v1.5.7/internal/command/jsonformat/structured/change.go - terraform - Git at Google

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

 package structured

 import (
 	"encoding/json"
 	"reflect"

 	"github.com/hashicorp/terraform/internal/command/jsonformat/structured/attribute_path"
 	"github.com/hashicorp/terraform/internal/command/jsonplan"
 	"github.com/hashicorp/terraform/internal/command/jsonstate"
 	viewsjson "github.com/hashicorp/terraform/internal/command/views/json"
 	"github.com/hashicorp/terraform/internal/plans"
 )

 // Change contains the unmarshalled generic interface{} types that are output by
 // the JSON functions in the various json packages (such as jsonplan and
 // jsonprovider).
 //
 // A Change can be converted into a computed.Diff, ready for rendering, with the
 // ComputeDiffForAttribute, ComputeDiffForOutput, and ComputeDiffForBlock
 // functions.
 //
 // The Before and After fields are actually go-cty values, but we cannot convert
 // them directly because of the Terraform Cloud redacted endpoint. The redacted
 // endpoint turns sensitive values into strings regardless of their types.
 // Because of this, we cannot just do a direct conversion using the ctyjson
 // package. We would have to iterate through the schema first, find the
 // sensitive values and their mapped types, update the types inside the schema
 // to strings, and then go back and do the overall conversion. This isn't
 // including any of the more complicated parts around what happens if something
 // was sensitive before and isn't sensitive after or vice versa. This would mean
 // the type would need to change between the before and after value. It is in
 // fact just easier to iterate through the values as generic JSON interfaces.
 type Change struct {

 	// BeforeExplicit matches AfterExplicit except references the Before value.
 	BeforeExplicit bool

 	// AfterExplicit refers to whether the After value is explicit or
 	// implicit. It is explicit if it has been specified by the user, and
 	// implicit if it has been set as a consequence of other changes.
 	//
 	// For example, explicitly setting a value to null in a list should result
 	// in After being null and AfterExplicit being true. In comparison,
 	// removing an element from a list should also result in After being null
 	// and AfterExplicit being false. Without the explicit information our
 	// functions would not be able to tell the difference between these two
 	// cases.
 	AfterExplicit bool

 	// Before contains the value before the proposed change.
 	//
 	// The type of the value should be informed by the schema and cast
 	// appropriately when needed.
 	Before interface{}

 	// After contains the value after the proposed change.
 	//
 	// The type of the value should be informed by the schema and cast
 	// appropriately when needed.
 	After interface{}

 	// Unknown describes whether the After value is known or unknown at the time
 	// of the plan. In practice, this means the after value should be rendered
 	// simply as `(known after apply)`.
 	//
 	// The concrete value could be a boolean describing whether the entirety of
 	// the After value is unknown, or it could be a list or a map depending on
 	// the schema describing whether specific elements or attributes within the
 	// value are unknown.
 	Unknown interface{}

 	// BeforeSensitive matches Unknown, but references whether the Before value
 	// is sensitive.
 	BeforeSensitive interface{}

 	// AfterSensitive matches Unknown, but references whether the After value is
 	// sensitive.
 	AfterSensitive interface{}

 	// ReplacePaths contains a set of paths that point to attributes/elements
 	// that are causing the overall resource to be replaced rather than simply
 	// updated.
 	ReplacePaths attribute_path.Matcher

 	// RelevantAttributes contains a set of paths that point attributes/elements
 	// that we should display. Any element/attribute not matched by this Matcher
 	// should be skipped.
 	RelevantAttributes attribute_path.Matcher
 }

 // FromJsonChange unmarshals the raw []byte values in the jsonplan.Change
 // structs into generic interface{} types that can be reasoned about.
 func FromJsonChange(change jsonplan.Change, relevantAttributes attribute_path.Matcher) Change {
 	return Change{
 		Before:             unmarshalGeneric(change.Before),
 		After:              unmarshalGeneric(change.After),
 		Unknown:            unmarshalGeneric(change.AfterUnknown),
 		BeforeSensitive:    unmarshalGeneric(change.BeforeSensitive),
 		AfterSensitive:     unmarshalGeneric(change.AfterSensitive),
 		ReplacePaths:       attribute_path.Parse(change.ReplacePaths, false),
 		RelevantAttributes: relevantAttributes,
 	}
 }

