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hcl/hcl/json/structure.go

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package json
import (
"fmt"
"github.com/hashicorp/hcl2/hcl/hclsyntax"
"github.com/hashicorp/hcl2/hcl"
"github.com/zclconf/go-cty/cty"
)
// body is the implementation of "Body" used for files processed with the JSON
// parser.
type body struct {
obj *objectVal
// If non-nil, the keys of this map cause the corresponding attributes to
// be treated as non-existing. This is used when Body.PartialContent is
// called, to produce the "remaining content" Body.
hiddenAttrs map[string]struct{}
// If set, string values are turned into expressions using HIL's template
// language, rather than the native zcl language. This is intended to
// allow applications moving from HCL to zcl to continue to parse the
// JSON variant of their config that HCL handled previously.
useHIL bool
}
// expression is the implementation of "Expression" used for files processed
// with the JSON parser.
type expression struct {
src node
}
func (b *body) Content(schema *hcl.BodySchema) (*hcl.BodyContent, hcl.Diagnostics) {
content, newBody, diags := b.PartialContent(schema)
hiddenAttrs := newBody.(*body).hiddenAttrs
var nameSuggestions []string
for _, attrS := range schema.Attributes {
if _, ok := hiddenAttrs[attrS.Name]; !ok {
// Only suggest an attribute name if we didn't use it already.
nameSuggestions = append(nameSuggestions, attrS.Name)
}
}
for _, blockS := range schema.Blocks {
// Blocks can appear multiple times, so we'll suggest their type
// names regardless of whether they've already been used.
nameSuggestions = append(nameSuggestions, blockS.Type)
}
for k, attr := range b.obj.Attrs {
if k == "//" {
// Ignore "//" keys in objects representing bodies, to allow
// their use as comments.
continue
}
if _, ok := hiddenAttrs[k]; !ok {
var fixItHint string
suggestion := nameSuggestion(k, nameSuggestions)
if suggestion != "" {
fixItHint = fmt.Sprintf(" Did you mean %q?", suggestion)
}
diags = append(diags, &hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Extraneous JSON object property",
Detail: fmt.Sprintf("No attribute or block type is named %q.%s", k, fixItHint),
Subject: &attr.NameRange,
Context: attr.Range().Ptr(),
})
}
}
return content, diags
}
func (b *body) PartialContent(schema *hcl.BodySchema) (*hcl.BodyContent, hcl.Body, hcl.Diagnostics) {
obj := b.obj
jsonAttrs := obj.Attrs
usedNames := map[string]struct{}{}
if b.hiddenAttrs != nil {
for k := range b.hiddenAttrs {
usedNames[k] = struct{}{}
}
}
var diags hcl.Diagnostics
content := &hcl.BodyContent{
Attributes: map[string]*hcl.Attribute{},
Blocks: nil,
MissingItemRange: b.MissingItemRange(),
}
for _, attrS := range schema.Attributes {
jsonAttr, exists := jsonAttrs[attrS.Name]
_, used := usedNames[attrS.Name]
if used || !exists {
if attrS.Required {
diags = diags.Append(&hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Missing required attribute",
Detail: fmt.Sprintf("The attribute %q is required, so a JSON object property must be present with this name.", attrS.Name),
Subject: &obj.OpenRange,
})
}
continue
}
content.Attributes[attrS.Name] = &hcl.Attribute{
Name: attrS.Name,
Expr: &expression{src: jsonAttr.Value},
Range: hcl.RangeBetween(jsonAttr.NameRange, jsonAttr.Value.Range()),
NameRange: jsonAttr.NameRange,
}
usedNames[attrS.Name] = struct{}{}
}
for _, blockS := range schema.Blocks {
jsonAttr, exists := jsonAttrs[blockS.Type]
_, used := usedNames[blockS.Type]
if used || !exists {
usedNames[blockS.Type] = struct{}{}
continue
}
v := jsonAttr.Value
diags = append(diags, b.unpackBlock(v, blockS.Type, &jsonAttr.NameRange, blockS.LabelNames, nil, nil, &content.Blocks)...)
usedNames[blockS.Type] = struct{}{}
}
unusedBody := &body{
obj: b.obj,
hiddenAttrs: usedNames,
useHIL: b.useHIL,
}
return content, unusedBody, diags
}
// JustAttributes for JSON bodies interprets all properties of the wrapped
// JSON object as attributes and returns them.
func (b *body) JustAttributes() (hcl.Attributes, hcl.Diagnostics) {
attrs := make(map[string]*hcl.Attribute)
for name, jsonAttr := range b.obj.Attrs {
if name == "//" {
// Ignore "//" keys in objects representing bodies, to allow
// their use as comments.
continue
}
if _, hidden := b.hiddenAttrs[name]; hidden {
continue
}
attrs[name] = &hcl.Attribute{
Name: name,
Expr: &expression{src: jsonAttr.Value},
Range: hcl.RangeBetween(jsonAttr.NameRange, jsonAttr.Value.Range()),
NameRange: jsonAttr.NameRange,
}
}
// No diagnostics possible here, since the parser already took care of
// finding duplicates and every JSON value can be a valid attribute value.
