v1.5.7/internal/legacy/helper/schema/resource_diff.go - terraform - Git at Google

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

 package schema

 import (
 	"errors"
 	"fmt"
 	"reflect"
 	"strings"
 	"sync"

 	"github.com/hashicorp/terraform/internal/legacy/terraform"
 )

 // newValueWriter is a minor re-implementation of MapFieldWriter to include
 // keys that should be marked as computed, to represent the new part of a
 // pseudo-diff.
 type newValueWriter struct {
 	*MapFieldWriter

 	// A list of keys that should be marked as computed.
 	computedKeys map[string]bool

 	// A lock to prevent races on writes. The underlying writer will have one as
 	// well - this is for computed keys.
 	lock sync.Mutex

 	// To be used with init.
 	once sync.Once
 }

 // init performs any initialization tasks for the newValueWriter.
 func (w *newValueWriter) init() {
 	if w.computedKeys == nil {
 		w.computedKeys = make(map[string]bool)
 	}
 }

 // WriteField overrides MapValueWriter's WriteField, adding the ability to flag
 // the address as computed.
 func (w *newValueWriter) WriteField(address []string, value interface{}, computed bool) error {
 	// Fail the write if we have a non-nil value and computed is true.
 	// NewComputed values should not have a value when written.
 	if value != nil && computed {
 		return errors.New("Non-nil value with computed set")
 	}

 	if err := w.MapFieldWriter.WriteField(address, value); err != nil {
 		return err
 	}

 	w.once.Do(w.init)

 	w.lock.Lock()
 	defer w.lock.Unlock()
 	if computed {
 		w.computedKeys[strings.Join(address, ".")] = true
 	}
 	return nil
 }

 // ComputedKeysMap returns the underlying computed keys map.
 func (w *newValueWriter) ComputedKeysMap() map[string]bool {
 	w.once.Do(w.init)
 	return w.computedKeys
 }

 // newValueReader is a minor re-implementation of MapFieldReader and is the
 // read counterpart to MapValueWriter, allowing the read of keys flagged as
 // computed to accommodate the diff override logic in ResourceDiff.
 type newValueReader struct {
 	*MapFieldReader

 	// The list of computed keys from a newValueWriter.
 	computedKeys map[string]bool
 }

 // ReadField reads the values from the underlying writer, returning the
 // computed value if it is found as well.
 func (r *newValueReader) ReadField(address []string) (FieldReadResult, error) {
 	addrKey := strings.Join(address, ".")
 	v, err := r.MapFieldReader.ReadField(address)
 	if err != nil {
 		return FieldReadResult{}, err
 	}
 	for computedKey := range r.computedKeys {
 		if childAddrOf(addrKey, computedKey) {
 			if strings.HasSuffix(addrKey, ".#") {
 				// This is a count value for a list or set that has been marked as
 				// computed, or a sub-list/sub-set of a complex resource that has
 				// been marked as computed.  We need to pass through to other readers
 				// so that an accurate previous count can be fetched for the diff.
 				v.Exists = false
 			}
 			v.Computed = true
 		}
 	}

 	return v, nil
 }

 // ResourceDiff is used to query and make custom changes to an in-flight diff.
 // It can be used to veto particular changes in the diff, customize the diff
 // that has been created, or diff values not controlled by config.
 //
 // The object functions similar to ResourceData, however most notably lacks
 // Set, SetPartial, and Partial, as it should be used to change diff values
 // only.  Most other first-class ResourceData functions exist, namely Get,
 // GetOk, HasChange, and GetChange exist.
 //
 // All functions in ResourceDiff, save for ForceNew, can only be used on
 // computed fields.
 type ResourceDiff struct {
 	// The schema for the resource being worked on.
 	schema map[string]*Schema

 	// The current config for this resource.
 	config *terraform.ResourceConfig

 	// The state for this resource as it exists post-refresh, after the initial
 	// diff.
 	state *terraform.InstanceState

 	// The diff created by Terraform. This diff is used, along with state,
 	// config, and custom-set diff data, to provide a multi-level reader
 	// experience similar to ResourceData.
 	diff *terraform.InstanceDiff

 	// The internal reader structure that contains the state, config, the default
 	// diff, and the new diff.
 	multiReader *MultiLevelFieldReader

 	// A writer that writes overridden new fields.
 	newWriter *newValueWriter

 	// Tracks which keys have been updated by ResourceDiff to ensure that the
 	// diff does not get re-run on keys that were not touched, or diffs that were
 	// just removed (re-running on the latter would just roll back the removal).
 	updatedKeys map[string]bool