 // FromJsonResource unmarshals the raw values in the jsonstate.Resource structs
 // into generic interface{} types that can be reasoned about.
 func FromJsonResource(resource jsonstate.Resource) Change {
 	return Change{
 		// We model resource formatting as NoOps.
 		Before: unwrapAttributeValues(resource.AttributeValues),
 		After:  unwrapAttributeValues(resource.AttributeValues),

 		// We have some sensitive values, but we don't have any unknown values.
 		Unknown:         false,
 		BeforeSensitive: unmarshalGeneric(resource.SensitiveValues),
 		AfterSensitive:  unmarshalGeneric(resource.SensitiveValues),

 		// We don't display replacement data for resources, and all attributes
 		// are relevant.
 		ReplacePaths:       attribute_path.Empty(false),
 		RelevantAttributes: attribute_path.AlwaysMatcher(),
 	}
 }

 // FromJsonOutput unmarshals the raw values in the jsonstate.Output structs into
 // generic interface{} types that can be reasoned about.
 func FromJsonOutput(output jsonstate.Output) Change {
 	return Change{
 		// We model resource formatting as NoOps.
 		Before: unmarshalGeneric(output.Value),
 		After:  unmarshalGeneric(output.Value),

 		// We have some sensitive values, but we don't have any unknown values.
 		Unknown:         false,
 		BeforeSensitive: output.Sensitive,
 		AfterSensitive:  output.Sensitive,

 		// We don't display replacement data for resources, and all attributes
 		// are relevant.
 		ReplacePaths:       attribute_path.Empty(false),
 		RelevantAttributes: attribute_path.AlwaysMatcher(),
 	}
 }

 // FromJsonViewsOutput unmarshals the raw values in the viewsjson.Output structs into
 // generic interface{} types that can be reasoned about.
 func FromJsonViewsOutput(output viewsjson.Output) Change {
 	return Change{
 		// We model resource formatting as NoOps.
 		Before: unmarshalGeneric(output.Value),
 		After:  unmarshalGeneric(output.Value),

 		// We have some sensitive values, but we don't have any unknown values.
 		Unknown:         false,
 		BeforeSensitive: output.Sensitive,
 		AfterSensitive:  output.Sensitive,

 		// We don't display replacement data for resources, and all attributes
 		// are relevant.
 		ReplacePaths:       attribute_path.Empty(false),
 		RelevantAttributes: attribute_path.AlwaysMatcher(),
 	}
 }

 // CalculateAction does a very simple analysis to make the best guess at the
 // action this change describes. For complex types such as objects, maps, lists,
 // or sets it is likely more efficient to work out the action directly instead
 // of relying on this function.
 func (change Change) CalculateAction() plans.Action {
 	if (change.Before == nil && !change.BeforeExplicit) && (change.After != nil || change.AfterExplicit) {
 		return plans.Create
 	}
 	if (change.After == nil && !change.AfterExplicit) && (change.Before != nil || change.BeforeExplicit) {
 		return plans.Delete
 	}

 	if reflect.DeepEqual(change.Before, change.After) && change.AfterExplicit == change.BeforeExplicit && change.IsAfterSensitive() == change.IsBeforeSensitive() {
 		return plans.NoOp
 	}

 	return plans.Update
 }

 // GetDefaultActionForIteration is used to guess what the change could be for
 // complex attributes (collections and objects) and blocks.
 //
 // You can't really tell the difference between a NoOp and an Update just by
 // looking at the attribute itself as you need to inspect the children.
 //
 // This function returns a Delete or a Create action if the before or after
 // values were null, and returns a NoOp for all other cases. It should be used
 // in conjunction with compareActions to calculate the actual action based on
 // the actions of the children.
 func (change Change) GetDefaultActionForIteration() plans.Action {
 	if change.Before == nil && change.After == nil {
 		return plans.NoOp
 	}

 	if change.Before == nil {
 		return plans.Create
 	}
 	if change.After == nil {
 		return plans.Delete
 	}
 	return plans.NoOp
 }

