v1.2.3/internal/configs/configschema/marks.go - terraform - Git at Google

 package configschema

 import (
 	"fmt"

 	"github.com/hashicorp/terraform/internal/lang/marks"
 	"github.com/zclconf/go-cty/cty"
 )

 // ValueMarks returns a set of path value marks for a given value and path,
 // based on the sensitive flag for each attribute within the schema. Nested
 // blocks are descended (if present in the given value).
 func (b *Block) ValueMarks(val cty.Value, path cty.Path) []cty.PathValueMarks {
 	var pvm []cty.PathValueMarks

 	// We can mark attributes as sensitive even if the value is null
 	for name, attrS := range b.Attributes {
 		if attrS.Sensitive {
 			// Create a copy of the path, with this step added, to add to our PathValueMarks slice
 			attrPath := make(cty.Path, len(path), len(path)+1)
 			copy(attrPath, path)
 			attrPath = append(path, cty.GetAttrStep{Name: name})
 			pvm = append(pvm, cty.PathValueMarks{
 				Path:  attrPath,
 				Marks: cty.NewValueMarks(marks.Sensitive),
 			})
 		}
 	}

 	// If the value is null, no other marks are possible
 	if val.IsNull() {
 		return pvm
 	}

 	// Extract marks for nested attribute type values
 	for name, attrS := range b.Attributes {
 		// If the attribute has no nested type, or the nested type doesn't
 		// contain any sensitive attributes, skip inspecting it
 		if attrS.NestedType == nil || !attrS.NestedType.ContainsSensitive() {
 			continue
 		}

 		// Create a copy of the path, with this step added, to add to our PathValueMarks slice
 		attrPath := make(cty.Path, len(path), len(path)+1)
 		copy(attrPath, path)
 		attrPath = append(path, cty.GetAttrStep{Name: name})

 		pvm = append(pvm, attrS.NestedType.ValueMarks(val.GetAttr(name), attrPath)...)
 	}

 	// Extract marks for nested blocks
 	for name, blockS := range b.BlockTypes {
 		// If our block doesn't contain any sensitive attributes, skip inspecting it
 		if !blockS.Block.ContainsSensitive() {
 			continue
 		}

 		blockV := val.GetAttr(name)
 		if blockV.IsNull() || !blockV.IsKnown() {
 			continue
 		}

 		// Create a copy of the path, with this step added, to add to our PathValueMarks slice
 		blockPath := make(cty.Path, len(path), len(path)+1)
 		copy(blockPath, path)
 		blockPath = append(path, cty.GetAttrStep{Name: name})

 		switch blockS.Nesting {
 		case NestingSingle, NestingGroup:
 			pvm = append(pvm, blockS.Block.ValueMarks(blockV, blockPath)...)
 		case NestingList, NestingMap, NestingSet:
 			for it := blockV.ElementIterator(); it.Next(); {
 				idx, blockEV := it.Element()
 				morePaths := blockS.Block.ValueMarks(blockEV, append(blockPath, cty.IndexStep{Key: idx}))
 				pvm = append(pvm, morePaths...)
 			}
 		default:
 			panic(fmt.Sprintf("unsupported nesting mode %s", blockS.Nesting))
 		}
 	}
 	return pvm
 }

 // ValueMarks returns a set of path value marks for a given value and path,
 // based on the sensitive flag for each attribute within the nested attribute.
 // Attributes with nested types are descended (if present in the given value).
 func (o *Object) ValueMarks(val cty.Value, path cty.Path) []cty.PathValueMarks {
 	var pvm []cty.PathValueMarks

 	if val.IsNull() || !val.IsKnown() {
 		return pvm
 	}

 	for name, attrS := range o.Attributes {
 		// Skip attributes which can never produce sensitive path value marks
 		if !attrS.Sensitive && (attrS.NestedType == nil || !attrS.NestedType.ContainsSensitive()) {
 			continue
 		}

