v1.5.7/internal/terraform/eval_context_builtin.go - terraform - Git at Google

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

 package terraform

 import (
 	"context"
 	"fmt"
 	"log"
 	"sync"

 	"github.com/hashicorp/hcl/v2"
 	"github.com/zclconf/go-cty/cty"

 	"github.com/hashicorp/terraform/internal/addrs"
 	"github.com/hashicorp/terraform/internal/checks"
 	"github.com/hashicorp/terraform/internal/configs/configschema"
 	"github.com/hashicorp/terraform/internal/instances"
 	"github.com/hashicorp/terraform/internal/lang"
 	"github.com/hashicorp/terraform/internal/plans"
 	"github.com/hashicorp/terraform/internal/providers"
 	"github.com/hashicorp/terraform/internal/provisioners"
 	"github.com/hashicorp/terraform/internal/refactoring"
 	"github.com/hashicorp/terraform/internal/states"
 	"github.com/hashicorp/terraform/internal/tfdiags"
 	"github.com/hashicorp/terraform/version"
 )

 // BuiltinEvalContext is an EvalContext implementation that is used by
 // Terraform by default.
 type BuiltinEvalContext struct {
 	// StopContext is the context used to track whether we're complete
 	StopContext context.Context

 	// PathValue is the Path that this context is operating within.
 	PathValue addrs.ModuleInstance

 	// pathSet indicates that this context was explicitly created for a
 	// specific path, and can be safely used for evaluation. This lets us
 	// differentiate between PathValue being unset, and the zero value which is
 	// equivalent to RootModuleInstance.  Path and Evaluation methods will
 	// panic if this is not set.
 	pathSet bool

 	// Evaluator is used for evaluating expressions within the scope of this
 	// eval context.
 	Evaluator *Evaluator

 	// VariableValues contains the variable values across all modules. This
 	// structure is shared across the entire containing context, and so it
 	// may be accessed only when holding VariableValuesLock.
 	// The keys of the first level of VariableValues are the string
 	// representations of addrs.ModuleInstance values. The second-level keys
 	// are variable names within each module instance.
 	VariableValues     map[string]map[string]cty.Value
 	VariableValuesLock *sync.Mutex

 	// Plugins is a library of plugin components (providers and provisioners)
 	// available for use during a graph walk.
 	Plugins *contextPlugins

 	Hooks                 []Hook
 	InputValue            UIInput
 	ProviderCache         map[string]providers.Interface
 	ProviderInputConfig   map[string]map[string]cty.Value
 	ProviderLock          *sync.Mutex
 	ProvisionerCache      map[string]provisioners.Interface
 	ProvisionerLock       *sync.Mutex
 	ChangesValue          *plans.ChangesSync
 	StateValue            *states.SyncState
 	ChecksValue           *checks.State
 	RefreshStateValue     *states.SyncState
 	PrevRunStateValue     *states.SyncState
 	InstanceExpanderValue *instances.Expander
 	MoveResultsValue      refactoring.MoveResults
 }

 // BuiltinEvalContext implements EvalContext
 var _ EvalContext = (*BuiltinEvalContext)(nil)

 func (ctx *BuiltinEvalContext) WithPath(path addrs.ModuleInstance) EvalContext {
 	newCtx := *ctx
 	newCtx.pathSet = true
 	newCtx.PathValue = path
 	return &newCtx
 }

 func (ctx *BuiltinEvalContext) Stopped() <-chan struct{} {
 	// This can happen during tests. During tests, we just block forever.
 	if ctx.StopContext == nil {
 		return nil
 	}

 	return ctx.StopContext.Done()
 }

 func (ctx *BuiltinEvalContext) Hook(fn func(Hook) (HookAction, error)) error {
 	for _, h := range ctx.Hooks {
 		action, err := fn(h)
 		if err != nil {
 			return err
 		}

 		switch action {
 		case HookActionContinue:
 			continue
 		case HookActionHalt:
 			// Return an early exit error to trigger an early exit
 			log.Printf("[WARN] Early exit triggered by hook: %T", h)
 			return nil
 		}
 	}

 	return nil
 }

 func (ctx *BuiltinEvalContext) Input() UIInput {
 	return ctx.InputValue
 }

 func (ctx *BuiltinEvalContext) InitProvider(addr addrs.AbsProviderConfig) (providers.Interface, error) {
 	// If we already initialized, it is an error
 	if p := ctx.Provider(addr); p != nil {
 		return nil, fmt.Errorf("%s is already initialized", addr)
 	}

