storj/satellite/satellitedb/projectaccounting.go
Fadila Khadar fb0d055a41 satellites/orders: populate egress_dead in project_bandwidth_daily_rollups
Populate the egress_dead column for taking into account allocated bandwidth that can be removed because orders have been sent by the storage nodes. The bandwidth not used in these orders can be allocated again.

Change-Id: I78c333a03945cd7330aec052edd3562ec671118e
2021-10-06 16:54:49 +00:00

869 lines
27 KiB
Go

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package satellitedb
import (
"context"
"database/sql"
"errors"
"fmt"
"time"
"github.com/zeebo/errs"
"storj.io/common/memory"
"storj.io/common/pb"
"storj.io/common/uuid"
"storj.io/private/dbutil"
"storj.io/private/dbutil/pgutil"
"storj.io/storj/satellite/accounting"
"storj.io/storj/satellite/metabase"
"storj.io/storj/satellite/orders"
"storj.io/storj/satellite/satellitedb/dbx"
)
// ensure that ProjectAccounting implements accounting.ProjectAccounting.
var _ accounting.ProjectAccounting = (*ProjectAccounting)(nil)
var allocatedExpirationInDays = 2
// ProjectAccounting implements the accounting/db ProjectAccounting interface.
type ProjectAccounting struct {
db *satelliteDB
}
// SaveTallies saves the latest bucket info.
func (db *ProjectAccounting) SaveTallies(ctx context.Context, intervalStart time.Time, bucketTallies map[metabase.BucketLocation]*accounting.BucketTally) (err error) {
defer mon.Task()(&ctx)(&err)
if len(bucketTallies) == 0 {
return nil
}
var bucketNames, projectIDs [][]byte
var totalBytes, metadataSizes []int64
var totalSegments, objectCounts []int64
for _, info := range bucketTallies {
bucketNames = append(bucketNames, []byte(info.BucketName))
projectIDs = append(projectIDs, info.ProjectID[:])
totalBytes = append(totalBytes, info.TotalBytes)
totalSegments = append(totalSegments, info.TotalSegments)
objectCounts = append(objectCounts, info.ObjectCount)
metadataSizes = append(metadataSizes, info.MetadataSize)
}
_, err = db.db.DB.ExecContext(ctx, db.db.Rebind(`
INSERT INTO bucket_storage_tallies (
interval_start,
bucket_name, project_id,
total_bytes, inline, remote,
total_segments_count, remote_segments_count, inline_segments_count,
object_count, metadata_size)
SELECT
$1,
unnest($2::bytea[]), unnest($3::bytea[]),
unnest($4::int8[]), $5, $6,
unnest($7::int8[]), $8, $9,
unnest($10::int8[]), unnest($11::int8[])`),
intervalStart,
pgutil.ByteaArray(bucketNames), pgutil.ByteaArray(projectIDs),
pgutil.Int8Array(totalBytes), 0, 0,
pgutil.Int8Array(totalSegments), 0, 0,
pgutil.Int8Array(objectCounts), pgutil.Int8Array(metadataSizes))
return Error.Wrap(err)
}
// GetTallies saves the latest bucket info.
func (db *ProjectAccounting) GetTallies(ctx context.Context) (tallies []accounting.BucketTally, err error) {
defer mon.Task()(&ctx)(&err)
dbxTallies, err := db.db.All_BucketStorageTally(ctx)
if err != nil {
return nil, Error.Wrap(err)
}
for _, dbxTally := range dbxTallies {
projectID, err := uuid.FromBytes(dbxTally.ProjectId)
if err != nil {
return nil, Error.Wrap(err)
}
totalBytes := dbxTally.TotalBytes
if totalBytes == 0 {
totalBytes = dbxTally.Inline + dbxTally.Remote
}
totalSegments := dbxTally.TotalSegmentsCount
if totalSegments == 0 {
totalSegments = dbxTally.InlineSegmentsCount + dbxTally.RemoteSegmentsCount
}
tallies = append(tallies, accounting.BucketTally{
BucketLocation: metabase.BucketLocation{
ProjectID: projectID,
BucketName: string(dbxTally.BucketName),
},
ObjectCount: int64(dbxTally.ObjectCount),
TotalSegments: int64(totalSegments),
TotalBytes: int64(totalBytes),
MetadataSize: int64(dbxTally.MetadataSize),
})
}
return tallies, nil
}
// CreateStorageTally creates a record in the bucket_storage_tallies accounting table.
