v1.5.7/internal/states/statemgr/migrate.go - terraform - Git at Google

 // Copyright (c) HashiCorp, Inc.
 // SPDX-License-Identifier: MPL-2.0

 package statemgr

 import (
 	"fmt"

 	"github.com/hashicorp/terraform/internal/states/statefile"
 )

 // Migrator is an optional interface implemented by state managers that
 // are capable of direct migration of state snapshots with their associated
 // metadata unchanged.
 //
 // This interface is used when available by function Migrate. See that
 // function for more information on how it is used.
 type Migrator interface {
 	PersistentMeta

 	// StateForMigration returns a full statefile representing the latest
 	// snapshot (as would be returned by Reader.State) and the associated
 	// snapshot metadata (as would be returned by
 	// PersistentMeta.StateSnapshotMeta).
 	//
 	// Just as with Reader.State, this must not fail.
 	StateForMigration() *statefile.File

 	// WriteStateForMigration accepts a full statefile including associated
 	// snapshot metadata, and atomically updates the stored file (as with
 	// Writer.WriteState) and the metadata.
 	//
 	// If "force" is not set, the manager must call CheckValidImport with
 	// the given file and the current file and complete the update only if
 	// that function returns nil. If force is set this may override such
 	// checks, but some backends do not support forcing and so will act
 	// as if force is always false.
 	WriteStateForMigration(f *statefile.File, force bool) error
 }

 // Migrate writes the latest transient state snapshot from src into dest,
 // preserving snapshot metadata (serial and lineage) where possible.
 //
 // If both managers implement the optional interface Migrator then it will
 // be used to copy the snapshot and its associated metadata. Otherwise,
 // the normal Reader and Writer interfaces will be used instead.
 //
 // If the destination manager refuses the new state or fails to write it then
 // its error is returned directly.
 //
 // For state managers that also implement Persistent, it is the caller's
 // responsibility to persist the newly-written state after a successful result,
 // just as with calls to Writer.WriteState.
 //
 // This function doesn't do any locking of its own, so if the state managers
 // also implement Locker the caller should hold a lock on both managers
 // for the duration of this call.
 func Migrate(dst, src Transient) error {
 	if dstM, ok := dst.(Migrator); ok {
 		if srcM, ok := src.(Migrator); ok {
 			// Full-fidelity migration, them.
 			s := srcM.StateForMigration()
 			return dstM.WriteStateForMigration(s, true)
 		}
 	}

 	// Managers to not support full-fidelity migration, so migration will not
 	// preserve serial/lineage.
 	s := src.State()
 	return dst.WriteState(s)
 }

 // Import loads the given state snapshot into the given manager, preserving
 // its metadata (serial and lineage) if the target manager supports metadata.
 //
 // A state manager must implement the optional interface Migrator to get
 // access to the full metadata.
 //
 // Unless "force" is true, Import will check first that the metadata given
 // in the file matches the current snapshot metadata for the manager, if the
 // manager supports metadata. Some managers do not support forcing, so a
 // write with an unsuitable lineage or serial may still be rejected even if
 // "force" is set. "force" has no effect for managers that do not support
 // snapshot metadata.
 //
 // For state managers that also implement Persistent, it is the caller's
 // responsibility to persist the newly-written state after a successful result,
 // just as with calls to Writer.WriteState.
 //
 // This function doesn't do any locking of its own, so if the state manager
 // also implements Locker the caller should hold a lock on it for the
 // duration of this call.
 func Import(f *statefile.File, mgr Transient, force bool) error {
 	if mgrM, ok := mgr.(Migrator); ok {
 		return mgrM.WriteStateForMigration(f, force)
 	}

 	// For managers that don't implement Migrator, this is just a normal write
 	// of the state contained in the given file.
 	return mgr.WriteState(f.State)
 }