 	// Warning: make sure to acquire these locks AFTER the call to Provider
 	// above, since it also acquires locks.
 	ctx.ProviderLock.Lock()
 	defer ctx.ProviderLock.Unlock()

 	key := addr.String()

 	p, err := ctx.Plugins.NewProviderInstance(addr.Provider)
 	if err != nil {
 		return nil, err
 	}

 	log.Printf("[TRACE] BuiltinEvalContext: Initialized %q provider for %s", addr.String(), addr)
 	ctx.ProviderCache[key] = p

 	return p, nil
 }

 func (ctx *BuiltinEvalContext) Provider(addr addrs.AbsProviderConfig) providers.Interface {
 	ctx.ProviderLock.Lock()
 	defer ctx.ProviderLock.Unlock()

 	return ctx.ProviderCache[addr.String()]
 }

 func (ctx *BuiltinEvalContext) ProviderSchema(addr addrs.AbsProviderConfig) (*ProviderSchema, error) {
 	return ctx.Plugins.ProviderSchema(addr.Provider)
 }

 func (ctx *BuiltinEvalContext) CloseProvider(addr addrs.AbsProviderConfig) error {
 	ctx.ProviderLock.Lock()
 	defer ctx.ProviderLock.Unlock()

 	key := addr.String()
 	provider := ctx.ProviderCache[key]
 	if provider != nil {
 		delete(ctx.ProviderCache, key)
 		return provider.Close()
 	}

 	return nil
 }

 func (ctx *BuiltinEvalContext) ConfigureProvider(addr addrs.AbsProviderConfig, cfg cty.Value) tfdiags.Diagnostics {
 	var diags tfdiags.Diagnostics
 	if !addr.Module.Equal(ctx.Path().Module()) {
 		// This indicates incorrect use of ConfigureProvider: it should be used
 		// only from the module that the provider configuration belongs to.
 		panic(fmt.Sprintf("%s configured by wrong module %s", addr, ctx.Path()))
 	}

 	p := ctx.Provider(addr)
 	if p == nil {
 		diags = diags.Append(fmt.Errorf("%s not initialized", addr))
 		return diags
 	}

 	providerSchema, err := ctx.ProviderSchema(addr)
 	if err != nil {
 		diags = diags.Append(fmt.Errorf("failed to read schema for %s: %s", addr, err))
 		return diags
 	}
 	if providerSchema == nil {
 		diags = diags.Append(fmt.Errorf("schema for %s is not available", addr))
 		return diags
 	}

 	req := providers.ConfigureProviderRequest{
 		TerraformVersion: version.String(),
 		Config:           cfg,
 	}

 	resp := p.ConfigureProvider(req)
 	return resp.Diagnostics
 }

 func (ctx *BuiltinEvalContext) ProviderInput(pc addrs.AbsProviderConfig) map[string]cty.Value {
 	ctx.ProviderLock.Lock()
 	defer ctx.ProviderLock.Unlock()

 	if !pc.Module.Equal(ctx.Path().Module()) {
 		// This indicates incorrect use of InitProvider: it should be used
 		// only from the module that the provider configuration belongs to.
 		panic(fmt.Sprintf("%s initialized by wrong module %s", pc, ctx.Path()))
 	}

 	if !ctx.Path().IsRoot() {
 		// Only root module provider configurations can have input.
 		return nil
 	}

 	return ctx.ProviderInputConfig[pc.String()]
 }

 func (ctx *BuiltinEvalContext) SetProviderInput(pc addrs.AbsProviderConfig, c map[string]cty.Value) {
 	absProvider := pc
 	if !pc.Module.IsRoot() {
 		// Only root module provider configurations can have input.
 		log.Printf("[WARN] BuiltinEvalContext: attempt to SetProviderInput for non-root module")
 		return
 	}

 	// Save the configuration
 	ctx.ProviderLock.Lock()
 	ctx.ProviderInputConfig[absProvider.String()] = c
 	ctx.ProviderLock.Unlock()
 }

 func (ctx *BuiltinEvalContext) Provisioner(n string) (provisioners.Interface, error) {
 	ctx.ProvisionerLock.Lock()
 	defer ctx.ProvisionerLock.Unlock()

 	p, ok := ctx.ProvisionerCache[n]
 	if !ok {
 		var err error
 		p, err = ctx.Plugins.NewProvisionerInstance(n)
 		if err != nil {
 			return nil, err
 		}

 		ctx.ProvisionerCache[n] = p
 	}

 	return p, nil
 }

 func (ctx *BuiltinEvalContext) ProvisionerSchema(n string) (*configschema.Block, error) {
 	return ctx.Plugins.ProvisionerSchema(n)
 }