return attrs, nil
}
func (b *body) MissingItemRange() hcl.Range {
return b.obj.CloseRange
}
func (b *body) unpackBlock(v node, typeName string, typeRange *hcl.Range, labelsLeft []string, labelsUsed []string, labelRanges []hcl.Range, blocks *hcl.Blocks) (diags hcl.Diagnostics) {
if len(labelsLeft) > 0 {
labelName := labelsLeft[0]
ov, ok := v.(*objectVal)
if !ok {
diags = diags.Append(&hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Incorrect JSON value type",
Detail: fmt.Sprintf("A JSON object is required, whose keys represent the %s block's %s.", typeName, labelName),
Subject: v.StartRange().Ptr(),
})
return
}
if len(ov.Attrs) == 0 {
diags = diags.Append(&hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Missing block label",
Detail: fmt.Sprintf("At least one object property is required, whose name represents the %s block's %s.", typeName, labelName),
Subject: v.StartRange().Ptr(),
})
return
}
labelsUsed := append(labelsUsed, "")
labelRanges := append(labelRanges, hcl.Range{})
for pk, p := range ov.Attrs {
labelsUsed[len(labelsUsed)-1] = pk
labelRanges[len(labelRanges)-1] = p.NameRange
diags = append(diags, b.unpackBlock(p.Value, typeName, typeRange, labelsLeft[1:], labelsUsed, labelRanges, blocks)...)
}
return
}
// By the time we get here, we've peeled off all the labels and we're ready
// to deal with the block's actual content.
// need to copy the label slices because their underlying arrays will
// continue to be mutated after we return.
labels := make([]string, len(labelsUsed))
copy(labels, labelsUsed)
labelR := make([]hcl.Range, len(labelRanges))
copy(labelR, labelRanges)
switch tv := v.(type) {
case *objectVal:
// Single instance of the block
*blocks = append(*blocks, &hcl.Block{
Type: typeName,
Labels: labels,
Body: &body{
obj: tv,
useHIL: b.useHIL,
},
DefRange: tv.OpenRange,
TypeRange: *typeRange,
LabelRanges: labelR,
})
case *arrayVal:
// Multiple instances of the block
for _, av := range tv.Values {
ov, ok := av.(*objectVal)
if !ok {
diags = diags.Append(&hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Incorrect JSON value type",
Detail: fmt.Sprintf("A JSON object is required, representing the contents of a %q block.", typeName),
Subject: v.StartRange().Ptr(),
})
continue
}
*blocks = append(*blocks, &hcl.Block{
Type: typeName,
Labels: labels,
Body: &body{
obj: ov,
useHIL: b.useHIL,
},
DefRange: tv.OpenRange,
TypeRange: *typeRange,
LabelRanges: labelR,
})
}
default:
diags = diags.Append(&hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Incorrect JSON value type",
Detail: fmt.Sprintf("Either a JSON object or a JSON array is required, representing the contents of one or more %q blocks.", typeName),
Subject: v.StartRange().Ptr(),
})
}
return
}
func (e *expression) Value(ctx *hcl.EvalContext) (cty.Value, hcl.Diagnostics) {
switch v := e.src.(type) {
case *stringVal:
if ctx != nil {
// Parse string contents as a zcl native language expression.
// We only do this if we have a context, so passing a nil context
// is how the caller specifies that interpolations are not allowed
// and that the string should just be returned verbatim.
templateSrc := v.Value
expr, diags := hclsyntax.ParseTemplate(
[]byte(templateSrc),
v.SrcRange.Filename,
// This won't produce _exactly_ the right result, since
// the zclsyntax parser can't "see" any escapes we removed
// while parsing JSON, but it's better than nothing.
hcl.Pos{
Line: v.SrcRange.Start.Line,
// skip over the opening quote mark
Byte: v.SrcRange.Start.Byte + 1,
Column: v.SrcRange.Start.Column + 1,
},
)
if diags.HasErrors() {
return cty.DynamicVal, diags
}
val, evalDiags := expr.Value(ctx)
diags = append(diags, evalDiags...)
return val, diags
}
// FIXME: Once the native zcl template language parser is implemented,
// parse string values as templates and evaluate them.
return cty.StringVal(v.Value), nil
case *numberVal:
return cty.NumberVal(v.Value), nil
case *booleanVal:
return cty.BoolVal(v.Value), nil
case *arrayVal:
vals := []cty.Value{}
for _, jsonVal := range v.Values {
val, _ := (&expression{src: jsonVal}).Value(ctx)
vals = append(vals, val)
}
return cty.TupleVal(vals), nil
case *objectVal:
attrs := map[string]cty.Value{}
for name, jsonAttr := range v.Attrs {
val, _ := (&expression{src: jsonAttr.Value}).Value(ctx)
attrs[name] = val
}
return cty.ObjectVal(attrs), nil
default:
// Default to DynamicVal so that ASTs containing invalid nodes can
// still be partially-evaluated.
return cty.DynamicVal, nil
}
}
func (e *expression) Variables() []hcl.Traversal {
var vars []hcl.Traversal
switch v := e.src.(type) {
case *stringVal:
// FIXME: Once the native zcl template language parser is implemented,
// parse with that and look for variables in there too,
case *arrayVal:
for _, jsonVal := range v.Values {
vars = append(vars, (&expression{src: jsonVal}).Variables()...)
}
case *objectVal:
for _, jsonAttr := range v.Attrs {
vars = append(vars, (&expression{src: jsonAttr.Value}).Variables()...)
}
}
return vars
}
func (e *expression) Range() hcl.Range {
return e.src.Range()
}
func (e *expression) StartRange() hcl.Range {
return e.src.StartRange()
}
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