 	// Tracks which keys were flagged as forceNew. These keys are not saved in
 	// newWriter, but we need to track them so that they can be re-diffed later.
 	forcedNewKeys map[string]bool
 }

 // newResourceDiff creates a new ResourceDiff instance.
 func newResourceDiff(schema map[string]*Schema, config *terraform.ResourceConfig, state *terraform.InstanceState, diff *terraform.InstanceDiff) *ResourceDiff {
 	d := &ResourceDiff{
 		config: config,
 		state:  state,
 		diff:   diff,
 		schema: schema,
 	}

 	d.newWriter = &newValueWriter{
 		MapFieldWriter: &MapFieldWriter{Schema: d.schema},
 	}
 	readers := make(map[string]FieldReader)
 	var stateAttributes map[string]string
 	if d.state != nil {
 		stateAttributes = d.state.Attributes
 		readers["state"] = &MapFieldReader{
 			Schema: d.schema,
 			Map:    BasicMapReader(stateAttributes),
 		}
 	}
 	if d.config != nil {
 		readers["config"] = &ConfigFieldReader{
 			Schema: d.schema,
 			Config: d.config,
 		}
 	}
 	if d.diff != nil {
 		readers["diff"] = &DiffFieldReader{
 			Schema: d.schema,
 			Diff:   d.diff,
 			Source: &MultiLevelFieldReader{
 				Levels:  []string{"state", "config"},
 				Readers: readers,
 			},
 		}
 	}
 	readers["newDiff"] = &newValueReader{
 		MapFieldReader: &MapFieldReader{
 			Schema: d.schema,
 			Map:    BasicMapReader(d.newWriter.Map()),
 		},
 		computedKeys: d.newWriter.ComputedKeysMap(),
 	}
 	d.multiReader = &MultiLevelFieldReader{
 		Levels: []string{
 			"state",
 			"config",
 			"diff",
 			"newDiff",
 		},

 		Readers: readers,
 	}

 	d.updatedKeys = make(map[string]bool)
 	d.forcedNewKeys = make(map[string]bool)

 	return d
 }

 // UpdatedKeys returns the keys that were updated by this ResourceDiff run.
 // These are the only keys that a diff should be re-calculated for.
 //
 // This is the combined result of both keys for which diff values were updated
 // for or cleared, and also keys that were flagged to be re-diffed as a result
 // of ForceNew.
 func (d *ResourceDiff) UpdatedKeys() []string {
 	var s []string
 	for k := range d.updatedKeys {
 		s = append(s, k)
 	}
 	for k := range d.forcedNewKeys {
 		for _, l := range s {
 			if k == l {
 				break
 			}
 		}
 		s = append(s, k)
 	}
 	return s
 }

 // Clear wipes the diff for a particular key. It is called by ResourceDiff's
 // functionality to remove any possibility of conflicts, but can be called on
 // its own to just remove a specific key from the diff completely.
 //
 // Note that this does not wipe an override. This function is only allowed on
 // computed keys.
 func (d *ResourceDiff) Clear(key string) error {
 	if err := d.checkKey(key, "Clear", true); err != nil {
 		return err
 	}

 	return d.clear(key)
 }

 func (d *ResourceDiff) clear(key string) error {
 	// Check the schema to make sure that this key exists first.
 	schemaL := addrToSchema(strings.Split(key, "."), d.schema)
 	if len(schemaL) == 0 {
 		return fmt.Errorf("%s is not a valid key", key)
 	}

 	for k := range d.diff.Attributes {
 		if strings.HasPrefix(k, key) {
 			delete(d.diff.Attributes, k)
 		}
 	}
 	return nil
 }

 // GetChangedKeysPrefix helps to implement Resource.CustomizeDiff
 // where we need to act on all nested fields
 // without calling out each one separately
 func (d *ResourceDiff) GetChangedKeysPrefix(prefix string) []string {
 	keys := make([]string, 0)
 	for k := range d.diff.Attributes {
 		if strings.HasPrefix(k, prefix) {
 			keys = append(keys, k)
 		}
 	}
 	return keys
 }

 // diffChange helps to implement resourceDiffer and derives its change values
 // from ResourceDiff's own change data, in addition to existing diff, config, and state.
 func (d *ResourceDiff) diffChange(key string) (interface{}, interface{}, bool, bool, bool) {
 	old, new, customized := d.getChange(key)

 	if !old.Exists {
 		old.Value = nil
 	}
 	if !new.Exists || d.removed(key) {
 		new.Value = nil
 	}

 	return old.Value, new.Value, !reflect.DeepEqual(old.Value, new.Value), new.Computed, customized
 }

