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storj/storagenode/storagenodedb/database.go

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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
//go:generate sh -c "go run schemagen.go > schema.go.tmp && mv schema.go.tmp schema.go"
package storagenodedb
import (
"context"
"os"
"path/filepath"
"github.com/google/go-cmp/cmp"
_ "github.com/mattn/go-sqlite3" // used indirectly.
"github.com/spacemonkeygo/monkit/v3"
"github.com/zeebo/errs"
"go.uber.org/zap"
"storj.io/storj/private/dbutil"
"storj.io/storj/private/dbutil/sqliteutil"
"storj.io/storj/private/migrate"
"storj.io/storj/private/tagsql"
"storj.io/storj/storage"
"storj.io/storj/storage/filestore"
"storj.io/storj/storagenode"
"storj.io/storj/storagenode/bandwidth"
"storj.io/storj/storagenode/heldamount"
"storj.io/storj/storagenode/notifications"
"storj.io/storj/storagenode/orders"
"storj.io/storj/storagenode/pieces"
"storj.io/storj/storagenode/piecestore"
"storj.io/storj/storagenode/reputation"
"storj.io/storj/storagenode/satellites"
"storj.io/storj/storagenode/storageusage"
)
// VersionTable is the table that stores the version info in each db
const VersionTable = "versions"
var (
mon = monkit.Package()
// ErrDatabase represents errors from the databases.
ErrDatabase = errs.Class("storage node database error")
// ErrNoRows represents database error if rows weren't affected.
ErrNoRows = errs.New("no rows affected")
// ErrPreflight represents an error during the preflight check.
ErrPreflight = errs.Class("storage node preflight database error")
)
var _ storagenode.DB = (*DB)(nil)
// DBContainer defines an interface to allow accessing and setting a SQLDB
type DBContainer interface {
Configure(sqlDB tagsql.DB)
GetDB() tagsql.DB
}
// withTx is a helper method which executes callback in transaction scope
func withTx(ctx context.Context, db tagsql.DB, cb func(tx tagsql.Tx) error) error {
tx, err := db.BeginTx(ctx, nil)
if err != nil {
return err
}
defer func() {
if err != nil {
err = errs.Combine(err, tx.Rollback())
return
}
err = tx.Commit()
}()
return cb(tx)
}
// Config configures storage node database
type Config struct {
// TODO: figure out better names
Storage string
Info string
Info2 string
Driver string // if unset, uses sqlite3
Pieces string
}
// DB contains access to different database tables
type DB struct {
log *zap.Logger
config Config
pieces storage.Blobs
dbDirectory string
deprecatedInfoDB *deprecatedInfoDB
v0PieceInfoDB *v0PieceInfoDB
bandwidthDB *bandwidthDB
ordersDB *ordersDB
pieceExpirationDB *pieceExpirationDB
pieceSpaceUsedDB *pieceSpaceUsedDB
reputationDB *reputationDB
storageUsageDB *storageUsageDB
usedSerialsDB *usedSerialsDB
satellitesDB *satellitesDB
notificationsDB *notificationDB
heldamountDB *heldamountDB
SQLDBs map[string]DBContainer
}
// New creates a new master database for storage node
func New(log *zap.Logger, config Config) (*DB, error) {
piecesDir, err := filestore.NewDir(config.Pieces)
if err != nil {
return nil, err
}
pieces := filestore.New(log, piecesDir)
deprecatedInfoDB := &deprecatedInfoDB{}
v0PieceInfoDB := &v0PieceInfoDB{}
bandwidthDB := &bandwidthDB{}
ordersDB := &ordersDB{}
pieceExpirationDB := &pieceExpirationDB{}
pieceSpaceUsedDB := &pieceSpaceUsedDB{}
reputationDB := &reputationDB{}
storageUsageDB := &storageUsageDB{}
usedSerialsDB := &usedSerialsDB{}
satellitesDB := &satellitesDB{}
notificationsDB := &notificationDB{}
heldamountDB := &heldamountDB{}
db := &DB{
log: log,
config: config,
pieces: pieces,
dbDirectory: filepath.Dir(config.Info2),
deprecatedInfoDB: deprecatedInfoDB,
v0PieceInfoDB: v0PieceInfoDB,
bandwidthDB: bandwidthDB,
ordersDB: ordersDB,
pieceExpirationDB: pieceExpirationDB,
pieceSpaceUsedDB: pieceSpaceUsedDB,
reputationDB: reputationDB,
storageUsageDB: storageUsageDB,
usedSerialsDB: usedSerialsDB,
satellitesDB: satellitesDB,
notificationsDB: notificationsDB,
heldamountDB: heldamountDB,
SQLDBs: map[string]DBContainer{
DeprecatedInfoDBName: deprecatedInfoDB,
PieceInfoDBName: v0PieceInfoDB,
BandwidthDBName: bandwidthDB,
OrdersDBName: ordersDB,
PieceExpirationDBName: pieceExpirationDB,
PieceSpaceUsedDBName: pieceSpaceUsedDB,
ReputationDBName: reputationDB,
StorageUsageDBName: storageUsageDB,
UsedSerialsDBName: usedSerialsDB,
SatellitesDBName: satellitesDB,
NotificationsDBName: notificationsDB,
HeldAmountDBName: heldamountDB,
},
}
err = db.openDatabases()
if err != nil {
return nil, err
}
return db, nil
}
// openDatabases opens all the SQLite3 storage node databases and returns if any fails to open successfully.