 func (ctx *BuiltinEvalContext) CloseProvisioners() error {
 	var diags tfdiags.Diagnostics
 	ctx.ProvisionerLock.Lock()
 	defer ctx.ProvisionerLock.Unlock()

 	for name, prov := range ctx.ProvisionerCache {
 		err := prov.Close()
 		if err != nil {
 			diags = diags.Append(fmt.Errorf("provisioner.Close %s: %s", name, err))
 		}
 	}

 	return diags.Err()
 }

 func (ctx *BuiltinEvalContext) EvaluateBlock(body hcl.Body, schema *configschema.Block, self addrs.Referenceable, keyData InstanceKeyEvalData) (cty.Value, hcl.Body, tfdiags.Diagnostics) {
 	var diags tfdiags.Diagnostics
 	scope := ctx.EvaluationScope(self, nil, keyData)
 	body, evalDiags := scope.ExpandBlock(body, schema)
 	diags = diags.Append(evalDiags)
 	val, evalDiags := scope.EvalBlock(body, schema)
 	diags = diags.Append(evalDiags)
 	return val, body, diags
 }

 func (ctx *BuiltinEvalContext) EvaluateExpr(expr hcl.Expression, wantType cty.Type, self addrs.Referenceable) (cty.Value, tfdiags.Diagnostics) {
 	scope := ctx.EvaluationScope(self, nil, EvalDataForNoInstanceKey)
 	return scope.EvalExpr(expr, wantType)
 }

 func (ctx *BuiltinEvalContext) EvaluateReplaceTriggeredBy(expr hcl.Expression, repData instances.RepetitionData) (*addrs.Reference, bool, tfdiags.Diagnostics) {

 	// get the reference to lookup changes in the plan
 	ref, diags := evalReplaceTriggeredByExpr(expr, repData)
 	if diags.HasErrors() {
 		return nil, false, diags
 	}

 	var changes []*plans.ResourceInstanceChangeSrc
 	// store the address once we get it for validation
 	var resourceAddr addrs.Resource

 	// The reference is either a resource or resource instance
 	switch sub := ref.Subject.(type) {
 	case addrs.Resource:
 		resourceAddr = sub
 		rc := sub.Absolute(ctx.Path())
 		changes = ctx.Changes().GetChangesForAbsResource(rc)
 	case addrs.ResourceInstance:
 		resourceAddr = sub.ContainingResource()
 		rc := sub.Absolute(ctx.Path())
 		change := ctx.Changes().GetResourceInstanceChange(rc, states.CurrentGen)
 		if change != nil {
 			// we'll generate an error below if there was no change
 			changes = append(changes, change)
 		}
 	}

 	// Do some validation to make sure we are expecting a change at all
 	cfg := ctx.Evaluator.Config.Descendent(ctx.Path().Module())
 	resCfg := cfg.Module.ResourceByAddr(resourceAddr)
 	if resCfg == nil {
 		diags = diags.Append(&hcl.Diagnostic{
 			Severity: hcl.DiagError,
 			Summary:  `Reference to undeclared resource`,
 			Detail:   fmt.Sprintf(`A resource %s has not been declared in %s`, ref.Subject, moduleDisplayAddr(ctx.Path())),
 			Subject:  expr.Range().Ptr(),
 		})
 		return nil, false, diags
 	}

 	if len(changes) == 0 {
 		// If the resource is valid there should always be at least one change.
 		diags = diags.Append(fmt.Errorf("no change found for %s in %s", ref.Subject, moduleDisplayAddr(ctx.Path())))
 		return nil, false, diags
 	}

 	// If we don't have a traversal beyond the resource, then we can just look
 	// for any change.
 	if len(ref.Remaining) == 0 {
 		for _, c := range changes {
 			switch c.ChangeSrc.Action {
 			// Only immediate changes to the resource will trigger replacement.
 			case plans.Update, plans.DeleteThenCreate, plans.CreateThenDelete:
 				return ref, true, diags
 			}
 		}

 		// no change triggered
 		return nil, false, diags
 	}

 	// This must be an instances to have a remaining traversal, which means a
 	// single change.
 	change := changes[0]

 	// Make sure the change is actionable. A create or delete action will have
 	// a change in value, but are not valid for our purposes here.
 	switch change.ChangeSrc.Action {
 	case plans.Update, plans.DeleteThenCreate, plans.CreateThenDelete:
 		// OK
 	default:
 		return nil, false, diags
 	}