 // SetNew is used to set a new diff value for the mentioned key. The value must
 // be correct for the attribute's schema (mostly relevant for maps, lists, and
 // sets). The original value from the state is used as the old value.
 //
 // This function is only allowed on computed attributes.
 func (d *ResourceDiff) SetNew(key string, value interface{}) error {
 	if err := d.checkKey(key, "SetNew", false); err != nil {
 		return err
 	}

 	return d.setDiff(key, value, false)
 }

 // SetNewComputed functions like SetNew, except that it blanks out a new value
 // and marks it as computed.
 //
 // This function is only allowed on computed attributes.
 func (d *ResourceDiff) SetNewComputed(key string) error {
 	if err := d.checkKey(key, "SetNewComputed", false); err != nil {
 		return err
 	}

 	return d.setDiff(key, nil, true)
 }

 // setDiff performs common diff setting behaviour.
 func (d *ResourceDiff) setDiff(key string, new interface{}, computed bool) error {
 	if err := d.clear(key); err != nil {
 		return err
 	}

 	if err := d.newWriter.WriteField(strings.Split(key, "."), new, computed); err != nil {
 		return fmt.Errorf("Cannot set new diff value for key %s: %s", key, err)
 	}

 	d.updatedKeys[key] = true

 	return nil
 }

 // ForceNew force-flags ForceNew in the schema for a specific key, and
 // re-calculates its diff, effectively causing this attribute to force a new
 // resource.
 //
 // Keep in mind that forcing a new resource will force a second run of the
 // resource's CustomizeDiff function (with a new ResourceDiff) once the current
 // one has completed. This second run is performed without state. This behavior
 // will be the same as if a new resource is being created and is performed to
 // ensure that the diff looks like the diff for a new resource as much as
 // possible. CustomizeDiff should expect such a scenario and act correctly.
 //
 // This function is a no-op/error if there is no diff.
 //
 // Note that the change to schema is permanent for the lifecycle of this
 // specific ResourceDiff instance.
 func (d *ResourceDiff) ForceNew(key string) error {
 	if !d.HasChange(key) {
 		return fmt.Errorf("ForceNew: No changes for %s", key)
 	}

 	keyParts := strings.Split(key, ".")
 	var schema *Schema
 	schemaL := addrToSchema(keyParts, d.schema)
 	if len(schemaL) > 0 {
 		schema = schemaL[len(schemaL)-1]
 	} else {
 		return fmt.Errorf("ForceNew: %s is not a valid key", key)
 	}

 	schema.ForceNew = true

 	// Flag this for a re-diff. Don't save any values to guarantee that existing
 	// diffs aren't messed with, as this gets messy when dealing with complex
 	// structures, zero values, etc.
 	d.forcedNewKeys[keyParts[0]] = true

 	return nil
 }

 // Get hands off to ResourceData.Get.
 func (d *ResourceDiff) Get(key string) interface{} {
 	r, _ := d.GetOk(key)
 	return r
 }

 // GetChange gets the change between the state and diff, checking first to see
 // if an overridden diff exists.
 //
 // This implementation differs from ResourceData's in the way that we first get
 // results from the exact levels for the new diff, then from state and diff as
 // per normal.
 func (d *ResourceDiff) GetChange(key string) (interface{}, interface{}) {
 	old, new, _ := d.getChange(key)
 	return old.Value, new.Value
 }

 // GetOk functions the same way as ResourceData.GetOk, but it also checks the
 // new diff levels to provide data consistent with the current state of the
 // customized diff.
 func (d *ResourceDiff) GetOk(key string) (interface{}, bool) {
 	r := d.get(strings.Split(key, "."), "newDiff")
 	exists := r.Exists && !r.Computed
 	if exists {
 		// If it exists, we also want to verify it is not the zero-value.
 		value := r.Value
 		zero := r.Schema.Type.Zero()

 		if eq, ok := value.(Equal); ok {
 			exists = !eq.Equal(zero)
 		} else {
 			exists = !reflect.DeepEqual(value, zero)
 		}
 	}

 	return r.Value, exists
 }

 // GetOkExists functions the same way as GetOkExists within ResourceData, but
 // it also checks the new diff levels to provide data consistent with the
 // current state of the customized diff.
 //
 // This is nearly the same function as GetOk, yet it does not check
 // for the zero value of the attribute's type. This allows for attributes
 // without a default, to fully check for a literal assignment, regardless
 // of the zero-value for that type.
 func (d *ResourceDiff) GetOkExists(key string) (interface{}, bool) {
 	r := d.get(strings.Split(key, "."), "newDiff")
 	exists := r.Exists && !r.Computed
 	return r.Value, exists
 }