func (db *DB) openDatabases() error {
// These objects have a Configure method to allow setting the underlining SQLDB connection
// that each uses internally to do data access to the SQLite3 databases.
// The reason it was done this way was because there's some outside consumers that are
// taking a reference to the business object.
err := db.openDatabase(DeprecatedInfoDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(BandwidthDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(OrdersDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(PieceExpirationDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(PieceInfoDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(PieceSpaceUsedDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(ReputationDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(StorageUsageDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(UsedSerialsDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(SatellitesDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(NotificationsDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
err = db.openDatabase(HeldAmountDBName)
if err != nil {
return errs.Combine(err, db.closeDatabases())
}
return nil
}
func (db *DB) rawDatabaseFromName(dbName string) tagsql.DB {
return db.SQLDBs[dbName].GetDB()
}
// openDatabase opens or creates a database at the specified path.
func (db *DB) openDatabase(dbName string) error {
path := db.filepathFromDBName(dbName)
if err := os.MkdirAll(filepath.Dir(path), 0700); err != nil {
return ErrDatabase.Wrap(err)
}
driver := db.config.Driver
if driver == "" {
driver = "sqlite3"
}
sqlDB, err := tagsql.Open(driver, "file:"+path+"?_journal=WAL&_busy_timeout=10000")
if err != nil {
return ErrDatabase.Wrap(err)
}
mDB := db.SQLDBs[dbName]
mDB.Configure(sqlDB)
dbutil.Configure(sqlDB, dbName, mon)
return nil
}
// filenameFromDBName returns a constructed filename for the specified database name.
func (db *DB) filenameFromDBName(dbName string) string {
return dbName + ".db"
}
func (db *DB) filepathFromDBName(dbName string) string {
return filepath.Join(db.dbDirectory, db.filenameFromDBName(dbName))
}
// CreateTables creates any necessary tables.
func (db *DB) CreateTables(ctx context.Context) error {
migration := db.Migration(ctx)
return migration.Run(ctx, db.log.Named("migration"))
}
// Preflight conducts a pre-flight check to ensure correct schemas and minimal read+write functionality of the database tables.
func (db *DB) Preflight(ctx context.Context) (err error) {
for dbName, dbContainer := range db.SQLDBs {
nextDB := dbContainer.GetDB()
// Preflight stage 1: test schema correctness
schema, err := sqliteutil.QuerySchema(ctx, nextDB)
if err != nil {
return ErrPreflight.New("%s: schema check failed: %v", dbName, err)
}
// we don't care about changes in versions table
schema.DropTable("versions")
// if there was a previous pre-flight failure, test_table might still be in the schema
schema.DropTable("test_table")
// If tables and indexes of the schema are empty, set to nil
// to help with comparison to the snapshot.
if len(schema.Tables) == 0 {
schema.Tables = nil
}
if len(schema.Indexes) == 0 {
schema.Indexes = nil
}
// get expected schema and expect it to match actual schema
expectedSchema := Schema()[dbName]
if diff := cmp.Diff(expectedSchema, schema); diff != "" {
return ErrPreflight.New("%s: expected schema does not match actual: %s", dbName, diff)
}
// Preflight stage 2: test basic read/write access
// for each database, create a new table, insert a row into that table, retrieve and validate that row, and drop the table.
