v1.5.7/internal/configs/hcl2shim/paths.go - terraform - Git at Google

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

 package hcl2shim

 import (
 	"fmt"
 	"reflect"
 	"strconv"
 	"strings"

 	"github.com/zclconf/go-cty/cty"
 )

 // RequiresReplace takes a list of flatmapped paths from a
 // InstanceDiff.Attributes along with the corresponding cty.Type, and returns
 // the list of the cty.Paths that are flagged as causing the resource
 // replacement (RequiresNew).
 // This will filter out redundant paths, paths that refer to flatmapped indexes
 // (e.g. "#", "%"), and will return any changes within a set as the path to the
 // set itself.
 func RequiresReplace(attrs []string, ty cty.Type) ([]cty.Path, error) {
 	var paths []cty.Path

 	for _, attr := range attrs {
 		p, err := requiresReplacePath(attr, ty)
 		if err != nil {
 			return nil, err
 		}

 		paths = append(paths, p)
 	}

 	// now trim off any trailing paths that aren't GetAttrSteps, since only an
 	// attribute itself can require replacement
 	paths = trimPaths(paths)

 	// There may be redundant paths due to set elements or index attributes
 	// Do some ugly n^2 filtering, but these are always fairly small sets.
 	for i := 0; i < len(paths)-1; i++ {
 		for j := i + 1; j < len(paths); j++ {
 			if reflect.DeepEqual(paths[i], paths[j]) {
 				// swap the tail and slice it off
 				paths[j], paths[len(paths)-1] = paths[len(paths)-1], paths[j]
 				paths = paths[:len(paths)-1]
 				j--
 			}
 		}
 	}

 	return paths, nil
 }

 // trimPaths removes any trailing steps that aren't of type GetAttrSet, since
 // only an attribute itself can require replacement
 func trimPaths(paths []cty.Path) []cty.Path {
 	var trimmed []cty.Path
 	for _, path := range paths {
 		path = trimPath(path)
 		if len(path) > 0 {
 			trimmed = append(trimmed, path)
 		}
 	}
 	return trimmed
 }

 func trimPath(path cty.Path) cty.Path {
 	for len(path) > 0 {
 		_, isGetAttr := path[len(path)-1].(cty.GetAttrStep)
 		if isGetAttr {
 			break
 		}
 		path = path[:len(path)-1]
 	}
 	return path
 }

 // requiresReplacePath takes a key from a flatmap along with the cty.Type
 // describing the structure, and returns the cty.Path that would be used to
 // reference the nested value in the data structure.
 // This is used specifically to record the RequiresReplace attributes from a
 // ResourceInstanceDiff.
 func requiresReplacePath(k string, ty cty.Type) (cty.Path, error) {
 	if k == "" {
 		return nil, nil
 	}
 	if !ty.IsObjectType() {
 		panic(fmt.Sprintf("requires replace path on non-object type: %#v", ty))
 	}

 	path, err := pathFromFlatmapKeyObject(k, ty.AttributeTypes())
 	if err != nil {
 		return path, fmt.Errorf("[%s] %s", k, err)
 	}
 	return path, nil
 }

 func pathSplit(p string) (string, string) {
 	parts := strings.SplitN(p, ".", 2)
 	head := parts[0]
 	rest := ""
 	if len(parts) > 1 {
 		rest = parts[1]
 	}
 	return head, rest
 }

 func pathFromFlatmapKeyObject(key string, atys map[string]cty.Type) (cty.Path, error) {
 	k, rest := pathSplit(key)

 	path := cty.Path{cty.GetAttrStep{Name: k}}

 	ty, ok := atys[k]
 	if !ok {
 		return path, fmt.Errorf("attribute %q not found", k)
 	}

 	if rest == "" {
 		return path, nil
 	}

 	p, err := pathFromFlatmapKeyValue(rest, ty)
 	if err != nil {
 		return path, err
 	}

 	return append(path, p...), nil
 }

 func pathFromFlatmapKeyValue(key string, ty cty.Type) (cty.Path, error) {
 	var path cty.Path
 	var err error