 // Export retrieves the latest state snapshot from the given manager, including
 // its metadata (serial and lineage) where possible.
 //
 // A state manager must also implement either Migrator or PersistentMeta
 // for the metadata to be included. Otherwise, the relevant fields will have
 // zero value in the returned object.
 //
 // For state managers that also implement Persistent, it is the caller's
 // responsibility to refresh from persistent storage first if needed.
 //
 // This function doesn't do any locking of its own, so if the state manager
 // also implements Locker the caller should hold a lock on it for the
 // duration of this call.
 func Export(mgr Reader) *statefile.File {
 	switch mgrT := mgr.(type) {
 	case Migrator:
 		return mgrT.StateForMigration()
 	case PersistentMeta:
 		s := mgr.State()
 		meta := mgrT.StateSnapshotMeta()
 		return statefile.New(s, meta.Lineage, meta.Serial)
 	default:
 		s := mgr.State()
 		return statefile.New(s, "", 0)
 	}
 }

 // SnapshotMetaRel describes a relationship between two SnapshotMeta values,
 // returned from the SnapshotMeta.Compare method where the "first" value
 // is the receiver of that method and the "second" is the given argument.
 type SnapshotMetaRel rune

 //go:generate go run golang.org/x/tools/cmd/stringer -type=SnapshotMetaRel

 const (
 	// SnapshotOlder indicates that two snapshots have a common lineage and
 	// that the first has a lower serial value.
 	SnapshotOlder SnapshotMetaRel = '<'

 	// SnapshotNewer indicates that two snapshots have a common lineage and
 	// that the first has a higher serial value.
 	SnapshotNewer SnapshotMetaRel = '>'

 	// SnapshotEqual indicates that two snapshots have a common lineage and
 	// the same serial value.
 	SnapshotEqual SnapshotMetaRel = '='

 	// SnapshotUnrelated indicates that two snapshots have different lineage
 	// and thus cannot be meaningfully compared.
 	SnapshotUnrelated SnapshotMetaRel = '!'

 	// SnapshotLegacy indicates that one or both of the snapshots
 	// does not have a lineage at all, and thus no comparison is possible.
 	SnapshotLegacy SnapshotMetaRel = '?'
 )

 // Compare determines the relationship, if any, between the given existing
 // SnapshotMeta and the potential "new" SnapshotMeta that is the receiver.
 func (m SnapshotMeta) Compare(existing SnapshotMeta) SnapshotMetaRel {
 	switch {
 	case m.Lineage == "" || existing.Lineage == "":
 		return SnapshotLegacy
 	case m.Lineage != existing.Lineage:
 		return SnapshotUnrelated
 	case m.Serial > existing.Serial:
 		return SnapshotNewer
 	case m.Serial < existing.Serial:
 		return SnapshotOlder
 	default:
 		// both serials are equal, by elimination
 		return SnapshotEqual
 	}
 }

 // CheckValidImport returns nil if the "new" snapshot can be imported as a
 // successor of the "existing" snapshot without forcing.
 //
 // If not, an error is returned describing why.
 func CheckValidImport(newFile, existingFile *statefile.File) error {
 	if existingFile == nil || existingFile.State.Empty() {
 		// It's always okay to overwrite an empty state, regardless of
 		// its lineage/serial.
 		return nil
 	}
 	new := SnapshotMeta{
 		Lineage: newFile.Lineage,
 		Serial:  newFile.Serial,
 	}
 	existing := SnapshotMeta{
 		Lineage: existingFile.Lineage,
 		Serial:  existingFile.Serial,
 	}
 	rel := new.Compare(existing)
 	switch rel {
 	case SnapshotNewer:
 		return nil // a newer snapshot is fine
 	case SnapshotLegacy:
 		return nil // anything goes for a legacy state
 	case SnapshotUnrelated:
 		return fmt.Errorf("cannot import state with lineage %q over unrelated state with lineage %q", new.Lineage, existing.Lineage)
 	case SnapshotEqual:
 		if statefile.StatesMarshalEqual(newFile.State, existingFile.State) {
 			// If lineage, serial, and state all match then this is fine.
 			return nil
 		}
 		return fmt.Errorf("cannot overwrite existing state with serial %d with a different state that has the same serial", new.Serial)
 	case SnapshotOlder:
 		return fmt.Errorf("cannot import state with serial %d over newer state with serial %d", new.Serial, existing.Serial)
 	default:
 		// Should never happen, but we'll check to make sure for safety
 		return fmt.Errorf("unsupported state snapshot relationship %s", rel)
 	}
 }
	// Copyright (c) HashiCorp, Inc.
	// SPDX-License-Identifier: MPL-2.0

	package statemgr

	import (
	"fmt"

