status-go/vendor/github.com/golang-migrate/migrate/v4/migrate.go

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// Package migrate reads migrations from sources and runs them against databases.
// Sources are defined by the `source.Driver` and databases by the `database.Driver`
// interface. The driver interfaces are kept "dumb", all migration logic is kept
// in this package.
package migrate
import (
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"errors"
"fmt"
"os"
"sync"
"time"
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"github.com/hashicorp/go-multierror"
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"github.com/golang-migrate/migrate/v4/database"
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iurl "github.com/golang-migrate/migrate/v4/internal/url"
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"github.com/golang-migrate/migrate/v4/source"
)
// DefaultPrefetchMigrations sets the number of migrations to pre-read
// from the source. This is helpful if the source is remote, but has little
// effect for a local source (i.e. file system).
// Please note that this setting has a major impact on the memory usage,
// since each pre-read migration is buffered in memory. See DefaultBufferSize.
var DefaultPrefetchMigrations = uint(10)
// DefaultLockTimeout sets the max time a database driver has to acquire a lock.
var DefaultLockTimeout = 15 * time.Second
var (
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ErrNoChange = errors.New("no change")
ErrNilVersion = errors.New("no migration")
ErrInvalidVersion = errors.New("version must be >= -1")
ErrLocked = errors.New("database locked")
ErrLockTimeout = errors.New("timeout: can't acquire database lock")
)
// ErrShortLimit is an error returned when not enough migrations
// can be returned by a source for a given limit.
type ErrShortLimit struct {
Short uint
}
// Error implements the error interface.
func (e ErrShortLimit) Error() string {
return fmt.Sprintf("limit %v short", e.Short)
}
type ErrDirty struct {
Version int
}
func (e ErrDirty) Error() string {
return fmt.Sprintf("Dirty database version %v. Fix and force version.", e.Version)
}
type Migrate struct {
sourceName string
sourceDrv source.Driver
databaseName string
databaseDrv database.Driver
// Log accepts a Logger interface
Log Logger
// GracefulStop accepts `true` and will stop executing migrations
// as soon as possible at a safe break point, so that the database
// is not corrupted.
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GracefulStop chan bool
isLockedMu *sync.Mutex
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isGracefulStop bool
isLocked bool
// PrefetchMigrations defaults to DefaultPrefetchMigrations,
// but can be set per Migrate instance.
PrefetchMigrations uint
// LockTimeout defaults to DefaultLockTimeout,
// but can be set per Migrate instance.
LockTimeout time.Duration
}
// New returns a new Migrate instance from a source URL and a database URL.
// The URL scheme is defined by each driver.
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func New(sourceURL, databaseURL string) (*Migrate, error) {
m := newCommon()
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sourceName, err := iurl.SchemeFromURL(sourceURL)
if err != nil {
return nil, err
}
m.sourceName = sourceName
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databaseName, err := iurl.SchemeFromURL(databaseURL)
if err != nil {
return nil, err
}
m.databaseName = databaseName
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sourceDrv, err := source.Open(sourceURL)
if err != nil {
return nil, err
}
m.sourceDrv = sourceDrv
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databaseDrv, err := database.Open(databaseURL)
if err != nil {
return nil, err
}
m.databaseDrv = databaseDrv
return m, nil
}
// NewWithDatabaseInstance returns a new Migrate instance from a source URL
// and an existing database instance. The source URL scheme is defined by each driver.
// Use any string that can serve as an identifier during logging as databaseName.
// You are responsible for closing the underlying database client if necessary.
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func NewWithDatabaseInstance(sourceURL string, databaseName string, databaseInstance database.Driver) (*Migrate, error) {
m := newCommon()
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sourceName, err := iurl.SchemeFromURL(sourceURL)
if err != nil {
return nil, err
}
m.sourceName = sourceName
m.databaseName = databaseName
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sourceDrv, err := source.Open(sourceURL)
if err != nil {
return nil, err
}
m.sourceDrv = sourceDrv
m.databaseDrv = databaseInstance
return m, nil
}
// NewWithSourceInstance returns a new Migrate instance from an existing source instance
// and a database URL. The database URL scheme is defined by each driver.
// Use any string that can serve as an identifier during logging as sourceName.
// You are responsible for closing the underlying source client if necessary.