func (db *ProjectAccounting) CreateStorageTally(ctx context.Context, tally accounting.BucketStorageTally) (err error) {
defer mon.Task()(&ctx)(&err)
_, err = db.db.DB.ExecContext(ctx, db.db.Rebind(`
INSERT INTO bucket_storage_tallies (
interval_start,
bucket_name, project_id,
total_bytes, inline, remote,
total_segments_count, remote_segments_count, inline_segments_count,
object_count, metadata_size)
VALUES (
?,
?, ?,
?, ?, ?,
?, ?, ?,
?, ?
)`), tally.IntervalStart,
[]byte(tally.BucketName), tally.ProjectID,
tally.TotalBytes, 0, 0,
tally.TotalSegmentCount, 0, 0,
tally.ObjectCount, tally.MetadataSize,
)
return Error.Wrap(err)
}
// GetAllocatedBandwidthTotal returns the sum of GET bandwidth usage allocated for a projectID for a time frame.
func (db *ProjectAccounting) GetAllocatedBandwidthTotal(ctx context.Context, projectID uuid.UUID, from time.Time) (_ int64, err error) {
defer mon.Task()(&ctx)(&err)
var sum *int64
query := `SELECT SUM(allocated) FROM bucket_bandwidth_rollups WHERE project_id = ? AND action = ? AND interval_start >= ?;`
err = db.db.QueryRow(ctx, db.db.Rebind(query), projectID[:], pb.PieceAction_GET, from.UTC()).Scan(&sum)
if errors.Is(err, sql.ErrNoRows) || sum == nil {
return 0, nil
}
return *sum, err
}
// GetProjectBandwidth returns the used bandwidth (settled or allocated) for the specified year, month and day.
func (db *ProjectAccounting) GetProjectBandwidth(ctx context.Context, projectID uuid.UUID, year int, month time.Month, day int, asOfSystemInterval time.Duration) (_ int64, err error) {
defer mon.Task()(&ctx)(&err)
var egress *int64
startOfMonth := time.Date(year, month, 1, 0, 0, 0, 0, time.UTC)
var expiredSince time.Time
if day < allocatedExpirationInDays {
expiredSince = startOfMonth
} else {
expiredSince = time.Date(year, month, day-allocatedExpirationInDays, 0, 0, 0, 0, time.UTC)
}
periodEnd := time.Date(year, month+1, 1, 0, 0, 0, 0, time.UTC)
query := `WITH egress AS (
SELECT
CASE WHEN interval_day < ?
THEN egress_settled
ELSE egress_allocated
END AS amount
FROM project_bandwidth_daily_rollups
WHERE project_id = ? AND interval_day >= ? AND interval_day < ?
) SELECT sum(amount) FROM egress` + db.db.impl.AsOfSystemInterval(asOfSystemInterval)
err = db.db.QueryRow(ctx, db.db.Rebind(query), expiredSince, projectID[:], startOfMonth, periodEnd).Scan(&egress)
if errors.Is(err, sql.ErrNoRows) || egress == nil {
return 0, nil
}
return *egress, err
}
// GetProjectDailyBandwidth returns project bandwidth (allocated and settled) for the specified day.