 	// Since we have a traversal after the resource reference, we will need to
 	// decode the changes, which means we need a schema.
 	providerAddr := change.ProviderAddr
 	schema, err := ctx.ProviderSchema(providerAddr)
 	if err != nil {
 		diags = diags.Append(err)
 		return nil, false, diags
 	}

 	resAddr := change.Addr.ContainingResource().Resource
 	resSchema, _ := schema.SchemaForResourceType(resAddr.Mode, resAddr.Type)
 	ty := resSchema.ImpliedType()

 	before, err := change.ChangeSrc.Before.Decode(ty)
 	if err != nil {
 		diags = diags.Append(err)
 		return nil, false, diags
 	}

 	after, err := change.ChangeSrc.After.Decode(ty)
 	if err != nil {
 		diags = diags.Append(err)
 		return nil, false, diags
 	}

 	path := traversalToPath(ref.Remaining)
 	attrBefore, _ := path.Apply(before)
 	attrAfter, _ := path.Apply(after)

 	if attrBefore == cty.NilVal || attrAfter == cty.NilVal {
 		replace := attrBefore != attrAfter
 		return ref, replace, diags
 	}

 	replace := !attrBefore.RawEquals(attrAfter)

 	return ref, replace, diags
 }

 func (ctx *BuiltinEvalContext) EvaluationScope(self addrs.Referenceable, source addrs.Referenceable, keyData InstanceKeyEvalData) *lang.Scope {
 	if !ctx.pathSet {
 		panic("context path not set")
 	}
 	data := &evaluationStateData{
 		Evaluator:       ctx.Evaluator,
 		ModulePath:      ctx.PathValue,
 		InstanceKeyData: keyData,
 		Operation:       ctx.Evaluator.Operation,
 	}
 	scope := ctx.Evaluator.Scope(data, self, source)

 	// ctx.PathValue is the path of the module that contains whatever
 	// expression the caller will be trying to evaluate, so this will
 	// activate only the experiments from that particular module, to
 	// be consistent with how experiment checking in the "configs"
 	// package itself works. The nil check here is for robustness in
 	// incompletely-mocked testing situations; mc should never be nil in
 	// real situations.
 	if mc := ctx.Evaluator.Config.DescendentForInstance(ctx.PathValue); mc != nil {
 		scope.SetActiveExperiments(mc.Module.ActiveExperiments)
 	}
 	return scope
 }

 func (ctx *BuiltinEvalContext) Path() addrs.ModuleInstance {
 	if !ctx.pathSet {
 		panic("context path not set")
 	}
 	return ctx.PathValue
 }

 func (ctx *BuiltinEvalContext) SetRootModuleArgument(addr addrs.InputVariable, v cty.Value) {
 	ctx.VariableValuesLock.Lock()
 	defer ctx.VariableValuesLock.Unlock()

 	log.Printf("[TRACE] BuiltinEvalContext: Storing final value for variable %s", addr.Absolute(addrs.RootModuleInstance))
 	key := addrs.RootModuleInstance.String()
 	args := ctx.VariableValues[key]
 	if args == nil {
 		args = make(map[string]cty.Value)
 		ctx.VariableValues[key] = args
 	}
 	args[addr.Name] = v
 }

 func (ctx *BuiltinEvalContext) SetModuleCallArgument(callAddr addrs.ModuleCallInstance, varAddr addrs.InputVariable, v cty.Value) {
 	ctx.VariableValuesLock.Lock()
 	defer ctx.VariableValuesLock.Unlock()

 	if !ctx.pathSet {
 		panic("context path not set")
 	}

 	childPath := callAddr.ModuleInstance(ctx.PathValue)
 	log.Printf("[TRACE] BuiltinEvalContext: Storing final value for variable %s", varAddr.Absolute(childPath))
 	key := childPath.String()
 	args := ctx.VariableValues[key]
 	if args == nil {
 		args = make(map[string]cty.Value)
 		ctx.VariableValues[key] = args
 	}
 	args[varAddr.Name] = v
 }

 func (ctx *BuiltinEvalContext) GetVariableValue(addr addrs.AbsInputVariableInstance) cty.Value {
 	ctx.VariableValuesLock.Lock()
 	defer ctx.VariableValuesLock.Unlock()

 	modKey := addr.Module.String()
 	modVars := ctx.VariableValues[modKey]
 	val, ok := modVars[addr.Variable.Name]
 	if !ok {
 		return cty.DynamicVal
 	}
 	return val
 }

 func (ctx *BuiltinEvalContext) Changes() *plans.ChangesSync {
 	return ctx.ChangesValue
 }

 func (ctx *BuiltinEvalContext) State() *states.SyncState {
 	return ctx.StateValue
 }

 func (ctx *BuiltinEvalContext) Checks() *checks.State {
 	return ctx.ChecksValue
 }

 func (ctx *BuiltinEvalContext) RefreshState() *states.SyncState {
 	return ctx.RefreshStateValue
 }

 func (ctx *BuiltinEvalContext) PrevRunState() *states.SyncState {
 	return ctx.PrevRunStateValue
 }

 func (ctx *BuiltinEvalContext) InstanceExpander() *instances.Expander {
 	return ctx.InstanceExpanderValue
 }

 func (ctx *BuiltinEvalContext) MoveResults() refactoring.MoveResults {
 	return ctx.MoveResultsValue
 }
	// Copyright (c) HashiCorp, Inc.
	// SPDX-License-Identifier: MPL-2.0

	package terraform

	import (
	"context"
	"fmt"
	"log"
	"sync"