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func NewWithSourceInstance(sourceName string, sourceInstance source.Driver, databaseURL string) (*Migrate, error) {
m := newCommon()
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databaseName, err := iurl.SchemeFromURL(databaseURL)
if err != nil {
return nil, err
}
m.databaseName = databaseName
m.sourceName = sourceName
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databaseDrv, err := database.Open(databaseURL)
if err != nil {
return nil, err
}
m.databaseDrv = databaseDrv
m.sourceDrv = sourceInstance
return m, nil
}
// NewWithInstance returns a new Migrate instance from an existing source and
// database instance. Use any string that can serve as an identifier during logging
// as sourceName and databaseName. You are responsible for closing down
// the underlying source and database client if necessary.
func NewWithInstance(sourceName string, sourceInstance source.Driver, databaseName string, databaseInstance database.Driver) (*Migrate, error) {
m := newCommon()
m.sourceName = sourceName
m.databaseName = databaseName
m.sourceDrv = sourceInstance
m.databaseDrv = databaseInstance
return m, nil
}
func newCommon() *Migrate {
return &Migrate{
GracefulStop: make(chan bool, 1),
PrefetchMigrations: DefaultPrefetchMigrations,
LockTimeout: DefaultLockTimeout,
isLockedMu: &sync.Mutex{},
}
}
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// Close closes the source and the database.
func (m *Migrate) Close() (source error, database error) {
databaseSrvClose := make(chan error)
sourceSrvClose := make(chan error)
m.logVerbosePrintf("Closing source and database\n")
go func() {
databaseSrvClose <- m.databaseDrv.Close()
}()
go func() {
sourceSrvClose <- m.sourceDrv.Close()
}()
return <-sourceSrvClose, <-databaseSrvClose
}
// Migrate looks at the currently active migration version,
// then migrates either up or down to the specified version.
func (m *Migrate) Migrate(version uint) error {
if err := m.lock(); err != nil {
return err
}
curVersion, dirty, err := m.databaseDrv.Version()
if err != nil {
return m.unlockErr(err)
}
if dirty {
return m.unlockErr(ErrDirty{curVersion})
}
ret := make(chan interface{}, m.PrefetchMigrations)
go m.read(curVersion, int(version), ret)
return m.unlockErr(m.runMigrations(ret))
}
// Steps looks at the currently active migration version.
// It will migrate up if n > 0, and down if n < 0.
func (m *Migrate) Steps(n int) error {
if n == 0 {
return ErrNoChange
}
if err := m.lock(); err != nil {
return err
}
curVersion, dirty, err := m.databaseDrv.Version()
if err != nil {
return m.unlockErr(err)
}
if dirty {
return m.unlockErr(ErrDirty{curVersion})
}
ret := make(chan interface{}, m.PrefetchMigrations)
if n > 0 {
go m.readUp(curVersion, n, ret)
} else {
go m.readDown(curVersion, -n, ret)
}
return m.unlockErr(m.runMigrations(ret))
}
// Up looks at the currently active migration version
// and will migrate all the way up (applying all up migrations).
func (m *Migrate) Up() error {
if err := m.lock(); err != nil {
return err
}
curVersion, dirty, err := m.databaseDrv.Version()
if err != nil {
return m.unlockErr(err)
}
if dirty {
return m.unlockErr(ErrDirty{curVersion})
}
ret := make(chan interface{}, m.PrefetchMigrations)
go m.readUp(curVersion, -1, ret)
return m.unlockErr(m.runMigrations(ret))
}
// Down looks at the currently active migration version
// and will migrate all the way down (applying all down migrations).
func (m *Migrate) Down() error {
if err := m.lock(); err != nil {
return err
}
curVersion, dirty, err := m.databaseDrv.Version()
if err != nil {
return m.unlockErr(err)
}
if dirty {
return m.unlockErr(ErrDirty{curVersion})
}
ret := make(chan interface{}, m.PrefetchMigrations)
go m.readDown(curVersion, -1, ret)
return m.unlockErr(m.runMigrations(ret))
}
// Drop deletes everything in the database.
func (m *Migrate) Drop() error {
if err := m.lock(); err != nil {
return err
}
if err := m.databaseDrv.Drop(); err != nil {
return m.unlockErr(err)
}
return m.unlock()
}
// Run runs any migration provided by you against the database.