func (db *ProjectAccounting) GetProjectDailyBandwidth(ctx context.Context, projectID uuid.UUID, year int, month time.Month, day int) (allocated int64, settled, dead int64, err error) {
defer mon.Task()(&ctx)(&err)
interval := time.Date(year, month, day, 0, 0, 0, 0, time.UTC)
query := `SELECT egress_allocated, egress_settled, egress_dead FROM project_bandwidth_daily_rollups WHERE project_id = ? AND interval_day = ?;`
err = db.db.QueryRow(ctx, db.db.Rebind(query), projectID[:], interval).Scan(&allocated, &settled, &dead)
if errors.Is(err, sql.ErrNoRows) {
return 0, 0, 0, nil
}
return allocated, settled, dead, err
}
// DeleteProjectBandwidthBefore deletes project bandwidth rollups before the given time.
func (db *ProjectAccounting) DeleteProjectBandwidthBefore(ctx context.Context, before time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
_, err = db.db.DB.ExecContext(ctx, db.db.Rebind("DELETE FROM project_bandwidth_daily_rollups WHERE interval_day < ?"), before)
return err
}
// UpdateProjectUsageLimit updates project usage limit.
func (db *ProjectAccounting) UpdateProjectUsageLimit(ctx context.Context, projectID uuid.UUID, limit memory.Size) (err error) {
defer mon.Task()(&ctx)(&err)
_, err = db.db.Update_Project_By_Id(ctx,
dbx.Project_Id(projectID[:]),
dbx.Project_Update_Fields{
UsageLimit: dbx.Project_UsageLimit(limit.Int64()),
},
)
return err
}
// UpdateProjectBandwidthLimit updates project bandwidth limit.
func (db *ProjectAccounting) UpdateProjectBandwidthLimit(ctx context.Context, projectID uuid.UUID, limit memory.Size) (err error) {
defer mon.Task()(&ctx)(&err)
_, err = db.db.Update_Project_By_Id(ctx,
dbx.Project_Id(projectID[:]),
dbx.Project_Update_Fields{
BandwidthLimit: dbx.Project_BandwidthLimit(limit.Int64()),
},
)
return err
}
// GetProjectStorageLimit returns project storage usage limit.
func (db *ProjectAccounting) GetProjectStorageLimit(ctx context.Context, projectID uuid.UUID) (_ *int64, err error) {
defer mon.Task()(&ctx)(&err)
row, err := db.db.Get_Project_UsageLimit_By_Id(ctx,
dbx.Project_Id(projectID[:]),
)
if err != nil {
return nil, err
}
return row.UsageLimit, nil
}
// GetProjectBandwidthLimit returns project bandwidth usage limit.
func (db *ProjectAccounting) GetProjectBandwidthLimit(ctx context.Context, projectID uuid.UUID) (_ *int64, err error) {
defer mon.Task()(&ctx)(&err)
row, err := db.db.Get_Project_BandwidthLimit_By_Id(ctx,
dbx.Project_Id(projectID[:]),
)
if err != nil {
return nil, err
}
return row.BandwidthLimit, nil
}
// GetProjectTotal retrieves project usage for a given period.
func (db *ProjectAccounting) GetProjectTotal(ctx context.Context, projectID uuid.UUID, since, before time.Time) (usage *accounting.ProjectUsage, err error) {
defer mon.Task()(&ctx)(&err)
since = timeTruncateDown(since)
bucketNames, err := db.getBucketsSinceAndBefore(ctx, projectID, since, before)
if err != nil {
return nil, err
}
storageQuery := db.db.Rebind(`
SELECT
bucket_storage_tallies.interval_start,
bucket_storage_tallies.total_bytes,
bucket_storage_tallies.inline,
bucket_storage_tallies.remote,
bucket_storage_tallies.object_count
FROM
bucket_storage_tallies
WHERE
bucket_storage_tallies.project_id = ? AND
bucket_storage_tallies.bucket_name = ? AND
bucket_storage_tallies.interval_start >= ? AND
bucket_storage_tallies.interval_start <= ?