	"github.com/hashicorp/hcl/v2"
	"github.com/zclconf/go-cty/cty"

	"github.com/hashicorp/terraform/internal/addrs"
	"github.com/hashicorp/terraform/internal/checks"
	"github.com/hashicorp/terraform/internal/configs/configschema"
	"github.com/hashicorp/terraform/internal/instances"
	"github.com/hashicorp/terraform/internal/lang"
	"github.com/hashicorp/terraform/internal/plans"
	"github.com/hashicorp/terraform/internal/providers"
	"github.com/hashicorp/terraform/internal/provisioners"
	"github.com/hashicorp/terraform/internal/refactoring"
	"github.com/hashicorp/terraform/internal/states"
	"github.com/hashicorp/terraform/internal/tfdiags"
	"github.com/hashicorp/terraform/version"
	)

	// BuiltinEvalContext is an EvalContext implementation that is used by
	// Terraform by default.
	type BuiltinEvalContext struct {
	// StopContext is the context used to track whether we're complete
	StopContext context.Context

	// PathValue is the Path that this context is operating within.
	PathValue addrs.ModuleInstance

	// pathSet indicates that this context was explicitly created for a
	// specific path, and can be safely used for evaluation. This lets us
	// differentiate between PathValue being unset, and the zero value which is
	// equivalent to RootModuleInstance. Path and Evaluation methods will
	// panic if this is not set.
	pathSet bool

	// Evaluator is used for evaluating expressions within the scope of this
	// eval context.
	Evaluator *Evaluator

	// VariableValues contains the variable values across all modules. This
	// structure is shared across the entire containing context, and so it
	// may be accessed only when holding VariableValuesLock.
	// The keys of the first level of VariableValues are the string
	// representations of addrs.ModuleInstance values. The second-level keys
	// are variable names within each module instance.
	VariableValues map[string]map[string]cty.Value
	VariableValuesLock *sync.Mutex

	// Plugins is a library of plugin components (providers and provisioners)
	// available for use during a graph walk.
	Plugins *contextPlugins

	Hooks []Hook
	InputValue UIInput
	ProviderCache map[string]providers.Interface
	ProviderInputConfig map[string]map[string]cty.Value
	ProviderLock *sync.Mutex
	ProvisionerCache map[string]provisioners.Interface
	ProvisionerLock *sync.Mutex
	ChangesValue *plans.ChangesSync
	StateValue *states.SyncState
	ChecksValue *checks.State
	RefreshStateValue *states.SyncState
	PrevRunStateValue *states.SyncState
	InstanceExpanderValue *instances.Expander
	MoveResultsValue refactoring.MoveResults
	}

	// BuiltinEvalContext implements EvalContext
	var _ EvalContext = (*BuiltinEvalContext)(nil)

	func (ctx *BuiltinEvalContext) WithPath(path addrs.ModuleInstance) EvalContext {
	newCtx := *ctx
	newCtx.pathSet = true
	newCtx.PathValue = path
	return &newCtx
	}

	func (ctx *BuiltinEvalContext) Stopped() <-chan struct{} {
	// This can happen during tests. During tests, we just block forever.
	if ctx.StopContext == nil {
	return nil
	}

	return ctx.StopContext.Done()
	}

	func (ctx *BuiltinEvalContext) Hook(fn func(Hook) (HookAction, error)) error {
	for _, h := range ctx.Hooks {
	action, err := fn(h)
	if err != nil {
	return err
	}

	switch action {
	case HookActionContinue:
	continue
	case HookActionHalt:
	// Return an early exit error to trigger an early exit
	log.Printf("[WARN] Early exit triggered by hook: %T", h)
	return nil
	}
	}

	return nil
	}

	func (ctx *BuiltinEvalContext) Input() UIInput {
	return ctx.InputValue
	}

	func (ctx *BuiltinEvalContext) InitProvider(addr addrs.AbsProviderConfig) (providers.Interface, error) {
	// If we already initialized, it is an error
	if p := ctx.Provider(addr); p != nil {
	return nil, fmt.Errorf("%s is already initialized", addr)
	}