 		switch o.Nesting {
 		case NestingSingle, NestingGroup:
 			// Create a path to this attribute
 			attrPath := make(cty.Path, len(path), len(path)+1)
 			copy(attrPath, path)
 			attrPath = append(path, cty.GetAttrStep{Name: name})

 			if attrS.Sensitive {
 				// If the entire attribute is sensitive, mark it so
 				pvm = append(pvm, cty.PathValueMarks{
 					Path:  attrPath,
 					Marks: cty.NewValueMarks(marks.Sensitive),
 				})
 			} else {
 				// The attribute has a nested type which contains sensitive
 				// attributes, so recurse
 				pvm = append(pvm, attrS.NestedType.ValueMarks(val.GetAttr(name), attrPath)...)
 			}
 		case NestingList, NestingMap, NestingSet:
 			// For nested attribute types which have a non-single nesting mode,
 			// we add path value marks for each element of the collection
 			for it := val.ElementIterator(); it.Next(); {
 				idx, attrEV := it.Element()
 				attrV := attrEV.GetAttr(name)

 				// Create a path to this element of the attribute's collection. Note
 				// that the path is extended in opposite order to the iteration order
 				// of the loops: index into the collection, then the contained
 				// attribute name. This is because we have one type
 				// representing multiple collection elements.
 				attrPath := make(cty.Path, len(path), len(path)+2)
 				copy(attrPath, path)
 				attrPath = append(path, cty.IndexStep{Key: idx}, cty.GetAttrStep{Name: name})

 				if attrS.Sensitive {
 					// If the entire attribute is sensitive, mark it so
 					pvm = append(pvm, cty.PathValueMarks{
 						Path:  attrPath,
 						Marks: cty.NewValueMarks(marks.Sensitive),
 					})
 				} else {
 					// The attribute has a nested type which contains sensitive
 					// attributes, so recurse
 					pvm = append(pvm, attrS.NestedType.ValueMarks(attrV, attrPath)...)
 				}
 			}
 		default:
 			panic(fmt.Sprintf("unsupported nesting mode %s", attrS.NestedType.Nesting))
 		}
 	}
 	return pvm
 }
	package configschema

	import (
	"fmt"

	"github.com/hashicorp/terraform/internal/lang/marks"
	"github.com/zclconf/go-cty/cty"
	)

	// ValueMarks returns a set of path value marks for a given value and path,
	// based on the sensitive flag for each attribute within the schema. Nested
	// blocks are descended (if present in the given value).
	func (b *Block) ValueMarks(val cty.Value, path cty.Path) []cty.PathValueMarks {
	var pvm []cty.PathValueMarks

	// We can mark attributes as sensitive even if the value is null
	for name, attrS := range b.Attributes {
	if attrS.Sensitive {
	// Create a copy of the path, with this step added, to add to our PathValueMarks slice
	attrPath := make(cty.Path, len(path), len(path)+1)
	copy(attrPath, path)
	attrPath = append(path, cty.GetAttrStep{Name: name})
	pvm = append(pvm, cty.PathValueMarks{
	Path: attrPath,
	Marks: cty.NewValueMarks(marks.Sensitive),
	})
	}
	}

	// If the value is null, no other marks are possible
	if val.IsNull() {
	return pvm
	}

	// Extract marks for nested attribute type values
	for name, attrS := range b.Attributes {
	// If the attribute has no nested type, or the nested type doesn't
	// contain any sensitive attributes, skip inspecting it
	if attrS.NestedType == nil \|\| !attrS.NestedType.ContainsSensitive() {
	continue
	}

	// Create a copy of the path, with this step added, to add to our PathValueMarks slice
	attrPath := make(cty.Path, len(path), len(path)+1)
	copy(attrPath, path)
	attrPath = append(path, cty.GetAttrStep{Name: name})

	pvm = append(pvm, attrS.NestedType.ValueMarks(val.GetAttr(name), attrPath)...)
	}