// drop test table in case the last preflight check failed before table could be dropped
_, err = nextDB.ExecContext(ctx, "DROP TABLE IF EXISTS test_table")
if err != nil {
return ErrPreflight.Wrap(err)
}
_, err = nextDB.ExecContext(ctx, "CREATE TABLE test_table(id int NOT NULL, name varchar(30), PRIMARY KEY (id))")
if err != nil {
return ErrPreflight.Wrap(err)
}
var expectedID, actualID int
var expectedName, actualName string
expectedID = 1
expectedName = "TEST"
_, err = nextDB.ExecContext(ctx, "INSERT INTO test_table VALUES ( ?, ? )", expectedID, expectedName)
if err != nil {
return ErrPreflight.Wrap(err)
}
rows, err := nextDB.QueryContext(ctx, "SELECT id, name FROM test_table")
if err != nil {
return ErrPreflight.Wrap(err)
}
defer func() { err = errs.Combine(err, rows.Close()) }()
if !rows.Next() {
return ErrPreflight.New("%s: no rows in test_table", dbName)
}
err = rows.Scan(&actualID, &actualName)
if err != nil {
return ErrPreflight.Wrap(err)
}
if expectedID != actualID || expectedName != actualName {
return ErrPreflight.New("%s: expected: (%d, '%s'), actual: (%d, '%s')", dbName, expectedID, expectedName, actualID, actualName)
}
if rows.Next() {
return ErrPreflight.New("%s: more than one row in test_table", dbName)
}
_, err = nextDB.ExecContext(ctx, "DROP TABLE test_table")
if err != nil {
return ErrPreflight.Wrap(err)
}
}
return nil
}
// Close closes any resources.
func (db *DB) Close() error {
return db.closeDatabases()
}
// closeDatabases closes all the SQLite database connections and removes them from the associated maps.
func (db *DB) closeDatabases() error {
var errlist errs.Group
for k := range db.SQLDBs {
errlist.Add(db.closeDatabase(k))
}
return errlist.Err()
}
// closeDatabase closes the specified SQLite database connections and removes them from the associated maps.
func (db *DB) closeDatabase(dbName string) (err error) {
mdb, ok := db.SQLDBs[dbName]
if !ok {
return ErrDatabase.New("no database with name %s found. database was never opened or already closed.", dbName)
}
return ErrDatabase.Wrap(mdb.GetDB().Close())
}
// V0PieceInfo returns the instance of the V0PieceInfoDB database.
func (db *DB) V0PieceInfo() pieces.V0PieceInfoDB {
return db.v0PieceInfoDB
}
// Bandwidth returns the instance of the Bandwidth database.
func (db *DB) Bandwidth() bandwidth.DB {
return db.bandwidthDB
}
// Orders returns the instance of the Orders database.
func (db *DB) Orders() orders.DB {
return db.ordersDB
}
// Pieces returns blob storage for pieces
func (db *DB) Pieces() storage.Blobs {
return db.pieces
}
// PieceExpirationDB returns the instance of the PieceExpiration database.
func (db *DB) PieceExpirationDB() pieces.PieceExpirationDB {
return db.pieceExpirationDB
}
// PieceSpaceUsedDB returns the instance of the PieceSpacedUsed database.
func (db *DB) PieceSpaceUsedDB() pieces.PieceSpaceUsedDB {
return db.pieceSpaceUsedDB
}
// Reputation returns the instance of the Reputation database.
func (db *DB) Reputation() reputation.DB {
return db.reputationDB
}
// StorageUsage returns the instance of the StorageUsage database.
func (db *DB) StorageUsage() storageusage.DB {
return db.storageUsageDB
}
// UsedSerials returns the instance of the UsedSerials database.
func (db *DB) UsedSerials() piecestore.UsedSerials {
return db.usedSerialsDB
}
// Satellites returns the instance of the Satellites database.
func (db *DB) Satellites() satellites.DB {
return db.satellitesDB
}
// Notifications returns the instance of the Notifications database.
func (db *DB) Notifications() notifications.DB {
return db.notificationsDB
}
// HeldAmount returns instance of the HeldAmount database.
func (db *DB) HeldAmount() heldamount.DB {
return db.heldamountDB
}
// RawDatabases are required for testing purposes
func (db *DB) RawDatabases() map[string]DBContainer {
return db.SQLDBs
}
// migrateToDB is a helper method that performs the migration from the
// deprecatedInfoDB to the specified new db. It first closes and deletes any
// existing database to guarantee idempotence. After migration it also closes
// and re-opens the new database to allow the system to recover used disk space.
func (db *DB) migrateToDB(ctx context.Context, dbName string, tablesToKeep ...string) error {
err := db.closeDatabase(dbName)
if err != nil {
return ErrDatabase.Wrap(err)
}
path := db.filepathFromDBName(dbName)
if _, err := os.Stat(path); err == nil {
err = os.Remove(path)
if err != nil {
return ErrDatabase.Wrap(err)
}
}
err = db.openDatabase(dbName)
if err != nil {
return ErrDatabase.Wrap(err)
}
err = sqliteutil.MigrateTablesToDatabase(ctx,
db.rawDatabaseFromName(DeprecatedInfoDBName),
db.rawDatabaseFromName(dbName),
tablesToKeep...)