 	switch {
 	case ty.IsPrimitiveType():
 		err = fmt.Errorf("invalid step %q with type %#v", key, ty)
 	case ty.IsObjectType():
 		path, err = pathFromFlatmapKeyObject(key, ty.AttributeTypes())
 	case ty.IsTupleType():
 		path, err = pathFromFlatmapKeyTuple(key, ty.TupleElementTypes())
 	case ty.IsMapType():
 		path, err = pathFromFlatmapKeyMap(key, ty)
 	case ty.IsListType():
 		path, err = pathFromFlatmapKeyList(key, ty)
 	case ty.IsSetType():
 		path, err = pathFromFlatmapKeySet(key, ty)
 	default:
 		err = fmt.Errorf("unrecognized type: %s", ty.FriendlyName())
 	}

 	if err != nil {
 		return path, err
 	}

 	return path, nil
 }

 func pathFromFlatmapKeyTuple(key string, etys []cty.Type) (cty.Path, error) {
 	var path cty.Path
 	var err error

 	k, rest := pathSplit(key)

 	// we don't need to convert the index keys to paths
 	if k == "#" {
 		return path, nil
 	}

 	idx, err := strconv.Atoi(k)
 	if err != nil {
 		return path, err
 	}

 	path = cty.Path{cty.IndexStep{Key: cty.NumberIntVal(int64(idx))}}

 	if idx >= len(etys) {
 		return path, fmt.Errorf("index %s out of range in %#v", key, etys)
 	}

 	if rest == "" {
 		return path, nil
 	}

 	ty := etys[idx]

 	p, err := pathFromFlatmapKeyValue(rest, ty.ElementType())
 	if err != nil {
 		return path, err
 	}

 	return append(path, p...), nil
 }

 func pathFromFlatmapKeyMap(key string, ty cty.Type) (cty.Path, error) {
 	var path cty.Path
 	var err error

 	k, rest := key, ""
 	if !ty.ElementType().IsPrimitiveType() {
 		k, rest = pathSplit(key)
 	}

 	// we don't need to convert the index keys to paths
 	if k == "%" {
 		return path, nil
 	}

 	path = cty.Path{cty.IndexStep{Key: cty.StringVal(k)}}

 	if rest == "" {
 		return path, nil
 	}

 	p, err := pathFromFlatmapKeyValue(rest, ty.ElementType())
 	if err != nil {
 		return path, err
 	}

 	return append(path, p...), nil
 }

 func pathFromFlatmapKeyList(key string, ty cty.Type) (cty.Path, error) {
 	var path cty.Path
 	var err error

 	k, rest := pathSplit(key)

 	// we don't need to convert the index keys to paths
 	if key == "#" {
 		return path, nil
 	}

 	idx, err := strconv.Atoi(k)
 	if err != nil {
 		return path, err
 	}

 	path = cty.Path{cty.IndexStep{Key: cty.NumberIntVal(int64(idx))}}

 	if rest == "" {
 		return path, nil
 	}

 	p, err := pathFromFlatmapKeyValue(rest, ty.ElementType())
 	if err != nil {
 		return path, err
 	}

 	return append(path, p...), nil
 }

 func pathFromFlatmapKeySet(key string, ty cty.Type) (cty.Path, error) {
 	// once we hit a set, we can't return consistent paths, so just mark the
 	// set as a whole changed.
 	return nil, nil
 }

 // FlatmapKeyFromPath returns the flatmap equivalent of the given cty.Path for
 // use in generating legacy style diffs.
 func FlatmapKeyFromPath(path cty.Path) string {
 	var parts []string

 	for _, step := range path {
 		switch step := step.(type) {
 		case cty.GetAttrStep:
 			parts = append(parts, step.Name)
 		case cty.IndexStep:
 			switch ty := step.Key.Type(); {
 			case ty == cty.String:
 				parts = append(parts, step.Key.AsString())
 			case ty == cty.Number:
 				i, _ := step.Key.AsBigFloat().Int64()
 				parts = append(parts, strconv.Itoa(int(i)))
 			}
 		}
 	}

 	return strings.Join(parts, ".")
 }
	// Copyright (c) HashiCorp, Inc.
	// SPDX-License-Identifier: MPL-2.0

	package hcl2shim

	import (
	"fmt"
	"reflect"
	"strconv"
	"strings"