// It does not check any currently active version in database.
// Usually you don't need this function at all. Use Migrate,
// Steps, Up or Down instead.
func (m *Migrate) Run(migration ...*Migration) error {
if len(migration) == 0 {
return ErrNoChange
}
if err := m.lock(); err != nil {
return err
}
curVersion, dirty, err := m.databaseDrv.Version()
if err != nil {
return m.unlockErr(err)
}
if dirty {
return m.unlockErr(ErrDirty{curVersion})
}
ret := make(chan interface{}, m.PrefetchMigrations)
go func() {
defer close(ret)
for _, migr := range migration {
if m.PrefetchMigrations > 0 && migr.Body != nil {
m.logVerbosePrintf("Start buffering %v\n", migr.LogString())
} else {
m.logVerbosePrintf("Scheduled %v\n", migr.LogString())
}
ret <- migr
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go func(migr *Migration) {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}(migr)
}
}()
return m.unlockErr(m.runMigrations(ret))
}
// Force sets a migration version.
// It does not check any currently active version in database.
// It resets the dirty state to false.
func (m *Migrate) Force(version int) error {
if version < -1 {
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return ErrInvalidVersion
}
if err := m.lock(); err != nil {
return err
}
if err := m.databaseDrv.SetVersion(version, false); err != nil {
return m.unlockErr(err)
}
return m.unlock()
}
// Version returns the currently active migration version.
// If no migration has been applied, yet, it will return ErrNilVersion.
func (m *Migrate) Version() (version uint, dirty bool, err error) {
v, d, err := m.databaseDrv.Version()
if err != nil {
return 0, false, err
}
if v == database.NilVersion {
return 0, false, ErrNilVersion
}
return suint(v), d, nil
}
// read reads either up or down migrations from source `from` to `to`.
// Each migration is then written to the ret channel.
// If an error occurs during reading, that error is written to the ret channel, too.
// Once read is done reading it will close the ret channel.
func (m *Migrate) read(from int, to int, ret chan<- interface{}) {
defer close(ret)
// check if from version exists
if from >= 0 {
if err := m.versionExists(suint(from)); err != nil {
ret <- err
return
}
}
// check if to version exists
if to >= 0 {
if err := m.versionExists(suint(to)); err != nil {
ret <- err
return
}
}
// no change?
if from == to {
ret <- ErrNoChange
return
}
if from < to {
// it's going up
// apply first migration if from is nil version
if from == -1 {
firstVersion, err := m.sourceDrv.First()
if err != nil {
ret <- err
return
}
migr, err := m.newMigration(firstVersion, int(firstVersion))
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
from = int(firstVersion)
}
// run until we reach target ...
for from < to {
if m.stop() {
return
}
next, err := m.sourceDrv.Next(suint(from))
if err != nil {
ret <- err
return
}
migr, err := m.newMigration(next, int(next))
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
from = int(next)
}
} else {
// it's going down
// run until we reach target ...
for from > to && from >= 0 {
if m.stop() {
return
}
prev, err := m.sourceDrv.Prev(suint(from))
if errors.Is(err, os.ErrNotExist) && to == -1 {
// apply nil migration
migr, err := m.newMigration(suint(from), -1)
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
return
} else if err != nil {
ret <- err
return
}
migr, err := m.newMigration(suint(from), int(prev))
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
from = int(prev)
}
}
}
// readUp reads up migrations from `from` limitted by `limit`.
// limit can be -1, implying no limit and reading until there are no more migrations.
// Each migration is then written to the ret channel.
// If an error occurs during reading, that error is written to the ret channel, too.
// Once readUp is done reading it will close the ret channel.
func (m *Migrate) readUp(from int, limit int, ret chan<- interface{}) {
defer close(ret)
// check if from version exists
if from >= 0 {
if err := m.versionExists(suint(from)); err != nil {
ret <- err
return
}
}
if limit == 0 {
ret <- ErrNoChange
return
}
count := 0
for count < limit || limit == -1 {
if m.stop() {
return
}
// apply first migration if from is nil version
if from == -1 {
firstVersion, err := m.sourceDrv.First()
if err != nil {
ret <- err
return
}
migr, err := m.newMigration(firstVersion, int(firstVersion))
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
from = int(firstVersion)
count++
continue
}
// apply next migration
next, err := m.sourceDrv.Next(suint(from))
if errors.Is(err, os.ErrNotExist) {
// no limit, but no migrations applied?