	// Warning: make sure to acquire these locks AFTER the call to Provider
	// above, since it also acquires locks.
	ctx.ProviderLock.Lock()
	defer ctx.ProviderLock.Unlock()

	key := addr.String()

	p, err := ctx.Plugins.NewProviderInstance(addr.Provider)
	if err != nil {
	return nil, err
	}

	log.Printf("[TRACE] BuiltinEvalContext: Initialized %q provider for %s", addr.String(), addr)
	ctx.ProviderCache[key] = p

	return p, nil
	}

	func (ctx *BuiltinEvalContext) Provider(addr addrs.AbsProviderConfig) providers.Interface {
	ctx.ProviderLock.Lock()
	defer ctx.ProviderLock.Unlock()

	return ctx.ProviderCache[addr.String()]
	}

	func (ctx BuiltinEvalContext) ProviderSchema(addr addrs.AbsProviderConfig) (ProviderSchema, error) {
	return ctx.Plugins.ProviderSchema(addr.Provider)
	}

	func (ctx *BuiltinEvalContext) CloseProvider(addr addrs.AbsProviderConfig) error {
	ctx.ProviderLock.Lock()
	defer ctx.ProviderLock.Unlock()

	key := addr.String()
	provider := ctx.ProviderCache[key]
	if provider != nil {
	delete(ctx.ProviderCache, key)
	return provider.Close()
	}

	return nil
	}

	func (ctx *BuiltinEvalContext) ConfigureProvider(addr addrs.AbsProviderConfig, cfg cty.Value) tfdiags.Diagnostics {
	var diags tfdiags.Diagnostics
	if !addr.Module.Equal(ctx.Path().Module()) {
	// This indicates incorrect use of ConfigureProvider: it should be used
	// only from the module that the provider configuration belongs to.
	panic(fmt.Sprintf("%s configured by wrong module %s", addr, ctx.Path()))
	}

	p := ctx.Provider(addr)
	if p == nil {
	diags = diags.Append(fmt.Errorf("%s not initialized", addr))
	return diags
	}

	providerSchema, err := ctx.ProviderSchema(addr)
	if err != nil {
	diags = diags.Append(fmt.Errorf("failed to read schema for %s: %s", addr, err))
	return diags
	}
	if providerSchema == nil {
	diags = diags.Append(fmt.Errorf("schema for %s is not available", addr))
	return diags
	}

	req := providers.ConfigureProviderRequest{
	TerraformVersion: version.String(),
	Config: cfg,
	}

	resp := p.ConfigureProvider(req)
	return resp.Diagnostics
	}

	func (ctx *BuiltinEvalContext) ProviderInput(pc addrs.AbsProviderConfig) map[string]cty.Value {
	ctx.ProviderLock.Lock()
	defer ctx.ProviderLock.Unlock()

	if !pc.Module.Equal(ctx.Path().Module()) {
	// This indicates incorrect use of InitProvider: it should be used
	// only from the module that the provider configuration belongs to.
	panic(fmt.Sprintf("%s initialized by wrong module %s", pc, ctx.Path()))
	}

	if !ctx.Path().IsRoot() {
	// Only root module provider configurations can have input.
	return nil
	}

	return ctx.ProviderInputConfig[pc.String()]
	}

	func (ctx *BuiltinEvalContext) SetProviderInput(pc addrs.AbsProviderConfig, c map[string]cty.Value) {
	absProvider := pc
	if !pc.Module.IsRoot() {
	// Only root module provider configurations can have input.
	log.Printf("[WARN] BuiltinEvalContext: attempt to SetProviderInput for non-root module")
	return
	}

	// Save the configuration
	ctx.ProviderLock.Lock()
	ctx.ProviderInputConfig[absProvider.String()] = c
	ctx.ProviderLock.Unlock()
	}

	func (ctx *BuiltinEvalContext) Provisioner(n string) (provisioners.Interface, error) {
	ctx.ProvisionerLock.Lock()
	defer ctx.ProvisionerLock.Unlock()

	p, ok := ctx.ProvisionerCache[n]
	if !ok {
	var err error
	p, err = ctx.Plugins.NewProvisionerInstance(n)
	if err != nil {
	return nil, err
	}

	ctx.ProvisionerCache[n] = p
	}

	return p, nil
	}

	func (ctx BuiltinEvalContext) ProvisionerSchema(n string) (configschema.Block, error) {
	return ctx.Plugins.ProvisionerSchema(n)
	}