if err != nil {
return ErrDatabase.Wrap(err)
}
// We need to close and re-open the database we have just migrated *to* in
// order to recover any excess disk usage that was freed in the VACUUM call
err = db.closeDatabase(dbName)
if err != nil {
return ErrDatabase.Wrap(err)
}
err = db.openDatabase(dbName)
if err != nil {
return ErrDatabase.Wrap(err)
}
return nil
}
// Migration returns table migrations.
func (db *DB) Migration(ctx context.Context) *migrate.Migration {
return &migrate.Migration{
Table: VersionTable,
Steps: []*migrate.Step{
{
DB: db.deprecatedInfoDB,
Description: "Initial setup",
Version: 0,
Action: migrate.SQL{
// table for keeping serials that need to be verified against
`CREATE TABLE used_serial (
satellite_id BLOB NOT NULL,
serial_number BLOB NOT NULL,
expiration TIMESTAMP NOT NULL
)`,
// primary key on satellite id and serial number
`CREATE UNIQUE INDEX pk_used_serial ON used_serial(satellite_id, serial_number)`,
// expiration index to allow fast deletion
`CREATE INDEX idx_used_serial ON used_serial(expiration)`,
// certificate table for storing uplink/satellite certificates
`CREATE TABLE certificate (
cert_id INTEGER PRIMARY KEY AUTOINCREMENT NOT NULL,
node_id BLOB NOT NULL, -- same NodeID can have multiple valid leaf certificates
peer_identity BLOB UNIQUE NOT NULL -- PEM encoded
)`,
// table for storing piece meta info
`CREATE TABLE pieceinfo (
satellite_id BLOB NOT NULL,
piece_id BLOB NOT NULL,
piece_size BIGINT NOT NULL,
piece_expiration TIMESTAMP, -- date when it can be deleted
uplink_piece_hash BLOB NOT NULL, -- serialized pb.PieceHash signed by uplink
uplink_cert_id INTEGER NOT NULL,
FOREIGN KEY(uplink_cert_id) REFERENCES certificate(cert_id)
)`,
// primary key by satellite id and piece id
`CREATE UNIQUE INDEX pk_pieceinfo ON pieceinfo(satellite_id, piece_id)`,
// table for storing bandwidth usage
`CREATE TABLE bandwidth_usage (
satellite_id BLOB NOT NULL,
action INTEGER NOT NULL,
amount BIGINT NOT NULL,
created_at TIMESTAMP NOT NULL
)`,
`CREATE INDEX idx_bandwidth_usage_satellite ON bandwidth_usage(satellite_id)`,
`CREATE INDEX idx_bandwidth_usage_created ON bandwidth_usage(created_at)`,
// table for storing all unsent orders
`CREATE TABLE unsent_order (
satellite_id BLOB NOT NULL,
serial_number BLOB NOT NULL,
order_limit_serialized BLOB NOT NULL, -- serialized pb.OrderLimit
order_serialized BLOB NOT NULL, -- serialized pb.Order
order_limit_expiration TIMESTAMP NOT NULL, -- when is the deadline for sending it
uplink_cert_id INTEGER NOT NULL,
FOREIGN KEY(uplink_cert_id) REFERENCES certificate(cert_id)
)`,
`CREATE UNIQUE INDEX idx_orders ON unsent_order(satellite_id, serial_number)`,
// table for storing all sent orders
`CREATE TABLE order_archive (
satellite_id BLOB NOT NULL,
serial_number BLOB NOT NULL,
order_limit_serialized BLOB NOT NULL, -- serialized pb.OrderLimit
order_serialized BLOB NOT NULL, -- serialized pb.Order
uplink_cert_id INTEGER NOT NULL,
status INTEGER NOT NULL, -- accepted, rejected, confirmed
archived_at TIMESTAMP NOT NULL, -- when was it rejected
FOREIGN KEY(uplink_cert_id) REFERENCES certificate(cert_id)
)`,
`CREATE INDEX idx_order_archive_satellite ON order_archive(satellite_id)`,
`CREATE INDEX idx_order_archive_status ON order_archive(status)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Network Wipe #2",
Version: 1,
Action: migrate.SQL{
`UPDATE pieceinfo SET piece_expiration = '2019-05-09 00:00:00.000000+00:00'`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Add tracking of deletion failures.",
Version: 2,
Action: migrate.SQL{