 // NewValueKnown returns true if the new value for the given key is available
 // as its final value at diff time. If the return value is false, this means
 // either the value is based of interpolation that was unavailable at diff
 // time, or that the value was explicitly marked as computed by SetNewComputed.
 func (d *ResourceDiff) NewValueKnown(key string) bool {
 	r := d.get(strings.Split(key, "."), "newDiff")
 	return !r.Computed
 }

 // HasChange checks to see if there is a change between state and the diff, or
 // in the overridden diff.
 func (d *ResourceDiff) HasChange(key string) bool {
 	old, new := d.GetChange(key)

 	// If the type implements the Equal interface, then call that
 	// instead of just doing a reflect.DeepEqual. An example where this is
 	// needed is *Set
 	if eq, ok := old.(Equal); ok {
 		return !eq.Equal(new)
 	}

 	return !reflect.DeepEqual(old, new)
 }

 // Id returns the ID of this resource.
 //
 // Note that technically, ID does not change during diffs (it either has
 // already changed in the refresh, or will change on update), hence we do not
 // support updating the ID or fetching it from anything else other than state.
 func (d *ResourceDiff) Id() string {
 	var result string

 	if d.state != nil {
 		result = d.state.ID
 	}
 	return result
 }

 // getChange gets values from two different levels, designed for use in
 // diffChange, HasChange, and GetChange.
 //
 // This implementation differs from ResourceData's in the way that we first get
 // results from the exact levels for the new diff, then from state and diff as
 // per normal.
 func (d *ResourceDiff) getChange(key string) (getResult, getResult, bool) {
 	old := d.get(strings.Split(key, "."), "state")
 	var new getResult
 	for p := range d.updatedKeys {
 		if childAddrOf(key, p) {
 			new = d.getExact(strings.Split(key, "."), "newDiff")
 			return old, new, true
 		}
 	}
 	new = d.get(strings.Split(key, "."), "newDiff")
 	return old, new, false
 }

 // removed checks to see if the key is present in the existing, pre-customized
 // diff and if it was marked as NewRemoved.
 func (d *ResourceDiff) removed(k string) bool {
 	diff, ok := d.diff.Attributes[k]
 	if !ok {
 		return false
 	}
 	return diff.NewRemoved
 }

 // get performs the appropriate multi-level reader logic for ResourceDiff,
 // starting at source. Refer to newResourceDiff for the level order.
 func (d *ResourceDiff) get(addr []string, source string) getResult {
 	result, err := d.multiReader.ReadFieldMerge(addr, source)
 	if err != nil {
 		panic(err)
 	}

 	return d.finalizeResult(addr, result)
 }

 // getExact gets an attribute from the exact level referenced by source.
 func (d *ResourceDiff) getExact(addr []string, source string) getResult {
 	result, err := d.multiReader.ReadFieldExact(addr, source)
 	if err != nil {
 		panic(err)
 	}

 	return d.finalizeResult(addr, result)
 }

 // finalizeResult does some post-processing of the result produced by get and getExact.
 func (d *ResourceDiff) finalizeResult(addr []string, result FieldReadResult) getResult {
 	// If the result doesn't exist, then we set the value to the zero value
 	var schema *Schema
 	if schemaL := addrToSchema(addr, d.schema); len(schemaL) > 0 {
 		schema = schemaL[len(schemaL)-1]
 	}

 	if result.Value == nil && schema != nil {
 		result.Value = result.ValueOrZero(schema)
 	}

 	// Transform the FieldReadResult into a getResult. It might be worth
 	// merging these two structures one day.
 	return getResult{
 		Value:          result.Value,
 		ValueProcessed: result.ValueProcessed,
 		Computed:       result.Computed,
 		Exists:         result.Exists,
 		Schema:         schema,
 	}
 }

 // childAddrOf does a comparison of two addresses to see if one is the child of
 // the other.
 func childAddrOf(child, parent string) bool {
 	cs := strings.Split(child, ".")
 	ps := strings.Split(parent, ".")
 	if len(ps) > len(cs) {
 		return false
 	}
 	return reflect.DeepEqual(ps, cs[:len(ps)])
 }