ORDER BY bucket_storage_tallies.interval_start DESC
`)
bucketsTallies := make(map[string][]*accounting.BucketStorageTally)
for _, bucket := range bucketNames {
storageTallies := make([]*accounting.BucketStorageTally, 0)
storageTalliesRows, err := db.db.QueryContext(ctx, storageQuery, projectID[:], []byte(bucket), since, before)
if err != nil {
return nil, err
}
// generating tallies for each bucket name.
for storageTalliesRows.Next() {
tally := accounting.BucketStorageTally{}
var inline, remote int64
err = storageTalliesRows.Scan(&tally.IntervalStart, &tally.TotalBytes, &inline, &remote, &tally.ObjectCount)
if err != nil {
return nil, errs.Combine(err, storageTalliesRows.Close())
}
if tally.TotalBytes == 0 {
tally.TotalBytes = inline + remote
}
tally.BucketName = bucket
storageTallies = append(storageTallies, &tally)
}
err = errs.Combine(storageTalliesRows.Err(), storageTalliesRows.Close())
if err != nil {
return nil, err
}
bucketsTallies[bucket] = storageTallies
}
totalEgress, err := db.getTotalEgress(ctx, projectID, since, before)
if err != nil {
return nil, err
}
usage = new(accounting.ProjectUsage)
usage.Egress = memory.Size(totalEgress).Int64()
// sum up storage and objects
for _, tallies := range bucketsTallies {
for i := len(tallies) - 1; i > 0; i-- {
current := (tallies)[i]
hours := (tallies)[i-1].IntervalStart.Sub(current.IntervalStart).Hours()
usage.Storage += memory.Size(current.Bytes()).Float64() * hours
usage.ObjectCount += float64(current.ObjectCount) * hours
}
}
usage.Since = since
usage.Before = before
return usage, nil
}
// getTotalEgress returns total egress (settled + inline) of each bucket_bandwidth_rollup
// in selected time period, project id.
// only process PieceAction_GET.
func (db *ProjectAccounting) getTotalEgress(ctx context.Context, projectID uuid.UUID, since, before time.Time) (totalEgress int64, err error) {
totalEgressQuery := db.db.Rebind(`
SELECT
COALESCE(SUM(settled) + SUM(inline), 0)
FROM
bucket_bandwidth_rollups
WHERE
project_id = ? AND
interval_start >= ? AND
interval_start <= ? AND
action = ?;
`)
totalEgressRow := db.db.QueryRowContext(ctx, totalEgressQuery, projectID[:], since, before, pb.PieceAction_GET)
err = totalEgressRow.Scan(&totalEgress)
return totalEgress, err
}
// GetBucketUsageRollups retrieves summed usage rollups for every bucket of particular project for a given period.
func (db *ProjectAccounting) GetBucketUsageRollups(ctx context.Context, projectID uuid.UUID, since, before time.Time) (_ []accounting.BucketUsageRollup, err error) {
defer mon.Task()(&ctx)(&err)
since = timeTruncateDown(since.UTC())
before = before.UTC()
buckets, err := db.getBucketsSinceAndBefore(ctx, projectID, since, before)
if err != nil {
return nil, err
}
roullupsQuery := db.db.Rebind(`SELECT SUM(settled), SUM(inline), action
FROM bucket_bandwidth_rollups
WHERE project_id = ? AND bucket_name = ? AND interval_start >= ? AND interval_start <= ?