 // AsNoOp returns the current change as if it is a NoOp operation.
 //
 // Basically it replaces all the after values with the before values.
 func (change Change) AsNoOp() Change {
 	return Change{
 		BeforeExplicit:     change.BeforeExplicit,
 		AfterExplicit:      change.BeforeExplicit,
 		Before:             change.Before,
 		After:              change.Before,
 		Unknown:            false,
 		BeforeSensitive:    change.BeforeSensitive,
 		AfterSensitive:     change.BeforeSensitive,
 		ReplacePaths:       change.ReplacePaths,
 		RelevantAttributes: change.RelevantAttributes,
 	}
 }

 // AsDelete returns the current change as if it is a Delete operation.
 //
 // Basically it replaces all the after values with nil or false.
 func (change Change) AsDelete() Change {
 	return Change{
 		BeforeExplicit:     change.BeforeExplicit,
 		AfterExplicit:      false,
 		Before:             change.Before,
 		After:              nil,
 		Unknown:            nil,
 		BeforeSensitive:    change.BeforeSensitive,
 		AfterSensitive:     nil,
 		ReplacePaths:       change.ReplacePaths,
 		RelevantAttributes: change.RelevantAttributes,
 	}
 }

 // AsCreate returns the current change as if it is a Create operation.
 //
 // Basically it replaces all the before values with nil or false.
 func (change Change) AsCreate() Change {
 	return Change{
 		BeforeExplicit:     false,
 		AfterExplicit:      change.AfterExplicit,
 		Before:             nil,
 		After:              change.After,
 		Unknown:            change.Unknown,
 		BeforeSensitive:    nil,
 		AfterSensitive:     change.AfterSensitive,
 		ReplacePaths:       change.ReplacePaths,
 		RelevantAttributes: change.RelevantAttributes,
 	}
 }

 func unmarshalGeneric(raw json.RawMessage) interface{} {
 	if raw == nil {
 		return nil
 	}

 	var out interface{}
 	if err := json.Unmarshal(raw, &out); err != nil {
 		panic("unrecognized json type: " + err.Error())
 	}
 	return out
 }

 func unwrapAttributeValues(values jsonstate.AttributeValues) map[string]interface{} {
 	out := make(map[string]interface{})
 	for key, value := range values {
 		out[key] = unmarshalGeneric(value)
 	}
 	return out
 }
	// Copyright (c) HashiCorp, Inc.
	// SPDX-License-Identifier: MPL-2.0

	package structured

	import (
	"encoding/json"
	"reflect"

	"github.com/hashicorp/terraform/internal/command/jsonformat/structured/attribute_path"
	"github.com/hashicorp/terraform/internal/command/jsonplan"
	"github.com/hashicorp/terraform/internal/command/jsonstate"
	viewsjson "github.com/hashicorp/terraform/internal/command/views/json"
	"github.com/hashicorp/terraform/internal/plans"
	)

	// Change contains the unmarshalled generic interface{} types that are output by
	// the JSON functions in the various json packages (such as jsonplan and
	// jsonprovider).
	//
	// A Change can be converted into a computed.Diff, ready for rendering, with the
	// ComputeDiffForAttribute, ComputeDiffForOutput, and ComputeDiffForBlock
	// functions.
	//
	// The Before and After fields are actually go-cty values, but we cannot convert
	// them directly because of the Terraform Cloud redacted endpoint. The redacted
	// endpoint turns sensitive values into strings regardless of their types.
	// Because of this, we cannot just do a direct conversion using the ctyjson
	// package. We would have to iterate through the schema first, find the
	// sensitive values and their mapped types, update the types inside the schema
	// to strings, and then go back and do the overall conversion. This isn't
	// including any of the more complicated parts around what happens if something
	// was sensitive before and isn't sensitive after or vice versa. This would mean
	// the type would need to change between the before and after value. It is in
	// fact just easier to iterate through the values as generic JSON interfaces.
	type Change struct {

	// BeforeExplicit matches AfterExplicit except references the Before value.
	BeforeExplicit bool