`ALTER TABLE pieceinfo ADD COLUMN deletion_failed_at TIMESTAMP`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Add vouchersDB for storing and retrieving vouchers.",
Version: 3,
Action: migrate.SQL{
`CREATE TABLE vouchers (
satellite_id BLOB PRIMARY KEY NOT NULL,
voucher_serialized BLOB NOT NULL,
expiration TIMESTAMP NOT NULL
)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Add index on pieceinfo expireation",
Version: 4,
Action: migrate.SQL{
`CREATE INDEX idx_pieceinfo_expiration ON pieceinfo(piece_expiration)`,
`CREATE INDEX idx_pieceinfo_deletion_failed ON pieceinfo(deletion_failed_at)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Partial Network Wipe - Tardigrade Satellites",
Version: 5,
Action: migrate.SQL{
`UPDATE pieceinfo SET piece_expiration = '2019-06-25 00:00:00.000000+00:00' WHERE satellite_id
IN (x'84A74C2CD43C5BA76535E1F42F5DF7C287ED68D33522782F4AFABFDB40000000',
x'A28B4F04E10BAE85D67F4C6CB82BF8D4C0F0F47A8EA72627524DEB6EC0000000',
x'AF2C42003EFC826AB4361F73F9D890942146FE0EBE806786F8E7190800000000'
)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Add creation date.",
Version: 6,
Action: migrate.SQL{
`ALTER TABLE pieceinfo ADD COLUMN piece_creation TIMESTAMP NOT NULL DEFAULT 'epoch'`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Drop certificate table.",
Version: 7,
Action: migrate.SQL{
`DROP TABLE certificate`,
`CREATE TABLE certificate (cert_id INTEGER)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Drop old used serials and remove pieceinfo_deletion_failed index.",
Version: 8,
Action: migrate.SQL{
`DELETE FROM used_serial`,
`DROP INDEX idx_pieceinfo_deletion_failed`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Add order limit table.",
Version: 9,
Action: migrate.SQL{
`ALTER TABLE pieceinfo ADD COLUMN order_limit BLOB NOT NULL DEFAULT X''`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Optimize index usage.",
Version: 10,
Action: migrate.SQL{
`DROP INDEX idx_pieceinfo_expiration`,
`DROP INDEX idx_order_archive_satellite`,
`DROP INDEX idx_order_archive_status`,
`CREATE INDEX idx_pieceinfo_expiration ON pieceinfo(piece_expiration) WHERE piece_expiration IS NOT NULL`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Create bandwidth_usage_rollup table.",
Version: 11,
Action: migrate.SQL{
`CREATE TABLE bandwidth_usage_rollups (
interval_start TIMESTAMP NOT NULL,
satellite_id BLOB NOT NULL,
action INTEGER NOT NULL,
amount BIGINT NOT NULL,
PRIMARY KEY ( interval_start, satellite_id, action )
)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Clear Tables from Alpha data",
Version: 12,
Action: migrate.SQL{
`DROP TABLE pieceinfo`,
`DROP TABLE used_serial`,
`DROP TABLE order_archive`,
`CREATE TABLE pieceinfo_ (
satellite_id BLOB NOT NULL,
piece_id BLOB NOT NULL,
piece_size BIGINT NOT NULL,
piece_expiration TIMESTAMP,
order_limit BLOB NOT NULL,
uplink_piece_hash BLOB NOT NULL,
uplink_cert_id INTEGER NOT NULL,
deletion_failed_at TIMESTAMP,
piece_creation TIMESTAMP NOT NULL,
FOREIGN KEY(uplink_cert_id) REFERENCES certificate(cert_id)
)`,
`CREATE UNIQUE INDEX pk_pieceinfo_ ON pieceinfo_(satellite_id, piece_id)`,
`CREATE INDEX idx_pieceinfo__expiration ON pieceinfo_(piece_expiration) WHERE piece_expiration IS NOT NULL`,
`CREATE TABLE used_serial_ (
satellite_id BLOB NOT NULL,
serial_number BLOB NOT NULL,
expiration TIMESTAMP NOT NULL
)`,
`CREATE UNIQUE INDEX pk_used_serial_ ON used_serial_(satellite_id, serial_number)`,
`CREATE INDEX idx_used_serial_ ON used_serial_(expiration)`,
`CREATE TABLE order_archive_ (
satellite_id BLOB NOT NULL,
serial_number BLOB NOT NULL,
order_limit_serialized BLOB NOT NULL,