 // checkKey checks the key to make sure it exists and is computed.
 func (d *ResourceDiff) checkKey(key, caller string, nested bool) error {
 	var schema *Schema
 	if nested {
 		keyParts := strings.Split(key, ".")
 		schemaL := addrToSchema(keyParts, d.schema)
 		if len(schemaL) > 0 {
 			schema = schemaL[len(schemaL)-1]
 		}
 	} else {
 		s, ok := d.schema[key]
 		if ok {
 			schema = s
 		}
 	}
 	if schema == nil {
 		return fmt.Errorf("%s: invalid key: %s", caller, key)
 	}
 	if !schema.Computed {
 		return fmt.Errorf("%s only operates on computed keys - %s is not one", caller, key)
 	}
 	return nil
 }
	// Copyright (c) HashiCorp, Inc.
	// SPDX-License-Identifier: MPL-2.0

	package schema

	import (
	"errors"
	"fmt"
	"reflect"
	"strings"
	"sync"

	"github.com/hashicorp/terraform/internal/legacy/terraform"
	)

	// newValueWriter is a minor re-implementation of MapFieldWriter to include
	// keys that should be marked as computed, to represent the new part of a
	// pseudo-diff.
	type newValueWriter struct {
	*MapFieldWriter

	// A list of keys that should be marked as computed.
	computedKeys map[string]bool

	// A lock to prevent races on writes. The underlying writer will have one as
	// well - this is for computed keys.
	lock sync.Mutex

	// To be used with init.
	once sync.Once
	}

	// init performs any initialization tasks for the newValueWriter.
	func (w *newValueWriter) init() {
	if w.computedKeys == nil {
	w.computedKeys = make(map[string]bool)
	}
	}

	// WriteField overrides MapValueWriter's WriteField, adding the ability to flag
	// the address as computed.
	func (w *newValueWriter) WriteField(address []string, value interface{}, computed bool) error {
	// Fail the write if we have a non-nil value and computed is true.
	// NewComputed values should not have a value when written.
	if value != nil && computed {
	return errors.New("Non-nil value with computed set")
	}

	if err := w.MapFieldWriter.WriteField(address, value); err != nil {
	return err
	}

	w.once.Do(w.init)

	w.lock.Lock()
	defer w.lock.Unlock()
	if computed {
	w.computedKeys[strings.Join(address, ".")] = true
	}
	return nil
	}

	// ComputedKeysMap returns the underlying computed keys map.
	func (w *newValueWriter) ComputedKeysMap() map[string]bool {
	w.once.Do(w.init)
	return w.computedKeys
	}

	// newValueReader is a minor re-implementation of MapFieldReader and is the
	// read counterpart to MapValueWriter, allowing the read of keys flagged as
	// computed to accommodate the diff override logic in ResourceDiff.
	type newValueReader struct {
	*MapFieldReader

	// The list of computed keys from a newValueWriter.
	computedKeys map[string]bool
	}

	// ReadField reads the values from the underlying writer, returning the
	// computed value if it is found as well.
	func (r *newValueReader) ReadField(address []string) (FieldReadResult, error) {
	addrKey := strings.Join(address, ".")
	v, err := r.MapFieldReader.ReadField(address)
	if err != nil {
	return FieldReadResult{}, err
	}
	for computedKey := range r.computedKeys {
	if childAddrOf(addrKey, computedKey) {
	if strings.HasSuffix(addrKey, ".#") {
	// This is a count value for a list or set that has been marked as
	// computed, or a sub-list/sub-set of a complex resource that has
	// been marked as computed. We need to pass through to other readers
	// so that an accurate previous count can be fetched for the diff.
	v.Exists = false
	}
	v.Computed = true
	}
	}

	return v, nil
	}

	// ResourceDiff is used to query and make custom changes to an in-flight diff.
	// It can be used to veto particular changes in the diff, customize the diff
	// that has been created, or diff values not controlled by config.
	//
	// The object functions similar to ResourceData, however most notably lacks
	// Set, SetPartial, and Partial, as it should be used to change diff values
	// only. Most other first-class ResourceData functions exist, namely Get,
	// GetOk, HasChange, and GetChange exist.
	//
	// All functions in ResourceDiff, save for ForceNew, can only be used on
	// computed fields.
	type ResourceDiff struct {
	// The schema for the resource being worked on.
	schema map[string]*Schema

	// The current config for this resource.
	config *terraform.ResourceConfig

	// The state for this resource as it exists post-refresh, after the initial
	// diff.
	state *terraform.InstanceState

	// The diff created by Terraform. This diff is used, along with state,
	// config, and custom-set diff data, to provide a multi-level reader
	// experience similar to ResourceData.
	diff *terraform.InstanceDiff

	// The internal reader structure that contains the state, config, the default
	// diff, and the new diff.
	multiReader *MultiLevelFieldReader