	// AfterExplicit refers to whether the After value is explicit or
	// implicit. It is explicit if it has been specified by the user, and
	// implicit if it has been set as a consequence of other changes.
	//
	// For example, explicitly setting a value to null in a list should result
	// in After being null and AfterExplicit being true. In comparison,
	// removing an element from a list should also result in After being null
	// and AfterExplicit being false. Without the explicit information our
	// functions would not be able to tell the difference between these two
	// cases.
	AfterExplicit bool

	// Before contains the value before the proposed change.
	//
	// The type of the value should be informed by the schema and cast
	// appropriately when needed.
	Before interface{}

	// After contains the value after the proposed change.
	//
	// The type of the value should be informed by the schema and cast
	// appropriately when needed.
	After interface{}

	// Unknown describes whether the After value is known or unknown at the time
	// of the plan. In practice, this means the after value should be rendered
	// simply as `(known after apply)`.
	//
	// The concrete value could be a boolean describing whether the entirety of
	// the After value is unknown, or it could be a list or a map depending on
	// the schema describing whether specific elements or attributes within the
	// value are unknown.
	Unknown interface{}

	// BeforeSensitive matches Unknown, but references whether the Before value
	// is sensitive.
	BeforeSensitive interface{}

	// AfterSensitive matches Unknown, but references whether the After value is
	// sensitive.
	AfterSensitive interface{}

	// ReplacePaths contains a set of paths that point to attributes/elements
	// that are causing the overall resource to be replaced rather than simply
	// updated.
	ReplacePaths attribute_path.Matcher

	// RelevantAttributes contains a set of paths that point attributes/elements
	// that we should display. Any element/attribute not matched by this Matcher
	// should be skipped.
	RelevantAttributes attribute_path.Matcher
	}

	// FromJsonChange unmarshals the raw []byte values in the jsonplan.Change
	// structs into generic interface{} types that can be reasoned about.
	func FromJsonChange(change jsonplan.Change, relevantAttributes attribute_path.Matcher) Change {
	return Change{
	Before: unmarshalGeneric(change.Before),
	After: unmarshalGeneric(change.After),
	Unknown: unmarshalGeneric(change.AfterUnknown),
	BeforeSensitive: unmarshalGeneric(change.BeforeSensitive),
	AfterSensitive: unmarshalGeneric(change.AfterSensitive),
	ReplacePaths: attribute_path.Parse(change.ReplacePaths, false),
	RelevantAttributes: relevantAttributes,
	}
	}

	// FromJsonResource unmarshals the raw values in the jsonstate.Resource structs
	// into generic interface{} types that can be reasoned about.
	func FromJsonResource(resource jsonstate.Resource) Change {
	return Change{
	// We model resource formatting as NoOps.
	Before: unwrapAttributeValues(resource.AttributeValues),
	After: unwrapAttributeValues(resource.AttributeValues),

	// We have some sensitive values, but we don't have any unknown values.
	Unknown: false,
	BeforeSensitive: unmarshalGeneric(resource.SensitiveValues),
	AfterSensitive: unmarshalGeneric(resource.SensitiveValues),

	// We don't display replacement data for resources, and all attributes
	// are relevant.
	ReplacePaths: attribute_path.Empty(false),
	RelevantAttributes: attribute_path.AlwaysMatcher(),
	}
	}

	// FromJsonOutput unmarshals the raw values in the jsonstate.Output structs into
	// generic interface{} types that can be reasoned about.
	func FromJsonOutput(output jsonstate.Output) Change {
	return Change{
	// We model resource formatting as NoOps.
	Before: unmarshalGeneric(output.Value),
	After: unmarshalGeneric(output.Value),

	// We have some sensitive values, but we don't have any unknown values.
	Unknown: false,
	BeforeSensitive: output.Sensitive,
	AfterSensitive: output.Sensitive,

	// We don't display replacement data for resources, and all attributes
	// are relevant.
	ReplacePaths: attribute_path.Empty(false),
	RelevantAttributes: attribute_path.AlwaysMatcher(),
	}
	}

	// FromJsonViewsOutput unmarshals the raw values in the viewsjson.Output structs into
	// generic interface{} types that can be reasoned about.
	func FromJsonViewsOutput(output viewsjson.Output) Change {
	return Change{
	// We model resource formatting as NoOps.
	Before: unmarshalGeneric(output.Value),
	After: unmarshalGeneric(output.Value),