order_serialized BLOB NOT NULL,
uplink_cert_id INTEGER NOT NULL,
status INTEGER NOT NULL,
archived_at TIMESTAMP NOT NULL,
FOREIGN KEY(uplink_cert_id) REFERENCES certificate(cert_id)
)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Free Storagenodes from trash data",
Version: 13,
Action: migrate.Func(func(ctx context.Context, log *zap.Logger, mgdb tagsql.DB, tx tagsql.Tx) error {
err := os.RemoveAll(filepath.Join(db.dbDirectory, "blob/ukfu6bhbboxilvt7jrwlqk7y2tapb5d2r2tsmj2sjxvw5qaaaaaa")) // us-central1
if err != nil {
log.Sugar().Debug(err)
}
err = os.RemoveAll(filepath.Join(db.dbDirectory, "blob/v4weeab67sbgvnbwd5z7tweqsqqun7qox2agpbxy44mqqaaaaaaa")) // europe-west1
if err != nil {
log.Sugar().Debug(err)
}
err = os.RemoveAll(filepath.Join(db.dbDirectory, "blob/qstuylguhrn2ozjv4h2c6xpxykd622gtgurhql2k7k75wqaaaaaa")) // asia-east1
if err != nil {
log.Sugar().Debug(err)
}
err = os.RemoveAll(filepath.Join(db.dbDirectory, "blob/abforhuxbzyd35blusvrifvdwmfx4hmocsva4vmpp3rgqaaaaaaa")) // "tothemoon (stefan)"
if err != nil {
log.Sugar().Debug(err)
}
// To prevent the node from starting up, we just log errors and return nil
return nil
}),
},
{
DB: db.deprecatedInfoDB,
Description: "Free Storagenodes from orphaned tmp data",
Version: 14,
Action: migrate.Func(func(ctx context.Context, log *zap.Logger, mgdb tagsql.DB, tx tagsql.Tx) error {
err := os.RemoveAll(filepath.Join(db.dbDirectory, "tmp"))
if err != nil {
log.Sugar().Debug(err)
}
// To prevent the node from starting up, we just log errors and return nil
return nil
}),
},
{
DB: db.deprecatedInfoDB,
Description: "Start piece_expirations table, deprecate pieceinfo table",
Version: 15,
Action: migrate.SQL{
// new table to hold expiration data (and only expirations. no other pieceinfo)
`CREATE TABLE piece_expirations (
satellite_id BLOB NOT NULL,
piece_id BLOB NOT NULL,
piece_expiration TIMESTAMP NOT NULL, -- date when it can be deleted
deletion_failed_at TIMESTAMP,
PRIMARY KEY (satellite_id, piece_id)
)`,
`CREATE INDEX idx_piece_expirations_piece_expiration ON piece_expirations(piece_expiration)`,
`CREATE INDEX idx_piece_expirations_deletion_failed_at ON piece_expirations(deletion_failed_at)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Add reputation and storage usage cache tables",
Version: 16,
Action: migrate.SQL{
`CREATE TABLE reputation (
satellite_id BLOB NOT NULL,
uptime_success_count INTEGER NOT NULL,
uptime_total_count INTEGER NOT NULL,
uptime_reputation_alpha REAL NOT NULL,
uptime_reputation_beta REAL NOT NULL,
uptime_reputation_score REAL NOT NULL,
audit_success_count INTEGER NOT NULL,
audit_total_count INTEGER NOT NULL,
audit_reputation_alpha REAL NOT NULL,
audit_reputation_beta REAL NOT NULL,
audit_reputation_score REAL NOT NULL,
updated_at TIMESTAMP NOT NULL,
PRIMARY KEY (satellite_id)
)`,
`CREATE TABLE storage_usage (
satellite_id BLOB NOT NULL,
at_rest_total REAL NOT NULL,
timestamp TIMESTAMP NOT NULL,
PRIMARY KEY (satellite_id, timestamp)
)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Create piece_space_used table",
Version: 17,
Action: migrate.SQL{
// new table to hold the most recent totals from the piece space used cache
`CREATE TABLE piece_space_used (
total INTEGER NOT NULL,
satellite_id BLOB
)`,
`CREATE UNIQUE INDEX idx_piece_space_used_satellite_id ON piece_space_used(satellite_id)`,
`INSERT INTO piece_space_used (total) select ifnull(sum(piece_size), 0) from pieceinfo_`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Drop vouchers table",
Version: 18,
Action: migrate.SQL{