	// A writer that writes overridden new fields.
	newWriter *newValueWriter

	// Tracks which keys have been updated by ResourceDiff to ensure that the
	// diff does not get re-run on keys that were not touched, or diffs that were
	// just removed (re-running on the latter would just roll back the removal).
	updatedKeys map[string]bool

	// Tracks which keys were flagged as forceNew. These keys are not saved in
	// newWriter, but we need to track them so that they can be re-diffed later.
	forcedNewKeys map[string]bool
	}

	// newResourceDiff creates a new ResourceDiff instance.
	func newResourceDiff(schema map[string]Schema, config terraform.ResourceConfig, state terraform.InstanceState, diff terraform.InstanceDiff) *ResourceDiff {
	d := &ResourceDiff{
	config: config,
	state: state,
	diff: diff,
	schema: schema,
	}

	d.newWriter = &newValueWriter{
	MapFieldWriter: &MapFieldWriter{Schema: d.schema},
	}
	readers := make(map[string]FieldReader)
	var stateAttributes map[string]string
	if d.state != nil {
	stateAttributes = d.state.Attributes
	readers["state"] = &MapFieldReader{
	Schema: d.schema,
	Map: BasicMapReader(stateAttributes),
	}
	}
	if d.config != nil {
	readers["config"] = &ConfigFieldReader{
	Schema: d.schema,
	Config: d.config,
	}
	}
	if d.diff != nil {
	readers["diff"] = &DiffFieldReader{
	Schema: d.schema,
	Diff: d.diff,
	Source: &MultiLevelFieldReader{
	Levels: []string{"state", "config"},
	Readers: readers,
	},
	}
	}
	readers["newDiff"] = &newValueReader{
	MapFieldReader: &MapFieldReader{
	Schema: d.schema,
	Map: BasicMapReader(d.newWriter.Map()),
	},
	computedKeys: d.newWriter.ComputedKeysMap(),
	}
	d.multiReader = &MultiLevelFieldReader{
	Levels: []string{
	"state",
	"config",
	"diff",
	"newDiff",
	},

	Readers: readers,
	}

	d.updatedKeys = make(map[string]bool)
	d.forcedNewKeys = make(map[string]bool)

	return d
	}

	// UpdatedKeys returns the keys that were updated by this ResourceDiff run.
	// These are the only keys that a diff should be re-calculated for.
	//
	// This is the combined result of both keys for which diff values were updated
	// for or cleared, and also keys that were flagged to be re-diffed as a result
	// of ForceNew.
	func (d *ResourceDiff) UpdatedKeys() []string {
	var s []string
	for k := range d.updatedKeys {
	s = append(s, k)
	}
	for k := range d.forcedNewKeys {
	for _, l := range s {
	if k == l {
	break
	}
	}
	s = append(s, k)
	}
	return s
	}

	// Clear wipes the diff for a particular key. It is called by ResourceDiff's
	// functionality to remove any possibility of conflicts, but can be called on
	// its own to just remove a specific key from the diff completely.
	//
	// Note that this does not wipe an override. This function is only allowed on
	// computed keys.
	func (d *ResourceDiff) Clear(key string) error {
	if err := d.checkKey(key, "Clear", true); err != nil {
	return err
	}

	return d.clear(key)
	}

	func (d *ResourceDiff) clear(key string) error {
	// Check the schema to make sure that this key exists first.
	schemaL := addrToSchema(strings.Split(key, "."), d.schema)
	if len(schemaL) == 0 {
	return fmt.Errorf("%s is not a valid key", key)
	}

	for k := range d.diff.Attributes {
	if strings.HasPrefix(k, key) {
	delete(d.diff.Attributes, k)
	}
	}
	return nil
	}

	// GetChangedKeysPrefix helps to implement Resource.CustomizeDiff
	// where we need to act on all nested fields
	// without calling out each one separately
	func (d *ResourceDiff) GetChangedKeysPrefix(prefix string) []string {
	keys := make([]string, 0)
	for k := range d.diff.Attributes {
	if strings.HasPrefix(k, prefix) {
	keys = append(keys, k)
	}
	}
	return keys
	}

	// diffChange helps to implement resourceDiffer and derives its change values
	// from ResourceDiff's own change data, in addition to existing diff, config, and state.
	func (d *ResourceDiff) diffChange(key string) (interface{}, interface{}, bool, bool, bool) {
	old, new, customized := d.getChange(key)

	if !old.Exists {
	old.Value = nil
	}
	if !new.Exists \|\| d.removed(key) {
	new.Value = nil
	}

	return old.Value, new.Value, !reflect.DeepEqual(old.Value, new.Value), new.Computed, customized
	}