	// We have some sensitive values, but we don't have any unknown values.
	Unknown: false,
	BeforeSensitive: output.Sensitive,
	AfterSensitive: output.Sensitive,

	// We don't display replacement data for resources, and all attributes
	// are relevant.
	ReplacePaths: attribute_path.Empty(false),
	RelevantAttributes: attribute_path.AlwaysMatcher(),
	}
	}

	// CalculateAction does a very simple analysis to make the best guess at the
	// action this change describes. For complex types such as objects, maps, lists,
	// or sets it is likely more efficient to work out the action directly instead
	// of relying on this function.
	func (change Change) CalculateAction() plans.Action {
	if (change.Before == nil && !change.BeforeExplicit) && (change.After != nil \|\| change.AfterExplicit) {
	return plans.Create
	}
	if (change.After == nil && !change.AfterExplicit) && (change.Before != nil \|\| change.BeforeExplicit) {
	return plans.Delete
	}

	if reflect.DeepEqual(change.Before, change.After) && change.AfterExplicit == change.BeforeExplicit && change.IsAfterSensitive() == change.IsBeforeSensitive() {
	return plans.NoOp
	}

	return plans.Update
	}

	// GetDefaultActionForIteration is used to guess what the change could be for
	// complex attributes (collections and objects) and blocks.
	//
	// You can't really tell the difference between a NoOp and an Update just by
	// looking at the attribute itself as you need to inspect the children.
	//
	// This function returns a Delete or a Create action if the before or after
	// values were null, and returns a NoOp for all other cases. It should be used
	// in conjunction with compareActions to calculate the actual action based on
	// the actions of the children.
	func (change Change) GetDefaultActionForIteration() plans.Action {
	if change.Before == nil && change.After == nil {
	return plans.NoOp
	}

	if change.Before == nil {
	return plans.Create
	}
	if change.After == nil {
	return plans.Delete
	}
	return plans.NoOp
	}

	// AsNoOp returns the current change as if it is a NoOp operation.
	//
	// Basically it replaces all the after values with the before values.
	func (change Change) AsNoOp() Change {
	return Change{
	BeforeExplicit: change.BeforeExplicit,
	AfterExplicit: change.BeforeExplicit,
	Before: change.Before,
	After: change.Before,
	Unknown: false,
	BeforeSensitive: change.BeforeSensitive,
	AfterSensitive: change.BeforeSensitive,
	ReplacePaths: change.ReplacePaths,
	RelevantAttributes: change.RelevantAttributes,
	}
	}

	// AsDelete returns the current change as if it is a Delete operation.
	//
	// Basically it replaces all the after values with nil or false.
	func (change Change) AsDelete() Change {
	return Change{
	BeforeExplicit: change.BeforeExplicit,
	AfterExplicit: false,
	Before: change.Before,
	After: nil,
	Unknown: nil,
	BeforeSensitive: change.BeforeSensitive,
	AfterSensitive: nil,
	ReplacePaths: change.ReplacePaths,
	RelevantAttributes: change.RelevantAttributes,
	}
	}

	// AsCreate returns the current change as if it is a Create operation.
	//
	// Basically it replaces all the before values with nil or false.
	func (change Change) AsCreate() Change {
	return Change{
	BeforeExplicit: false,
	AfterExplicit: change.AfterExplicit,
	Before: nil,
	After: change.After,
	Unknown: change.Unknown,
	BeforeSensitive: nil,
	AfterSensitive: change.AfterSensitive,
	ReplacePaths: change.ReplacePaths,
	RelevantAttributes: change.RelevantAttributes,
	}
	}

	func unmarshalGeneric(raw json.RawMessage) interface{} {
	if raw == nil {
	return nil
	}

	var out interface{}
	if err := json.Unmarshal(raw, &out); err != nil {
	panic("unrecognized json type: " + err.Error())
	}
	return out
	}

	func unwrapAttributeValues(values jsonstate.AttributeValues) map[string]interface{} {
	out := make(map[string]interface{})
	for key, value := range values {
	out[key] = unmarshalGeneric(value)
	}
	return out
	}