`DROP TABLE vouchers`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Add disqualified field to reputation",
Version: 19,
Action: migrate.SQL{
`DROP TABLE reputation;`,
`CREATE TABLE reputation (
satellite_id BLOB NOT NULL,
uptime_success_count INTEGER NOT NULL,
uptime_total_count INTEGER NOT NULL,
uptime_reputation_alpha REAL NOT NULL,
uptime_reputation_beta REAL NOT NULL,
uptime_reputation_score REAL NOT NULL,
audit_success_count INTEGER NOT NULL,
audit_total_count INTEGER NOT NULL,
audit_reputation_alpha REAL NOT NULL,
audit_reputation_beta REAL NOT NULL,
audit_reputation_score REAL NOT NULL,
disqualified TIMESTAMP,
updated_at TIMESTAMP NOT NULL,
PRIMARY KEY (satellite_id)
);`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Empty storage_usage table, rename storage_usage.timestamp to interval_start",
Version: 20,
Action: migrate.SQL{
`DROP TABLE storage_usage`,
`CREATE TABLE storage_usage (
satellite_id BLOB NOT NULL,
at_rest_total REAL NOT NULL,
interval_start TIMESTAMP NOT NULL,
PRIMARY KEY (satellite_id, interval_start)
)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Create satellites table and satellites_exit_progress table",
Version: 21,
Action: migrate.SQL{
`CREATE TABLE satellites (
node_id BLOB NOT NULL,
address TEXT NOT NULL,
added_at TIMESTAMP NOT NULL,
status INTEGER NOT NULL,
PRIMARY KEY (node_id)
)`,
`CREATE TABLE satellite_exit_progress (
satellite_id BLOB NOT NULL,
initiated_at TIMESTAMP,
finished_at TIMESTAMP,
starting_disk_usage INTEGER NOT NULL,
bytes_deleted INTEGER NOT NULL,
completion_receipt BLOB,
PRIMARY KEY (satellite_id)
)`,
},
},
{
DB: db.deprecatedInfoDB,
Description: "Vacuum info db",
Version: 22,
Action: migrate.Func(func(ctx context.Context, log *zap.Logger, _ tagsql.DB, tx tagsql.Tx) error {
_, err := db.deprecatedInfoDB.GetDB().ExecContext(ctx, "VACUUM;")
return err
}),
},
{
DB: db.deprecatedInfoDB,
Description: "Split into multiple sqlite databases",
Version: 23,
Action: migrate.Func(func(ctx context.Context, log *zap.Logger, _ tagsql.DB, tx tagsql.Tx) error {
// Migrate all the tables to new database files.
if err := db.migrateToDB(ctx, BandwidthDBName, "bandwidth_usage", "bandwidth_usage_rollups"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, OrdersDBName, "unsent_order", "order_archive_"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, PieceExpirationDBName, "piece_expirations"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, PieceInfoDBName, "pieceinfo_"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, PieceSpaceUsedDBName, "piece_space_used"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, ReputationDBName, "reputation"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, StorageUsageDBName, "storage_usage"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, UsedSerialsDBName, "used_serial_"); err != nil {
return ErrDatabase.Wrap(err)
}
if err := db.migrateToDB(ctx, SatellitesDBName, "satellites", "satellite_exit_progress"); err != nil {
return ErrDatabase.Wrap(err)
}
return nil
}),
},
{
DB: db.deprecatedInfoDB,
Description: "Drop unneeded tables in deprecatedInfoDB",
Version: 24,
Action: migrate.Func(func(ctx context.Context, log *zap.Logger, _ tagsql.DB, tx tagsql.Tx) error {
// We drop the migrated tables from the deprecated database and VACUUM SQLite3
// in migration step 23 because if we were to keep that as part of step 22
// and an error occurred it would replay the entire migration but some tables
// may have successfully dropped and we would experience unrecoverable data loss.
// This way if step 22 completes it never gets replayed even if a drop table or
// VACUUM call fails.