	// SetNew is used to set a new diff value for the mentioned key. The value must
	// be correct for the attribute's schema (mostly relevant for maps, lists, and
	// sets). The original value from the state is used as the old value.
	//
	// This function is only allowed on computed attributes.
	func (d *ResourceDiff) SetNew(key string, value interface{}) error {
	if err := d.checkKey(key, "SetNew", false); err != nil {
	return err
	}

	return d.setDiff(key, value, false)
	}

	// SetNewComputed functions like SetNew, except that it blanks out a new value
	// and marks it as computed.
	//
	// This function is only allowed on computed attributes.
	func (d *ResourceDiff) SetNewComputed(key string) error {
	if err := d.checkKey(key, "SetNewComputed", false); err != nil {
	return err
	}

	return d.setDiff(key, nil, true)
	}

	// setDiff performs common diff setting behaviour.
	func (d *ResourceDiff) setDiff(key string, new interface{}, computed bool) error {
	if err := d.clear(key); err != nil {
	return err
	}

	if err := d.newWriter.WriteField(strings.Split(key, "."), new, computed); err != nil {
	return fmt.Errorf("Cannot set new diff value for key %s: %s", key, err)
	}

	d.updatedKeys[key] = true

	return nil
	}

	// ForceNew force-flags ForceNew in the schema for a specific key, and
	// re-calculates its diff, effectively causing this attribute to force a new
	// resource.
	//
	// Keep in mind that forcing a new resource will force a second run of the
	// resource's CustomizeDiff function (with a new ResourceDiff) once the current
	// one has completed. This second run is performed without state. This behavior
	// will be the same as if a new resource is being created and is performed to
	// ensure that the diff looks like the diff for a new resource as much as
	// possible. CustomizeDiff should expect such a scenario and act correctly.
	//
	// This function is a no-op/error if there is no diff.
	//
	// Note that the change to schema is permanent for the lifecycle of this
	// specific ResourceDiff instance.
	func (d *ResourceDiff) ForceNew(key string) error {
	if !d.HasChange(key) {
	return fmt.Errorf("ForceNew: No changes for %s", key)
	}

	keyParts := strings.Split(key, ".")
	var schema *Schema
	schemaL := addrToSchema(keyParts, d.schema)
	if len(schemaL) > 0 {
	schema = schemaL[len(schemaL)-1]
	} else {
	return fmt.Errorf("ForceNew: %s is not a valid key", key)
	}

	schema.ForceNew = true

	// Flag this for a re-diff. Don't save any values to guarantee that existing
	// diffs aren't messed with, as this gets messy when dealing with complex
	// structures, zero values, etc.
	d.forcedNewKeys[keyParts[0]] = true

	return nil
	}

	// Get hands off to ResourceData.Get.
	func (d *ResourceDiff) Get(key string) interface{} {
	r, _ := d.GetOk(key)
	return r
	}

	// GetChange gets the change between the state and diff, checking first to see
	// if an overridden diff exists.
	//
	// This implementation differs from ResourceData's in the way that we first get
	// results from the exact levels for the new diff, then from state and diff as
	// per normal.
	func (d *ResourceDiff) GetChange(key string) (interface{}, interface{}) {
	old, new, _ := d.getChange(key)
	return old.Value, new.Value
	}

	// GetOk functions the same way as ResourceData.GetOk, but it also checks the
	// new diff levels to provide data consistent with the current state of the
	// customized diff.
	func (d *ResourceDiff) GetOk(key string) (interface{}, bool) {
	r := d.get(strings.Split(key, "."), "newDiff")
	exists := r.Exists && !r.Computed
	if exists {
	// If it exists, we also want to verify it is not the zero-value.
	value := r.Value
	zero := r.Schema.Type.Zero()

	if eq, ok := value.(Equal); ok {
	exists = !eq.Equal(zero)
	} else {
	exists = !reflect.DeepEqual(value, zero)
	}
	}

	return r.Value, exists
	}

	// GetOkExists functions the same way as GetOkExists within ResourceData, but
	// it also checks the new diff levels to provide data consistent with the
	// current state of the customized diff.
	//
	// This is nearly the same function as GetOk, yet it does not check
	// for the zero value of the attribute's type. This allows for attributes
	// without a default, to fully check for a literal assignment, regardless
	// of the zero-value for that type.
	func (d *ResourceDiff) GetOkExists(key string) (interface{}, bool) {
	r := d.get(strings.Split(key, "."), "newDiff")
	exists := r.Exists && !r.Computed
	return r.Value, exists
	}