GROUP BY action`)
// TODO: should be optimized
storageQuery := db.db.All_BucketStorageTally_By_ProjectId_And_BucketName_And_IntervalStart_GreaterOrEqual_And_IntervalStart_LessOrEqual_OrderBy_Desc_IntervalStart
var bucketUsageRollups []accounting.BucketUsageRollup
for _, bucket := range buckets {
err := func() error {
bucketRollup := accounting.BucketUsageRollup{
ProjectID: projectID,
BucketName: []byte(bucket),
Since: since,
Before: before,
}
// get bucket_bandwidth_rollups
rollupsRows, err := db.db.QueryContext(ctx, roullupsQuery, projectID[:], []byte(bucket), since, before)
if err != nil {
return err
}
defer func() { err = errs.Combine(err, rollupsRows.Close()) }()
// fill egress
for rollupsRows.Next() {
var action pb.PieceAction
var settled, inline int64
err = rollupsRows.Scan(&settled, &inline, &action)
if err != nil {
return err
}
switch action {
case pb.PieceAction_GET:
bucketRollup.GetEgress += memory.Size(settled + inline).GB()
case pb.PieceAction_GET_AUDIT:
bucketRollup.AuditEgress += memory.Size(settled + inline).GB()
case pb.PieceAction_GET_REPAIR:
bucketRollup.RepairEgress += memory.Size(settled + inline).GB()
default:
continue
}
}
if err := rollupsRows.Err(); err != nil {
return err
}
bucketStorageTallies, err := storageQuery(ctx,
dbx.BucketStorageTally_ProjectId(projectID[:]),
dbx.BucketStorageTally_BucketName([]byte(bucket)),
dbx.BucketStorageTally_IntervalStart(since),
dbx.BucketStorageTally_IntervalStart(before))
if err != nil {
return err
}
// fill metadata, objects and stored data
// hours calculated from previous tallies,
// so we skip the most recent one
for i := len(bucketStorageTallies) - 1; i > 0; i-- {
current := bucketStorageTallies[i]
hours := bucketStorageTallies[i-1].IntervalStart.Sub(current.IntervalStart).Hours()
if current.TotalBytes > 0 {
bucketRollup.TotalStoredData += memory.Size(current.TotalBytes).GB() * hours
} else {
bucketRollup.TotalStoredData += memory.Size(current.Remote+current.Inline).GB() * hours
}
bucketRollup.MetadataSize += memory.Size(current.MetadataSize).GB() * hours
if current.TotalSegmentsCount > 0 {
bucketRollup.TotalSegments += float64(current.TotalSegmentsCount) * hours
} else {
bucketRollup.TotalSegments += float64(current.RemoteSegmentsCount+current.InlineSegmentsCount) * hours
}
bucketRollup.ObjectCount += float64(current.ObjectCount) * hours
}
bucketUsageRollups = append(bucketUsageRollups, bucketRollup)
return nil
}()
if err != nil {
return nil, err
}
}
return bucketUsageRollups, nil
}
// prefixIncrement returns the lexicographically lowest byte string which is
// greater than origPrefix and does not have origPrefix as a prefix. If no such
// byte string exists (origPrefix is empty, or origPrefix contains only 0xff
// bytes), returns false for ok.
//
// examples: prefixIncrement([]byte("abc")) -> ([]byte("abd", true)
// prefixIncrement([]byte("ab\xff\xff")) -> ([]byte("ac", true)
// prefixIncrement([]byte("")) -> (nil, false)
// prefixIncrement([]byte("\x00")) -> ([]byte("\x01", true)
// prefixIncrement([]byte("\xff\xff\xff")) -> (nil, false)
//
func prefixIncrement(origPrefix []byte) (incremented []byte, ok bool) {
incremented = make([]byte, len(origPrefix))
copy(incremented, origPrefix)
i := len(incremented) - 1
for i >= 0 {
if incremented[i] != 0xff {
incremented[i]++
return incremented[:i+1], true
}
i--
}
// there is no byte string which is greater than origPrefix and which does
// not have origPrefix as a prefix.
return nil, false
}
// prefixMatch creates a SQL expression which
// will evaluate to true if and only if the value of expr starts with the value
// of prefix.
//
// Returns also a slice of arguments that should be passed to the corresponding
// db.Query* or db.Exec* to fill in parameters in the returned SQL expression.