if err := sqliteutil.KeepTables(ctx, db.rawDatabaseFromName(DeprecatedInfoDBName), VersionTable); err != nil {
return ErrDatabase.Wrap(err)
}
return nil
}),
},
{
DB: db.satellitesDB,
Description: "Remove address from satellites table",
Version: 25,
Action: migrate.SQL{
`ALTER TABLE satellites RENAME TO _satellites_old`,
`CREATE TABLE satellites (
node_id BLOB NOT NULL,
added_at TIMESTAMP NOT NULL,
status INTEGER NOT NULL,
PRIMARY KEY (node_id)
)`,
`INSERT INTO satellites (node_id, added_at, status)
SELECT node_id, added_at, status
FROM _satellites_old`,
`DROP TABLE _satellites_old`,
},
},
{
DB: db.pieceExpirationDB,
Description: "Add Trash column to pieceExpirationDB",
Version: 26,
Action: migrate.SQL{
`ALTER TABLE piece_expirations ADD COLUMN trash INTEGER NOT NULL DEFAULT 0`,
`CREATE INDEX idx_piece_expirations_trashed
ON piece_expirations(satellite_id, trash)
WHERE trash = 1`,
},
},
{
DB: db.ordersDB,
Description: "Add index archived_at to ordersDB",
Version: 27,
Action: migrate.SQL{
`CREATE INDEX idx_order_archived_at ON order_archive_(archived_at)`,
},
},
{
DB: db.notificationsDB,
Description: "Create notifications table",
Version: 28,
Action: migrate.SQL{
`CREATE TABLE notifications (
id BLOB NOT NULL,
sender_id BLOB NOT NULL,
type INTEGER NOT NULL,
title TEXT NOT NULL,
message TEXT NOT NULL,
read_at TIMESTAMP,
created_at TIMESTAMP NOT NULL,
PRIMARY KEY (id)
);`,
},
},
{
DB: db.pieceSpaceUsedDB,
Description: "Migrate piece_space_used to add total column",
Version: 29,
Action: migrate.SQL{
`ALTER TABLE piece_space_used RENAME TO _piece_space_used_old`,
`CREATE TABLE piece_space_used (
total INTEGER NOT NULL DEFAULT 0,
content_size INTEGER NOT NULL,
satellite_id BLOB
)`,
`INSERT INTO piece_space_used (content_size, satellite_id)
SELECT total, satellite_id
FROM _piece_space_used_old`,
`DROP TABLE _piece_space_used_old`,
`CREATE UNIQUE INDEX idx_piece_space_used_satellite_id ON piece_space_used(satellite_id)`,
},
},
{
DB: db.pieceSpaceUsedDB,
Description: "Initialize piece_space_used total column to content_size",
Version: 30,
Action: migrate.SQL{
`UPDATE piece_space_used SET total = content_size`,
},
},
{
DB: db.pieceSpaceUsedDB,
Description: "Remove all 0 values from piece_space_used",
Version: 31,
Action: migrate.SQL{
`UPDATE piece_space_used SET total = 0 WHERE total < 0`,
`UPDATE piece_space_used SET content_size = 0 WHERE content_size < 0`,
},
},
{
DB: db.heldamountDB,
Description: "Create paystubs table and payments table",
Version: 32,
Action: migrate.SQL{
`CREATE TABLE paystubs (
period text NOT NULL,
satellite_id bytea NOT NULL,
created_at timestamp with time zone NOT NULL,
codes text NOT NULL,
usage_at_rest double precision NOT NULL,
usage_get bigint NOT NULL,
usage_put bigint NOT NULL,
usage_get_repair bigint NOT NULL,
usage_put_repair bigint NOT NULL,
usage_get_audit bigint NOT NULL,
comp_at_rest bigint NOT NULL,
comp_get bigint NOT NULL,
comp_put bigint NOT NULL,
comp_get_repair bigint NOT NULL,
comp_put_repair bigint NOT NULL,
comp_get_audit bigint NOT NULL,
surge_percent bigint NOT NULL,
held bigint NOT NULL,
owed bigint NOT NULL,
disposed bigint NOT NULL,
paid bigint NOT NULL,
PRIMARY KEY ( period, satellite_id )
);`,
`CREATE TABLE payments (
id bigserial NOT NULL,
created_at timestamp with time zone NOT NULL,
satellite_id bytea NOT NULL,
period text,
amount bigint NOT NULL,
receipt text,
notes text,
PRIMARY KEY ( id )
);`,
},
},
{
DB: db.heldamountDB,
Description: "Remove time zone from created_at in paystubs and payments",
Version: 33,
Action: migrate.SQL{
`DROP TABLE paystubs;`,
`DROP TABLE payments;`,
`CREATE TABLE paystubs (
period text NOT NULL,
satellite_id bytea NOT NULL,
created_at timestamp NOT NULL,
codes text NOT NULL,
usage_at_rest double precision NOT NULL,
usage_get bigint NOT NULL,
usage_put bigint NOT NULL,
usage_get_repair bigint NOT NULL,
usage_put_repair bigint NOT NULL,
usage_get_audit bigint NOT NULL,
comp_at_rest bigint NOT NULL,
comp_get bigint NOT NULL,
comp_put bigint NOT NULL,
comp_get_repair bigint NOT NULL,
comp_put_repair bigint NOT NULL,
comp_get_audit bigint NOT NULL,
surge_percent bigint NOT NULL,
held bigint NOT NULL,
owed bigint NOT NULL,
disposed bigint NOT NULL,
paid bigint NOT NULL,
PRIMARY KEY ( period, satellite_id )
);`,
`CREATE TABLE payments (
id bigserial NOT NULL,
created_at timestamp NOT NULL,
satellite_id bytea NOT NULL,
period text,
amount bigint NOT NULL,
receipt text,
notes text,
PRIMARY KEY ( id )
);`,
},
},
},
}
}
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