if limit == -1 && count == 0 {
ret <- ErrNoChange
return
}
// no limit, reached end
if limit == -1 {
return
}
// reached end, and didn't apply any migrations
if limit > 0 && count == 0 {
ret <- os.ErrNotExist
return
}
// applied less migrations than limit?
if count < limit {
ret <- ErrShortLimit{suint(limit - count)}
return
}
}
if err != nil {
ret <- err
return
}
migr, err := m.newMigration(next, int(next))
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
from = int(next)
count++
}
}
// readDown reads down migrations from `from` limitted by `limit`.
// limit can be -1, implying no limit and reading until there are no more migrations.
// Each migration is then written to the ret channel.
// If an error occurs during reading, that error is written to the ret channel, too.
// Once readDown is done reading it will close the ret channel.
func (m *Migrate) readDown(from int, limit int, ret chan<- interface{}) {
defer close(ret)
// check if from version exists
if from >= 0 {
if err := m.versionExists(suint(from)); err != nil {
ret <- err
return
}
}
if limit == 0 {
ret <- ErrNoChange
return
}
// no change if already at nil version
if from == -1 && limit == -1 {
ret <- ErrNoChange
return
}
// can't go over limit if already at nil version
if from == -1 && limit > 0 {
ret <- os.ErrNotExist
return
}
count := 0
for count < limit || limit == -1 {
if m.stop() {
return
}
prev, err := m.sourceDrv.Prev(suint(from))
if errors.Is(err, os.ErrNotExist) {
// no limit or haven't reached limit, apply "first" migration
if limit == -1 || limit-count > 0 {
firstVersion, err := m.sourceDrv.First()
if err != nil {
ret <- err
return
}
migr, err := m.newMigration(firstVersion, -1)
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
count++
}
if count < limit {
ret <- ErrShortLimit{suint(limit - count)}
}
return
}
if err != nil {
ret <- err
return
}
migr, err := m.newMigration(suint(from), int(prev))
if err != nil {
ret <- err
return
}
ret <- migr
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go func() {
if err := migr.Buffer(); err != nil {
m.logErr(err)
}
}()
from = int(prev)
count++
}
}
// runMigrations reads *Migration and error from a channel. Any other type
// sent on this channel will result in a panic. Each migration is then
// proxied to the database driver and run against the database.
// Before running a newly received migration it will check if it's supposed
// to stop execution because it might have received a stop signal on the
// GracefulStop channel.
func (m *Migrate) runMigrations(ret <-chan interface{}) error {
for r := range ret {
if m.stop() {
return nil
}
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switch r := r.(type) {
case error:
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return r
case *Migration:
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migr := r
// set version with dirty state
if err := m.databaseDrv.SetVersion(migr.TargetVersion, true); err != nil {
return err
}
if migr.Body != nil {
m.logVerbosePrintf("Read and execute %v\n", migr.LogString())
if err := m.databaseDrv.Run(migr.BufferedBody); err != nil {
return err
}
}
// set clean state
if err := m.databaseDrv.SetVersion(migr.TargetVersion, false); err != nil {
return err
}
endTime := time.Now()
readTime := migr.FinishedReading.Sub(migr.StartedBuffering)
runTime := endTime.Sub(migr.FinishedReading)
// log either verbose or normal
if m.Log != nil {
if m.Log.Verbose() {
m.logPrintf("Finished %v (read %v, ran %v)\n", migr.LogString(), readTime, runTime)
} else {
m.logPrintf("%v (%v)\n", migr.LogString(), readTime+runTime)
}
}
default:
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return fmt.Errorf("unknown type: %T with value: %+v", r, r)
}
}
return nil
}
// versionExists checks the source if either the up or down migration for
// the specified migration version exists.