//
// The returned SQL expression needs to be passed through Rebind(), as it uses
// `?` markers instead of `$N`, because we don't know what N we would need to
// use.
func (db *ProjectAccounting) prefixMatch(expr string, prefix []byte) (string, []byte, error) {
incrementedPrefix, ok := prefixIncrement(prefix)
switch db.db.impl {
case dbutil.Postgres:
if !ok {
return fmt.Sprintf(`(%s >= ?)`, expr), nil, nil
}
return fmt.Sprintf(`(%s >= ? AND %s < ?)`, expr, expr), incrementedPrefix, nil
case dbutil.Cockroach:
if !ok {
return fmt.Sprintf(`(%s >= ?:::BYTEA)`, expr), nil, nil
}
return fmt.Sprintf(`(%s >= ?:::BYTEA AND %s < ?:::BYTEA)`, expr, expr), incrementedPrefix, nil
default:
return "", nil, errs.New("unhandled database: %v", db.db.driver)
}
}
// GetBucketTotals retrieves bucket usage totals for period of time.
func (db *ProjectAccounting) GetBucketTotals(ctx context.Context, projectID uuid.UUID, cursor accounting.BucketUsageCursor, since, before time.Time) (_ *accounting.BucketUsagePage, err error) {
defer mon.Task()(&ctx)(&err)
since = timeTruncateDown(since)
bucketPrefix := []byte(cursor.Search)
if cursor.Limit > 50 {
cursor.Limit = 50
}
if cursor.Page == 0 {
return nil, errs.New("page can not be 0")
}
page := &accounting.BucketUsagePage{
Search: cursor.Search,
Limit: cursor.Limit,
Offset: uint64((cursor.Page - 1) * cursor.Limit),
}
bucketNameRange, incrPrefix, err := db.prefixMatch("name", bucketPrefix)
if err != nil {
return nil, err
}
countQuery := db.db.Rebind(`SELECT COUNT(name) FROM bucket_metainfos
WHERE project_id = ? AND ` + bucketNameRange)
args := []interface{}{
projectID[:],
bucketPrefix,
}
if incrPrefix != nil {
args = append(args, incrPrefix)
}
countRow := db.db.QueryRowContext(ctx, countQuery, args...)
err = countRow.Scan(&page.TotalCount)
if err != nil {
return nil, err
}
if page.TotalCount == 0 {
return page, nil
}
if page.Offset > page.TotalCount-1 {
return nil, errs.New("page is out of range")
}
var buckets []string
bucketsQuery := db.db.Rebind(`SELECT name FROM bucket_metainfos
WHERE project_id = ? AND ` + bucketNameRange + `ORDER BY name ASC LIMIT ? OFFSET ?`)
args = []interface{}{
projectID[:],
bucketPrefix,
}
if incrPrefix != nil {
args = append(args, incrPrefix)
}
args = append(args, page.Limit, page.Offset)
bucketRows, err := db.db.QueryContext(ctx, bucketsQuery, args...)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, bucketRows.Close()) }()
for bucketRows.Next() {
var bucket string
err = bucketRows.Scan(&bucket)
if err != nil {
return nil, err
}
buckets = append(buckets, bucket)
}
if err := bucketRows.Err(); err != nil {
return nil, err
}
rollupsQuery := db.db.Rebind(`SELECT COALESCE(SUM(settled) + SUM(inline), 0)
FROM bucket_bandwidth_rollups
WHERE project_id = ? AND bucket_name = ? AND interval_start >= ? AND interval_start <= ? AND action = ?`)
storageQuery := db.db.Rebind(`SELECT total_bytes, inline, remote, object_count
FROM bucket_storage_tallies
WHERE project_id = ? AND bucket_name = ? AND interval_start >= ? AND interval_start <= ?