	// NewValueKnown returns true if the new value for the given key is available
	// as its final value at diff time. If the return value is false, this means
	// either the value is based of interpolation that was unavailable at diff
	// time, or that the value was explicitly marked as computed by SetNewComputed.
	func (d *ResourceDiff) NewValueKnown(key string) bool {
	r := d.get(strings.Split(key, "."), "newDiff")
	return !r.Computed
	}

	// HasChange checks to see if there is a change between state and the diff, or
	// in the overridden diff.
	func (d *ResourceDiff) HasChange(key string) bool {
	old, new := d.GetChange(key)

	// If the type implements the Equal interface, then call that
	// instead of just doing a reflect.DeepEqual. An example where this is
	// needed is *Set
	if eq, ok := old.(Equal); ok {
	return !eq.Equal(new)
	}

	return !reflect.DeepEqual(old, new)
	}

	// Id returns the ID of this resource.
	//
	// Note that technically, ID does not change during diffs (it either has
	// already changed in the refresh, or will change on update), hence we do not
	// support updating the ID or fetching it from anything else other than state.
	func (d *ResourceDiff) Id() string {
	var result string

	if d.state != nil {
	result = d.state.ID
	}
	return result
	}

	// getChange gets values from two different levels, designed for use in
	// diffChange, HasChange, and GetChange.
	//
	// This implementation differs from ResourceData's in the way that we first get
	// results from the exact levels for the new diff, then from state and diff as
	// per normal.
	func (d *ResourceDiff) getChange(key string) (getResult, getResult, bool) {
	old := d.get(strings.Split(key, "."), "state")
	var new getResult
	for p := range d.updatedKeys {
	if childAddrOf(key, p) {
	new = d.getExact(strings.Split(key, "."), "newDiff")
	return old, new, true
	}
	}
	new = d.get(strings.Split(key, "."), "newDiff")
	return old, new, false
	}

	// removed checks to see if the key is present in the existing, pre-customized
	// diff and if it was marked as NewRemoved.
	func (d *ResourceDiff) removed(k string) bool {
	diff, ok := d.diff.Attributes[k]
	if !ok {
	return false
	}
	return diff.NewRemoved
	}

	// get performs the appropriate multi-level reader logic for ResourceDiff,
	// starting at source. Refer to newResourceDiff for the level order.
	func (d *ResourceDiff) get(addr []string, source string) getResult {
	result, err := d.multiReader.ReadFieldMerge(addr, source)
	if err != nil {
	panic(err)
	}

	return d.finalizeResult(addr, result)
	}

	// getExact gets an attribute from the exact level referenced by source.
	func (d *ResourceDiff) getExact(addr []string, source string) getResult {
	result, err := d.multiReader.ReadFieldExact(addr, source)
	if err != nil {
	panic(err)
	}

	return d.finalizeResult(addr, result)
	}

	// finalizeResult does some post-processing of the result produced by get and getExact.
	func (d *ResourceDiff) finalizeResult(addr []string, result FieldReadResult) getResult {
	// If the result doesn't exist, then we set the value to the zero value
	var schema *Schema
	if schemaL := addrToSchema(addr, d.schema); len(schemaL) > 0 {
	schema = schemaL[len(schemaL)-1]
	}

	if result.Value == nil && schema != nil {
	result.Value = result.ValueOrZero(schema)
	}

	// Transform the FieldReadResult into a getResult. It might be worth
	// merging these two structures one day.
	return getResult{
	Value: result.Value,
	ValueProcessed: result.ValueProcessed,
	Computed: result.Computed,
	Exists: result.Exists,
	Schema: schema,
	}
	}

	// childAddrOf does a comparison of two addresses to see if one is the child of
	// the other.
	func childAddrOf(child, parent string) bool {
	cs := strings.Split(child, ".")
	ps := strings.Split(parent, ".")
	if len(ps) > len(cs) {
	return false
	}
	return reflect.DeepEqual(ps, cs[:len(ps)])
	}

	// checkKey checks the key to make sure it exists and is computed.
	func (d *ResourceDiff) checkKey(key, caller string, nested bool) error {
	var schema *Schema
	if nested {
	keyParts := strings.Split(key, ".")
	schemaL := addrToSchema(keyParts, d.schema)
	if len(schemaL) > 0 {
	schema = schemaL[len(schemaL)-1]
	}
	} else {
	s, ok := d.schema[key]
	if ok {
	schema = s
	}
	}
	if schema == nil {
	return fmt.Errorf("%s: invalid key: %s", caller, key)
	}
	if !schema.Computed {
	return fmt.Errorf("%s only operates on computed keys - %s is not one", caller, key)
	}
	return nil
	}