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func (m *Migrate) versionExists(version uint) (result error) {
// try up migration first
up, _, err := m.sourceDrv.ReadUp(version)
if err == nil {
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defer func() {
if errClose := up.Close(); errClose != nil {
result = multierror.Append(result, errClose)
}
}()
}
if errors.Is(err, os.ErrExist) {
return nil
} else if !errors.Is(err, os.ErrNotExist) {
return err
}
// then try down migration
down, _, err := m.sourceDrv.ReadDown(version)
if err == nil {
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defer func() {
if errClose := down.Close(); errClose != nil {
result = multierror.Append(result, errClose)
}
}()
}
if errors.Is(err, os.ErrExist) {
return nil
} else if !errors.Is(err, os.ErrNotExist) {
return err
}
err = fmt.Errorf("no migration found for version %d: %w", version, err)
m.logErr(err)
return err
}
// stop returns true if no more migrations should be run against the database
// because a stop signal was received on the GracefulStop channel.
// Calls are cheap and this function is not blocking.
func (m *Migrate) stop() bool {
if m.isGracefulStop {
return true
}
select {
case <-m.GracefulStop:
m.isGracefulStop = true
return true
default:
return false
}
}
// newMigration is a helper func that returns a *Migration for the
// specified version and targetVersion.
func (m *Migrate) newMigration(version uint, targetVersion int) (*Migration, error) {
var migr *Migration
if targetVersion >= int(version) {
r, identifier, err := m.sourceDrv.ReadUp(version)
if errors.Is(err, os.ErrNotExist) {
// create "empty" migration
migr, err = NewMigration(nil, "", version, targetVersion)
if err != nil {
return nil, err
}
} else if err != nil {
return nil, err
} else {
// create migration from up source
migr, err = NewMigration(r, identifier, version, targetVersion)
if err != nil {
return nil, err
}
}
} else {
r, identifier, err := m.sourceDrv.ReadDown(version)
if errors.Is(err, os.ErrNotExist) {
// create "empty" migration
migr, err = NewMigration(nil, "", version, targetVersion)
if err != nil {
return nil, err
}
} else if err != nil {
return nil, err
} else {
// create migration from down source
migr, err = NewMigration(r, identifier, version, targetVersion)
if err != nil {
return nil, err
}
}
}
if m.PrefetchMigrations > 0 && migr.Body != nil {
m.logVerbosePrintf("Start buffering %v\n", migr.LogString())
} else {
m.logVerbosePrintf("Scheduled %v\n", migr.LogString())
}
return migr, nil
}
// lock is a thread safe helper function to lock the database.
// It should be called as late as possible when running migrations.
func (m *Migrate) lock() error {
m.isLockedMu.Lock()
defer m.isLockedMu.Unlock()
if m.isLocked {
return ErrLocked
}
// create done channel, used in the timeout goroutine
done := make(chan bool, 1)
defer func() {
done <- true
}()
// use errchan to signal error back to this context
errchan := make(chan error, 2)
// start timeout goroutine
timeout := time.After(m.LockTimeout)
go func() {
for {
select {
case <-done:
return
case <-timeout:
errchan <- ErrLockTimeout
return
}
}
}()
// now try to acquire the lock
go func() {
if err := m.databaseDrv.Lock(); err != nil {
errchan <- err
} else {
errchan <- nil
}
}()
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// wait until we either receive ErrLockTimeout or error from Lock operation
err := <-errchan
if err == nil {
m.isLocked = true
}
return err
}
// unlock is a thread safe helper function to unlock the database.
// It should be called as early as possible when no more migrations are
// expected to be executed.
func (m *Migrate) unlock() error {
m.isLockedMu.Lock()
defer m.isLockedMu.Unlock()
if err := m.databaseDrv.Unlock(); err != nil {
// BUG: Can potentially create a deadlock. Add a timeout.
return err
}
m.isLocked = false
return nil
}
// unlockErr calls unlock and returns a combined error
// if a prevErr is not nil.
func (m *Migrate) unlockErr(prevErr error) error {
if err := m.unlock(); err != nil {
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return multierror.Append(prevErr, err)
}
return prevErr
}
// logPrintf writes to m.Log if not nil
func (m *Migrate) logPrintf(format string, v ...interface{}) {
if m.Log != nil {
m.Log.Printf(format, v...)
}
}
// logVerbosePrintf writes to m.Log if not nil. Use for verbose logging output.
func (m *Migrate) logVerbosePrintf(format string, v ...interface{}) {
if m.Log != nil && m.Log.Verbose() {
m.Log.Printf(format, v...)
}
}
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// logErr writes error to m.Log if not nil
func (m *Migrate) logErr(err error) {
if m.Log != nil {
m.Log.Printf("error: %v", err)
}
}