ORDER BY interval_start DESC
LIMIT 1`)
var bucketUsages []accounting.BucketUsage
for _, bucket := range buckets {
bucketUsage := accounting.BucketUsage{
ProjectID: projectID,
BucketName: bucket,
Since: since,
Before: before,
}
// get bucket_bandwidth_rollups
rollupRow := db.db.QueryRowContext(ctx, rollupsQuery, projectID[:], []byte(bucket), since, before, pb.PieceAction_GET)
var egress int64
err = rollupRow.Scan(&egress)
if err != nil {
if !errors.Is(err, sql.ErrNoRows) {
return nil, err
}
}
bucketUsage.Egress = memory.Size(egress).GB()
storageRow := db.db.QueryRowContext(ctx, storageQuery, projectID[:], []byte(bucket), since, before)
var tally accounting.BucketStorageTally
var inline, remote int64
err = storageRow.Scan(&tally.TotalBytes, &inline, &remote, &tally.ObjectCount)
if err != nil {
if !errors.Is(err, sql.ErrNoRows) {
return nil, err
}
}
if tally.TotalBytes == 0 {
tally.TotalBytes = inline + remote
}
// fill storage and object count
bucketUsage.Storage = memory.Size(tally.Bytes()).GB()
bucketUsage.ObjectCount = tally.ObjectCount
bucketUsages = append(bucketUsages, bucketUsage)
}
page.PageCount = uint(page.TotalCount / uint64(cursor.Limit))
if page.TotalCount%uint64(cursor.Limit) != 0 {
page.PageCount++
}
page.BucketUsages = bucketUsages
page.CurrentPage = cursor.Page
return page, nil
}
// ArchiveRollupsBefore archives rollups older than a given time.
func (db *ProjectAccounting) ArchiveRollupsBefore(ctx context.Context, before time.Time, batchSize int) (archivedCount int, err error) {
defer mon.Task()(&ctx)(&err)
if batchSize <= 0 {
return 0, nil
}
switch db.db.impl {
case dbutil.Cockroach:
// We operate one action at a time, because we have an index on `(action, interval_start, project_id)`.
for action := range pb.PieceAction_name {
count, err := db.archiveRollupsBeforeByAction(ctx, action, before, batchSize)
archivedCount += count
if err != nil {
return archivedCount, Error.Wrap(err)
}
}
return archivedCount, nil
case dbutil.Postgres:
err := db.db.DB.QueryRow(ctx, `
WITH rollups_to_move AS (
DELETE FROM bucket_bandwidth_rollups
WHERE interval_start <= $1
RETURNING *
), moved_rollups AS (
INSERT INTO bucket_bandwidth_rollup_archives(bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled)
SELECT bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled FROM rollups_to_move
RETURNING *
)
SELECT count(*) FROM moved_rollups
`, before).Scan(&archivedCount)
return archivedCount, Error.Wrap(err)
default:
return 0, nil
}
}
func (db *ProjectAccounting) archiveRollupsBeforeByAction(ctx context.Context, action int32, before time.Time, batchSize int) (archivedCount int, err error) {
defer mon.Task()(&ctx)(&err)
for {
var rowCount int
err := db.db.QueryRow(ctx, `
WITH rollups_to_move AS (
DELETE FROM bucket_bandwidth_rollups
WHERE action = $1 AND interval_start <= $2
LIMIT $3 RETURNING *
), moved_rollups AS (
INSERT INTO bucket_bandwidth_rollup_archives(bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled)
SELECT bucket_name, project_id, interval_start, interval_seconds, action, inline, allocated, settled FROM rollups_to_move
RETURNING *
)
SELECT count(*) FROM moved_rollups
`, int(action), before, batchSize).Scan(&rowCount)
if err != nil {
return archivedCount, Error.Wrap(err)
}
archivedCount += rowCount
if rowCount < batchSize {
return archivedCount, nil
}
}
}
// getBucketsSinceAndBefore lists distinct bucket names for a project within a specific timeframe.
func (db *ProjectAccounting) getBucketsSinceAndBefore(ctx context.Context, projectID uuid.UUID, since, before time.Time) (_ []string, err error) {
defer mon.Task()(&ctx)(&err)
bucketsQuery := db.db.Rebind(`SELECT DISTINCT bucket_name
FROM bucket_storage_tallies
WHERE project_id = ?
AND interval_start >= ?