	// Extract marks for nested blocks
	for name, blockS := range b.BlockTypes {
	// If our block doesn't contain any sensitive attributes, skip inspecting it
	if !blockS.Block.ContainsSensitive() {
	continue
	}

	blockV := val.GetAttr(name)
	if blockV.IsNull() \|\| !blockV.IsKnown() {
	continue
	}

	// Create a copy of the path, with this step added, to add to our PathValueMarks slice
	blockPath := make(cty.Path, len(path), len(path)+1)
	copy(blockPath, path)
	blockPath = append(path, cty.GetAttrStep{Name: name})

	switch blockS.Nesting {
	case NestingSingle, NestingGroup:
	pvm = append(pvm, blockS.Block.ValueMarks(blockV, blockPath)...)
	case NestingList, NestingMap, NestingSet:
	for it := blockV.ElementIterator(); it.Next(); {
	idx, blockEV := it.Element()
	morePaths := blockS.Block.ValueMarks(blockEV, append(blockPath, cty.IndexStep{Key: idx}))
	pvm = append(pvm, morePaths...)
	}
	default:
	panic(fmt.Sprintf("unsupported nesting mode %s", blockS.Nesting))
	}
	}
	return pvm
	}

	// ValueMarks returns a set of path value marks for a given value and path,
	// based on the sensitive flag for each attribute within the nested attribute.
	// Attributes with nested types are descended (if present in the given value).
	func (o *Object) ValueMarks(val cty.Value, path cty.Path) []cty.PathValueMarks {
	var pvm []cty.PathValueMarks

	if val.IsNull() \|\| !val.IsKnown() {
	return pvm
	}

	for name, attrS := range o.Attributes {
	// Skip attributes which can never produce sensitive path value marks
	if !attrS.Sensitive && (attrS.NestedType == nil \|\| !attrS.NestedType.ContainsSensitive()) {
	continue
	}

	switch o.Nesting {
	case NestingSingle, NestingGroup:
	// Create a path to this attribute
	attrPath := make(cty.Path, len(path), len(path)+1)
	copy(attrPath, path)
	attrPath = append(path, cty.GetAttrStep{Name: name})

	if attrS.Sensitive {
	// If the entire attribute is sensitive, mark it so
	pvm = append(pvm, cty.PathValueMarks{
	Path: attrPath,
	Marks: cty.NewValueMarks(marks.Sensitive),
	})
	} else {
	// The attribute has a nested type which contains sensitive
	// attributes, so recurse
	pvm = append(pvm, attrS.NestedType.ValueMarks(val.GetAttr(name), attrPath)...)
	}
	case NestingList, NestingMap, NestingSet:
	// For nested attribute types which have a non-single nesting mode,
	// we add path value marks for each element of the collection
	for it := val.ElementIterator(); it.Next(); {
	idx, attrEV := it.Element()
	attrV := attrEV.GetAttr(name)

	// Create a path to this element of the attribute's collection. Note
	// that the path is extended in opposite order to the iteration order
	// of the loops: index into the collection, then the contained
	// attribute name. This is because we have one type
	// representing multiple collection elements.
	attrPath := make(cty.Path, len(path), len(path)+2)
	copy(attrPath, path)
	attrPath = append(path, cty.IndexStep{Key: idx}, cty.GetAttrStep{Name: name})

	if attrS.Sensitive {
	// If the entire attribute is sensitive, mark it so
	pvm = append(pvm, cty.PathValueMarks{
	Path: attrPath,
	Marks: cty.NewValueMarks(marks.Sensitive),
	})
	} else {
	// The attribute has a nested type which contains sensitive
	// attributes, so recurse
	pvm = append(pvm, attrS.NestedType.ValueMarks(attrV, attrPath)...)
	}
	}
	default:
	panic(fmt.Sprintf("unsupported nesting mode %s", attrS.NestedType.Nesting))
	}
	}
	return pvm
	}