	"github.com/zclconf/go-cty/cty"
	)

	// RequiresReplace takes a list of flatmapped paths from a
	// InstanceDiff.Attributes along with the corresponding cty.Type, and returns
	// the list of the cty.Paths that are flagged as causing the resource
	// replacement (RequiresNew).
	// This will filter out redundant paths, paths that refer to flatmapped indexes
	// (e.g. "#", "%"), and will return any changes within a set as the path to the
	// set itself.
	func RequiresReplace(attrs []string, ty cty.Type) ([]cty.Path, error) {
	var paths []cty.Path

	for _, attr := range attrs {
	p, err := requiresReplacePath(attr, ty)
	if err != nil {
	return nil, err
	}

	paths = append(paths, p)
	}

	// now trim off any trailing paths that aren't GetAttrSteps, since only an
	// attribute itself can require replacement
	paths = trimPaths(paths)

	// There may be redundant paths due to set elements or index attributes
	// Do some ugly n^2 filtering, but these are always fairly small sets.
	for i := 0; i < len(paths)-1; i++ {
	for j := i + 1; j < len(paths); j++ {
	if reflect.DeepEqual(paths[i], paths[j]) {
	// swap the tail and slice it off
	paths[j], paths[len(paths)-1] = paths[len(paths)-1], paths[j]
	paths = paths[:len(paths)-1]
	j--
	}
	}
	}

	return paths, nil
	}

	// trimPaths removes any trailing steps that aren't of type GetAttrSet, since
	// only an attribute itself can require replacement
	func trimPaths(paths []cty.Path) []cty.Path {
	var trimmed []cty.Path
	for _, path := range paths {
	path = trimPath(path)
	if len(path) > 0 {
	trimmed = append(trimmed, path)
	}
	}
	return trimmed
	}

	func trimPath(path cty.Path) cty.Path {
	for len(path) > 0 {
	_, isGetAttr := path[len(path)-1].(cty.GetAttrStep)
	if isGetAttr {
	break
	}
	path = path[:len(path)-1]
	}
	return path
	}

	// requiresReplacePath takes a key from a flatmap along with the cty.Type
	// describing the structure, and returns the cty.Path that would be used to
	// reference the nested value in the data structure.
	// This is used specifically to record the RequiresReplace attributes from a
	// ResourceInstanceDiff.
	func requiresReplacePath(k string, ty cty.Type) (cty.Path, error) {
	if k == "" {
	return nil, nil
	}
	if !ty.IsObjectType() {
	panic(fmt.Sprintf("requires replace path on non-object type: %#v", ty))
	}

	path, err := pathFromFlatmapKeyObject(k, ty.AttributeTypes())
	if err != nil {
	return path, fmt.Errorf("[%s] %s", k, err)
	}
	return path, nil
	}

	func pathSplit(p string) (string, string) {
	parts := strings.SplitN(p, ".", 2)
	head := parts[0]
	rest := ""
	if len(parts) > 1 {
	rest = parts[1]
	}
	return head, rest
	}

	func pathFromFlatmapKeyObject(key string, atys map[string]cty.Type) (cty.Path, error) {
	k, rest := pathSplit(key)

	path := cty.Path{cty.GetAttrStep{Name: k}}

	ty, ok := atys[k]
	if !ok {
	return path, fmt.Errorf("attribute %q not found", k)
	}

	if rest == "" {
	return path, nil
	}

	p, err := pathFromFlatmapKeyValue(rest, ty)
	if err != nil {
	return path, err
	}

