, action, settled)
VALUES (?, ?, ?, ?, ?)
ON CONFLICT (storagenode_id, interval_start, action)
DO UPDATE SET settled = storagenode_bandwidth_rollups.settled + ?
`), storageNodeID, intervalStart, defaultIntervalSeconds, action, amount, amount)
if err != nil {
return nil, Error.Wrap(err)
}
}
// sort bucket updates
type bucketUpdate struct {
bucketID []byte
action pb.PieceAction
amount int64
}
var bucketUpdates []bucketUpdate
for _, request := range requests {
if rejected[request.OrderLimit.SerialNumber] {
continue
}
limit, order := request.OrderLimit, request.Order
bucketUpdates = append(bucketUpdates, bucketUpdate{
bucketID: bucketBySerial[limit.SerialNumber],
action: limit.Action,
amount: order.Amount,
})
}
sort.Slice(bucketUpdates, func(i, k int) bool {
compare := bytes.Compare(bucketUpdates[i].bucketID, bucketUpdates[k].bucketID)
if compare == 0 {
return bucketUpdates[i].action < bucketUpdates[k].action
}
return compare < 0
})
// do bucket updates
for _, update := range bucketUpdates {
projectID, bucketName, err := orders.SplitBucketID(update.bucketID)
if err != nil {
return nil, errs.Wrap(err)
}
_, err = tx.Exec(db.db.Rebind(`
INSERT INTO bucket_bandwidth_rollups
(bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled)
VALUES (?, ?, ?, ?, ?, ?, ?, ?)
ON CONFLICT (bucket_name, project_id, interval_start, action)
DO UPDATE SET settled = bucket_bandwidth_rollups.settled + ?
`), bucketName, (*projectID)[:], intervalStart, defaultIntervalSeconds, update.action, 0, 0, update.amount, update.amount)
if err != nil {
return nil, Error.Wrap(err)
}
}
for _, request := range requests {
if !rejected[request.OrderLimit.SerialNumber] {
responses = append(responses, &orders.ProcessOrderResponse{
SerialNumber: request.OrderLimit.SerialNumber,
Status: pb.SettlementResponse_ACCEPTED,
})
} else {
responses = append(responses, &orders.ProcessOrderResponse{
SerialNumber: request.OrderLimit.SerialNumber,
Status: pb.SettlementResponse_REJECTED,
})
}
}
return responses, nil
}