	"github.com/hashicorp/terraform/internal/states/statefile"
	)

	// Migrator is an optional interface implemented by state managers that
	// are capable of direct migration of state snapshots with their associated
	// metadata unchanged.
	//
	// This interface is used when available by function Migrate. See that
	// function for more information on how it is used.
	type Migrator interface {
	PersistentMeta

	// StateForMigration returns a full statefile representing the latest
	// snapshot (as would be returned by Reader.State) and the associated
	// snapshot metadata (as would be returned by
	// PersistentMeta.StateSnapshotMeta).
	//
	// Just as with Reader.State, this must not fail.
	StateForMigration() *statefile.File

	// WriteStateForMigration accepts a full statefile including associated
	// snapshot metadata, and atomically updates the stored file (as with
	// Writer.WriteState) and the metadata.
	//
	// If "force" is not set, the manager must call CheckValidImport with
	// the given file and the current file and complete the update only if
	// that function returns nil. If force is set this may override such
	// checks, but some backends do not support forcing and so will act
	// as if force is always false.
	WriteStateForMigration(f *statefile.File, force bool) error
	}

	// Migrate writes the latest transient state snapshot from src into dest,
	// preserving snapshot metadata (serial and lineage) where possible.
	//
	// If both managers implement the optional interface Migrator then it will
	// be used to copy the snapshot and its associated metadata. Otherwise,
	// the normal Reader and Writer interfaces will be used instead.
	//
	// If the destination manager refuses the new state or fails to write it then
	// its error is returned directly.
	//
	// For state managers that also implement Persistent, it is the caller's
	// responsibility to persist the newly-written state after a successful result,
	// just as with calls to Writer.WriteState.
	//
	// This function doesn't do any locking of its own, so if the state managers
	// also implement Locker the caller should hold a lock on both managers
	// for the duration of this call.
	func Migrate(dst, src Transient) error {
	if dstM, ok := dst.(Migrator); ok {
	if srcM, ok := src.(Migrator); ok {
	// Full-fidelity migration, them.
	s := srcM.StateForMigration()
	return dstM.WriteStateForMigration(s, true)
	}
	}

	// Managers to not support full-fidelity migration, so migration will not
	// preserve serial/lineage.
	s := src.State()
	return dst.WriteState(s)
	}

	// Import loads the given state snapshot into the given manager, preserving
	// its metadata (serial and lineage) if the target manager supports metadata.
	//
	// A state manager must implement the optional interface Migrator to get
	// access to the full metadata.
	//
	// Unless "force" is true, Import will check first that the metadata given
	// in the file matches the current snapshot metadata for the manager, if the
	// manager supports metadata. Some managers do not support forcing, so a
	// write with an unsuitable lineage or serial may still be rejected even if
	// "force" is set. "force" has no effect for managers that do not support
	// snapshot metadata.
	//
	// For state managers that also implement Persistent, it is the caller's
	// responsibility to persist the newly-written state after a successful result,
	// just as with calls to Writer.WriteState.
	//
	// This function doesn't do any locking of its own, so if the state manager
	// also implements Locker the caller should hold a lock on it for the
	// duration of this call.
	func Import(f *statefile.File, mgr Transient, force bool) error {
	if mgrM, ok := mgr.(Migrator); ok {
	return mgrM.WriteStateForMigration(f, force)
	}

	// For managers that don't implement Migrator, this is just a normal write
	// of the state contained in the given file.
	return mgr.WriteState(f.State)
	}