	func (ctx *BuiltinEvalContext) CloseProvisioners() error {
	var diags tfdiags.Diagnostics
	ctx.ProvisionerLock.Lock()
	defer ctx.ProvisionerLock.Unlock()

	for name, prov := range ctx.ProvisionerCache {
	err := prov.Close()
	if err != nil {
	diags = diags.Append(fmt.Errorf("provisioner.Close %s: %s", name, err))
	}
	}

	return diags.Err()
	}

	func (ctx BuiltinEvalContext) EvaluateBlock(body hcl.Body, schema configschema.Block, self addrs.Referenceable, keyData InstanceKeyEvalData) (cty.Value, hcl.Body, tfdiags.Diagnostics) {
	var diags tfdiags.Diagnostics
	scope := ctx.EvaluationScope(self, nil, keyData)
	body, evalDiags := scope.ExpandBlock(body, schema)
	diags = diags.Append(evalDiags)
	val, evalDiags := scope.EvalBlock(body, schema)
	diags = diags.Append(evalDiags)
	return val, body, diags
	}

	func (ctx *BuiltinEvalContext) EvaluateExpr(expr hcl.Expression, wantType cty.Type, self addrs.Referenceable) (cty.Value, tfdiags.Diagnostics) {
	scope := ctx.EvaluationScope(self, nil, EvalDataForNoInstanceKey)
	return scope.EvalExpr(expr, wantType)
	}

	func (ctx BuiltinEvalContext) EvaluateReplaceTriggeredBy(expr hcl.Expression, repData instances.RepetitionData) (addrs.Reference, bool, tfdiags.Diagnostics) {

	// get the reference to lookup changes in the plan
	ref, diags := evalReplaceTriggeredByExpr(expr, repData)
	if diags.HasErrors() {
	return nil, false, diags
	}

	var changes []*plans.ResourceInstanceChangeSrc
	// store the address once we get it for validation
	var resourceAddr addrs.Resource

	// The reference is either a resource or resource instance
	switch sub := ref.Subject.(type) {
	case addrs.Resource:
	resourceAddr = sub
	rc := sub.Absolute(ctx.Path())
	changes = ctx.Changes().GetChangesForAbsResource(rc)
	case addrs.ResourceInstance:
	resourceAddr = sub.ContainingResource()
	rc := sub.Absolute(ctx.Path())
	change := ctx.Changes().GetResourceInstanceChange(rc, states.CurrentGen)
	if change != nil {
	// we'll generate an error below if there was no change
	changes = append(changes, change)
	}
	}

	// Do some validation to make sure we are expecting a change at all
	cfg := ctx.Evaluator.Config.Descendent(ctx.Path().Module())
	resCfg := cfg.Module.ResourceByAddr(resourceAddr)
	if resCfg == nil {
	diags = diags.Append(&hcl.Diagnostic{
	Severity: hcl.DiagError,
	Summary: `Reference to undeclared resource`,
	Detail: fmt.Sprintf(`A resource %s has not been declared in %s`, ref.Subject, moduleDisplayAddr(ctx.Path())),
	Subject: expr.Range().Ptr(),
	})
	return nil, false, diags
	}

	if len(changes) == 0 {
	// If the resource is valid there should always be at least one change.
	diags = diags.Append(fmt.Errorf("no change found for %s in %s", ref.Subject, moduleDisplayAddr(ctx.Path())))
	return nil, false, diags
	}

	// If we don't have a traversal beyond the resource, then we can just look
	// for any change.
	if len(ref.Remaining) == 0 {
	for _, c := range changes {
	switch c.ChangeSrc.Action {
	// Only immediate changes to the resource will trigger replacement.
	case plans.Update, plans.DeleteThenCreate, plans.CreateThenDelete:
	return ref, true, diags
	}
	}

	// no change triggered
	return nil, false, diags
	}

	// This must be an instances to have a remaining traversal, which means a
	// single change.
	change := changes[0]

	// Make sure the change is actionable. A create or delete action will have
	// a change in value, but are not valid for our purposes here.
	switch change.ChangeSrc.Action {
	case plans.Update, plans.DeleteThenCreate, plans.CreateThenDelete:
	// OK
	default:
	return nil, false, diags
	}