	return append(path, p...), nil
	}

	func pathFromFlatmapKeyValue(key string, ty cty.Type) (cty.Path, error) {
	var path cty.Path
	var err error

	switch {
	case ty.IsPrimitiveType():
	err = fmt.Errorf("invalid step %q with type %#v", key, ty)
	case ty.IsObjectType():
	path, err = pathFromFlatmapKeyObject(key, ty.AttributeTypes())
	case ty.IsTupleType():
	path, err = pathFromFlatmapKeyTuple(key, ty.TupleElementTypes())
	case ty.IsMapType():
	path, err = pathFromFlatmapKeyMap(key, ty)
	case ty.IsListType():
	path, err = pathFromFlatmapKeyList(key, ty)
	case ty.IsSetType():
	path, err = pathFromFlatmapKeySet(key, ty)
	default:
	err = fmt.Errorf("unrecognized type: %s", ty.FriendlyName())
	}

	if err != nil {
	return path, err
	}

	return path, nil
	}

	func pathFromFlatmapKeyTuple(key string, etys []cty.Type) (cty.Path, error) {
	var path cty.Path
	var err error

	k, rest := pathSplit(key)

	// we don't need to convert the index keys to paths
	if k == "#" {
	return path, nil
	}

	idx, err := strconv.Atoi(k)
	if err != nil {
	return path, err
	}

	path = cty.Path{cty.IndexStep{Key: cty.NumberIntVal(int64(idx))}}

	if idx >= len(etys) {
	return path, fmt.Errorf("index %s out of range in %#v", key, etys)
	}

	if rest == "" {
	return path, nil
	}

	ty := etys[idx]

	p, err := pathFromFlatmapKeyValue(rest, ty.ElementType())
	if err != nil {
	return path, err
	}

	return append(path, p...), nil
	}

	func pathFromFlatmapKeyMap(key string, ty cty.Type) (cty.Path, error) {
	var path cty.Path
	var err error

	k, rest := key, ""
	if !ty.ElementType().IsPrimitiveType() {
	k, rest = pathSplit(key)
	}

	// we don't need to convert the index keys to paths
	if k == "%" {
	return path, nil
	}

	path = cty.Path{cty.IndexStep{Key: cty.StringVal(k)}}

	if rest == "" {
	return path, nil
	}

	p, err := pathFromFlatmapKeyValue(rest, ty.ElementType())
	if err != nil {
	return path, err
	}

	return append(path, p...), nil
	}

	func pathFromFlatmapKeyList(key string, ty cty.Type) (cty.Path, error) {
	var path cty.Path
	var err error

	k, rest := pathSplit(key)

	// we don't need to convert the index keys to paths
	if key == "#" {
	return path, nil
	}

	idx, err := strconv.Atoi(k)
	if err != nil {
	return path, err
	}

	path = cty.Path{cty.IndexStep{Key: cty.NumberIntVal(int64(idx))}}

	if rest == "" {
	return path, nil
	}

	p, err := pathFromFlatmapKeyValue(rest, ty.ElementType())
	if err != nil {
	return path, err
	}

	return append(path, p...), nil
	}

	func pathFromFlatmapKeySet(key string, ty cty.Type) (cty.Path, error) {
	// once we hit a set, we can't return consistent paths, so just mark the
	// set as a whole changed.
	return nil, nil
	}

	// FlatmapKeyFromPath returns the flatmap equivalent of the given cty.Path for
	// use in generating legacy style diffs.
	func FlatmapKeyFromPath(path cty.Path) string {
	var parts []string

	for _, step := range path {
	switch step := step.(type) {
	case cty.GetAttrStep:
	parts = append(parts, step.Name)
	case cty.IndexStep:
	switch ty := step.Key.Type(); {
	case ty == cty.String:
	parts = append(parts, step.Key.AsString())
	case ty == cty.Number:
	i, _ := step.Key.AsBigFloat().Int64()
	parts = append(parts, strconv.Itoa(int(i)))
	}
	}
	}

	return strings.Join(parts, ".")
	}