	// Export retrieves the latest state snapshot from the given manager, including
	// its metadata (serial and lineage) where possible.
	//
	// A state manager must also implement either Migrator or PersistentMeta
	// for the metadata to be included. Otherwise, the relevant fields will have
	// zero value in the returned object.
	//
	// For state managers that also implement Persistent, it is the caller's
	// responsibility to refresh from persistent storage first if needed.
	//
	// This function doesn't do any locking of its own, so if the state manager
	// also implements Locker the caller should hold a lock on it for the
	// duration of this call.
	func Export(mgr Reader) *statefile.File {
	switch mgrT := mgr.(type) {
	case Migrator:
	return mgrT.StateForMigration()
	case PersistentMeta:
	s := mgr.State()
	meta := mgrT.StateSnapshotMeta()
	return statefile.New(s, meta.Lineage, meta.Serial)
	default:
	s := mgr.State()
	return statefile.New(s, "", 0)
	}
	}

	// SnapshotMetaRel describes a relationship between two SnapshotMeta values,
	// returned from the SnapshotMeta.Compare method where the "first" value
	// is the receiver of that method and the "second" is the given argument.
	type SnapshotMetaRel rune

	//go:generate go run golang.org/x/tools/cmd/stringer -type=SnapshotMetaRel

	const (
	// SnapshotOlder indicates that two snapshots have a common lineage and
	// that the first has a lower serial value.
	SnapshotOlder SnapshotMetaRel = '<'

	// SnapshotNewer indicates that two snapshots have a common lineage and
	// that the first has a higher serial value.
	SnapshotNewer SnapshotMetaRel = '>'

	// SnapshotEqual indicates that two snapshots have a common lineage and
	// the same serial value.
	SnapshotEqual SnapshotMetaRel = '='

	// SnapshotUnrelated indicates that two snapshots have different lineage
	// and thus cannot be meaningfully compared.
	SnapshotUnrelated SnapshotMetaRel = '!'

	// SnapshotLegacy indicates that one or both of the snapshots
	// does not have a lineage at all, and thus no comparison is possible.
	SnapshotLegacy SnapshotMetaRel = '?'
	)

	// Compare determines the relationship, if any, between the given existing
	// SnapshotMeta and the potential "new" SnapshotMeta that is the receiver.
	func (m SnapshotMeta) Compare(existing SnapshotMeta) SnapshotMetaRel {
	switch {
	case m.Lineage == "" \|\| existing.Lineage == "":
	return SnapshotLegacy
	case m.Lineage != existing.Lineage:
	return SnapshotUnrelated
	case m.Serial > existing.Serial:
	return SnapshotNewer
	case m.Serial < existing.Serial:
	return SnapshotOlder
	default:
	// both serials are equal, by elimination
	return SnapshotEqual
	}
	}

	// CheckValidImport returns nil if the "new" snapshot can be imported as a
	// successor of the "existing" snapshot without forcing.
	//
	// If not, an error is returned describing why.
	func CheckValidImport(newFile, existingFile *statefile.File) error {
	if existingFile == nil \|\| existingFile.State.Empty() {
	// It's always okay to overwrite an empty state, regardless of
	// its lineage/serial.
	return nil
	}
	new := SnapshotMeta{
	Lineage: newFile.Lineage,
	Serial: newFile.Serial,
	}
	existing := SnapshotMeta{
	Lineage: existingFile.Lineage,
	Serial: existingFile.Serial,
	}
	rel := new.Compare(existing)
	switch rel {
	case SnapshotNewer:
	return nil // a newer snapshot is fine
	case SnapshotLegacy:
	return nil // anything goes for a legacy state
	case SnapshotUnrelated:
	return fmt.Errorf("cannot import state with lineage %q over unrelated state with lineage %q", new.Lineage, existing.Lineage)
	case SnapshotEqual:
	if statefile.StatesMarshalEqual(newFile.State, existingFile.State) {
	// If lineage, serial, and state all match then this is fine.
	return nil
	}
	return fmt.Errorf("cannot overwrite existing state with serial %d with a different state that has the same serial", new.Serial)
	case SnapshotOlder:
	return fmt.Errorf("cannot import state with serial %d over newer state with serial %d", new.Serial, existing.Serial)
	default:
	// Should never happen, but we'll check to make sure for safety
	return fmt.Errorf("unsupported state snapshot relationship %s", rel)
	}
	}