	// Since we have a traversal after the resource reference, we will need to
	// decode the changes, which means we need a schema.
	providerAddr := change.ProviderAddr
	schema, err := ctx.ProviderSchema(providerAddr)
	if err != nil {
	diags = diags.Append(err)
	return nil, false, diags
	}

	resAddr := change.Addr.ContainingResource().Resource
	resSchema, _ := schema.SchemaForResourceType(resAddr.Mode, resAddr.Type)
	ty := resSchema.ImpliedType()

	before, err := change.ChangeSrc.Before.Decode(ty)
	if err != nil {
	diags = diags.Append(err)
	return nil, false, diags
	}

	after, err := change.ChangeSrc.After.Decode(ty)
	if err != nil {
	diags = diags.Append(err)
	return nil, false, diags
	}

	path := traversalToPath(ref.Remaining)
	attrBefore, _ := path.Apply(before)
	attrAfter, _ := path.Apply(after)

	if attrBefore == cty.NilVal \|\| attrAfter == cty.NilVal {
	replace := attrBefore != attrAfter
	return ref, replace, diags
	}

	replace := !attrBefore.RawEquals(attrAfter)

	return ref, replace, diags
	}

	func (ctx BuiltinEvalContext) EvaluationScope(self addrs.Referenceable, source addrs.Referenceable, keyData InstanceKeyEvalData) lang.Scope {
	if !ctx.pathSet {
	panic("context path not set")
	}
	data := &evaluationStateData{
	Evaluator: ctx.Evaluator,
	ModulePath: ctx.PathValue,
	InstanceKeyData: keyData,
	Operation: ctx.Evaluator.Operation,
	}
	scope := ctx.Evaluator.Scope(data, self, source)

	// ctx.PathValue is the path of the module that contains whatever
	// expression the caller will be trying to evaluate, so this will
	// activate only the experiments from that particular module, to
	// be consistent with how experiment checking in the "configs"
	// package itself works. The nil check here is for robustness in
	// incompletely-mocked testing situations; mc should never be nil in
	// real situations.
	if mc := ctx.Evaluator.Config.DescendentForInstance(ctx.PathValue); mc != nil {
	scope.SetActiveExperiments(mc.Module.ActiveExperiments)
	}
	return scope
	}

	func (ctx *BuiltinEvalContext) Path() addrs.ModuleInstance {
	if !ctx.pathSet {
	panic("context path not set")
	}
	return ctx.PathValue
	}

	func (ctx *BuiltinEvalContext) SetRootModuleArgument(addr addrs.InputVariable, v cty.Value) {
	ctx.VariableValuesLock.Lock()
	defer ctx.VariableValuesLock.Unlock()

	log.Printf("[TRACE] BuiltinEvalContext: Storing final value for variable %s", addr.Absolute(addrs.RootModuleInstance))
	key := addrs.RootModuleInstance.String()
	args := ctx.VariableValues[key]
	if args == nil {
	args = make(map[string]cty.Value)
	ctx.VariableValues[key] = args
	}
	args[addr.Name] = v
	}

	func (ctx *BuiltinEvalContext) SetModuleCallArgument(callAddr addrs.ModuleCallInstance, varAddr addrs.InputVariable, v cty.Value) {
	ctx.VariableValuesLock.Lock()
	defer ctx.VariableValuesLock.Unlock()

	if !ctx.pathSet {
	panic("context path not set")
	}

	childPath := callAddr.ModuleInstance(ctx.PathValue)
	log.Printf("[TRACE] BuiltinEvalContext: Storing final value for variable %s", varAddr.Absolute(childPath))
	key := childPath.String()
	args := ctx.VariableValues[key]
	if args == nil {
	args = make(map[string]cty.Value)
	ctx.VariableValues[key] = args
	}
	args[varAddr.Name] = v
	}

	func (ctx *BuiltinEvalContext) GetVariableValue(addr addrs.AbsInputVariableInstance) cty.Value {
	ctx.VariableValuesLock.Lock()
	defer ctx.VariableValuesLock.Unlock()

	modKey := addr.Module.String()
	modVars := ctx.VariableValues[modKey]
	val, ok := modVars[addr.Variable.Name]
	if !ok {
	return cty.DynamicVal
	}
	return val
	}

	func (ctx BuiltinEvalContext) Changes() plans.ChangesSync {
	return ctx.ChangesValue
	}

	func (ctx BuiltinEvalContext) State() states.SyncState {
	return ctx.StateValue
	}

	func (ctx BuiltinEvalContext) Checks() checks.State {
	return ctx.ChecksValue
	}

	func (ctx BuiltinEvalContext) RefreshState() states.SyncState {
	return ctx.RefreshStateValue
	}

	func (ctx BuiltinEvalContext) PrevRunState() states.SyncState {
	return ctx.PrevRunStateValue
	}

	func (ctx BuiltinEvalContext) InstanceExpander() instances.Expander {
	return ctx.InstanceExpanderValue
	}

	func (ctx *BuiltinEvalContext) MoveResults() refactoring.MoveResults {
	return ctx.MoveResultsValue
	}