AND interval_start <= ?`)
bucketRows, err := db.db.QueryContext(ctx, bucketsQuery, projectID[:], since, before)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, bucketRows.Close()) }()
var buckets []string
for bucketRows.Next() {
var bucket string
err = bucketRows.Scan(&bucket)
if err != nil {
return nil, err
}
buckets = append(buckets, bucket)
}
return buckets, bucketRows.Err()
}
// timeTruncateDown truncates down to the hour before to be in sync with orders endpoint.
func timeTruncateDown(t time.Time) time.Time {
return time.Date(t.Year(), t.Month(), t.Day(), t.Hour(), 0, 0, 0, t.Location())
}
// GetProjectLimits returns current project limit for both storage and bandwidth.
func (db *ProjectAccounting) GetProjectLimits(ctx context.Context, projectID uuid.UUID) (_ accounting.ProjectLimits, err error) {
defer mon.Task()(&ctx)(&err)
row, err := db.db.Get_Project_BandwidthLimit_Project_UsageLimit_By_Id(ctx,
dbx.Project_Id(projectID[:]),
)
if err != nil {
return accounting.ProjectLimits{}, err
}
return accounting.ProjectLimits{
Usage: row.UsageLimit,
Bandwidth: row.BandwidthLimit,
}, nil
}
// GetRollupsSince retrieves all archived rollup records since a given time.
func (db *ProjectAccounting) GetRollupsSince(ctx context.Context, since time.Time) (bwRollups []orders.BucketBandwidthRollup, err error) {
defer mon.Task()(&ctx)(&err)
pageLimit := db.db.opts.ReadRollupBatchSize
if pageLimit <= 0 {
pageLimit = 10000
}
var cursor *dbx.Paged_BucketBandwidthRollup_By_IntervalStart_GreaterOrEqual_Continuation
for {
dbxRollups, next, err := db.db.Paged_BucketBandwidthRollup_By_IntervalStart_GreaterOrEqual(ctx,
dbx.BucketBandwidthRollup_IntervalStart(since),
pageLimit, cursor)
if err != nil {
return nil, Error.Wrap(err)
}
cursor = next
for _, dbxRollup := range dbxRollups {
projectID, err := uuid.FromBytes(dbxRollup.ProjectId)
if err != nil {
return nil, err
}
bwRollups = append(bwRollups, orders.BucketBandwidthRollup{
ProjectID: projectID,
BucketName: string(dbxRollup.BucketName),
Action: pb.PieceAction(dbxRollup.Action),
Inline: int64(dbxRollup.Inline),
Allocated: int64(dbxRollup.Allocated),
Settled: int64(dbxRollup.Settled),
})
}
if cursor == nil {
return bwRollups, nil
}
}
}
// GetArchivedRollupsSince retrieves all archived rollup records since a given time.
func (db *ProjectAccounting) GetArchivedRollupsSince(ctx context.Context, since time.Time) (bwRollups []orders.BucketBandwidthRollup, err error) {
defer mon.Task()(&ctx)(&err)
pageLimit := db.db.opts.ReadRollupBatchSize
if pageLimit <= 0 {
pageLimit = 10000
}
var cursor *dbx.Paged_BucketBandwidthRollupArchive_By_IntervalStart_GreaterOrEqual_Continuation
for {
dbxRollups, next, err := db.db.Paged_BucketBandwidthRollupArchive_By_IntervalStart_GreaterOrEqual(ctx,
dbx.BucketBandwidthRollupArchive_IntervalStart(since),
pageLimit, cursor)
if err != nil {
return nil, Error.Wrap(err)
}
cursor = next
for _, dbxRollup := range dbxRollups {
projectID, err := uuid.FromBytes(dbxRollup.ProjectId)
if err != nil {
return nil, err
}
bwRollups = append(bwRollups, orders.BucketBandwidthRollup{
ProjectID: projectID,
BucketName: string(dbxRollup.BucketName),
Action: pb.PieceAction(dbxRollup.Action),
Inline: int64(dbxRollup.Inline),
Allocated: int64(dbxRollup.Allocated),
Settled: int64(dbxRollup.Settled),
})
}
if cursor == nil {
return bwRollups, nil
}
}
}