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variables.go
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variables.go
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package dynblock
import (
"github.com/hashicorp/hcl/v2"
"github.com/zclconf/go-cty/cty"
)
// WalkVariables begins the recursive process of walking all expressions and
// nested blocks in the given body and its child bodies while taking into
// account any "dynamic" blocks.
//
// This function requires that the caller walk through the nested block
// structure in the given body level-by-level so that an appropriate schema
// can be provided at each level to inform further processing. This workflow
// is thus easiest to use for calling applications that have some higher-level
// schema representation available with which to drive this multi-step
// process. If your application uses the hcldec package, you may be able to
// use VariablesHCLDec instead for a more automatic approach.
func WalkVariables(body hcl.Body) WalkVariablesNode {
return WalkVariablesNode{
body: body,
includeContent: true,
}
}
// WalkExpandVariables is like Variables but it includes only the variables
// required for successful block expansion, ignoring any variables referenced
// inside block contents. The result is the minimal set of all variables
// required for a call to Expand, excluding variables that would only be
// needed to subsequently call Content or PartialContent on the expanded
// body.
func WalkExpandVariables(body hcl.Body) WalkVariablesNode {
return WalkVariablesNode{
body: body,
}
}
type WalkVariablesNode struct {
body hcl.Body
it *iteration
includeContent bool
}
type WalkVariablesChild struct {
BlockTypeName string
Node WalkVariablesNode
}
// Body returns the HCL Body associated with the child node, in case the caller
// wants to do some sort of inspection of it in order to decide what schema
// to pass to Visit.
//
// Most implementations should just fetch a fixed schema based on the
// BlockTypeName field and not access this. Deciding on a schema dynamically
// based on the body is a strange thing to do and generally necessary only if
// your caller is already doing other bizarre things with HCL bodies.
func (c WalkVariablesChild) Body() hcl.Body {
return c.Node.body
}
// Visit returns the variable traversals required for any "dynamic" blocks
// directly in the body associated with this node, and also returns any child
// nodes that must be visited in order to continue the walk.
//
// Each child node has its associated block type name given in its BlockTypeName
// field, which the calling application should use to determine the appropriate
// schema for the content of each child node and pass it to the child node's
// own Visit method to continue the walk recursively.
func (n WalkVariablesNode) Visit(schema *hcl.BodySchema) (vars []hcl.Traversal, children []WalkVariablesChild) {
extSchema := n.extendSchema(schema)
container, _, _ := n.body.PartialContent(extSchema)
if container == nil {
return vars, children
}
children = make([]WalkVariablesChild, 0, len(container.Blocks))
if n.includeContent {
for _, attr := range container.Attributes {
for _, traversal := range attr.Expr.Variables() {
var ours, inherited bool
if n.it != nil {
ours = traversal.RootName() == n.it.IteratorName
_, inherited = n.it.Inherited[traversal.RootName()]
}
if !(ours || inherited) {
vars = append(vars, traversal)
}
}
}
}
for _, block := range container.Blocks {
switch block.Type {
case "dynamic":
blockTypeName := block.Labels[0]
inner, _, _ := block.Body.PartialContent(variableDetectionInnerSchema)
if inner == nil {
continue
}
iteratorName := blockTypeName
if attr, exists := inner.Attributes["iterator"]; exists {
iterTraversal, _ := hcl.AbsTraversalForExpr(attr.Expr)
if len(iterTraversal) == 0 {
// Ignore this invalid dynamic block, since it'll produce
// an error if someone tries to extract content from it
// later anyway.
continue
}
iteratorName = iterTraversal.RootName()
}
blockIt := n.it.MakeChild(iteratorName, cty.DynamicVal, cty.DynamicVal)
if attr, exists := inner.Attributes["for_each"]; exists {
// Filter out iterator names inherited from parent blocks
for _, traversal := range attr.Expr.Variables() {
if _, inherited := blockIt.Inherited[traversal.RootName()]; !inherited {
vars = append(vars, traversal)
}
}
}
if attr, exists := inner.Attributes["labels"]; exists {
// Filter out both our own iterator name _and_ those inherited
// from parent blocks, since we provide _both_ of these to the
// label expressions.
for _, traversal := range attr.Expr.Variables() {
ours := traversal.RootName() == iteratorName
_, inherited := blockIt.Inherited[traversal.RootName()]
if !(ours || inherited) {
vars = append(vars, traversal)
}
}
}
for _, contentBlock := range inner.Blocks {
// We only request "content" blocks in our schema, so we know
// any blocks we find here will be content blocks. We require
// exactly one content block for actual expansion, but we'll
// be more liberal here so that callers can still collect
// variables from erroneous "dynamic" blocks.
children = append(children, WalkVariablesChild{
BlockTypeName: blockTypeName,
Node: WalkVariablesNode{
body: contentBlock.Body,
it: blockIt,
includeContent: n.includeContent,
},
})
}
default:
children = append(children, WalkVariablesChild{
BlockTypeName: block.Type,
Node: WalkVariablesNode{
body: block.Body,
it: n.it,
includeContent: n.includeContent,
},
})
}
}
return vars, children
}
func (n WalkVariablesNode) extendSchema(schema *hcl.BodySchema) *hcl.BodySchema {
// We augment the requested schema to also include our special "dynamic"
// block type, since then we'll get instances of it interleaved with
// all of the literal child blocks we must also include.
extSchema := &hcl.BodySchema{
Attributes: schema.Attributes,
Blocks: make([]hcl.BlockHeaderSchema, len(schema.Blocks), len(schema.Blocks)+1),
}
copy(extSchema.Blocks, schema.Blocks)
extSchema.Blocks = append(extSchema.Blocks, dynamicBlockHeaderSchema)
return extSchema
}
// This is a more relaxed schema than what's in schema.go, since we
// want to maximize the amount of variables we can find even if there
// are erroneous blocks.
var variableDetectionInnerSchema = &hcl.BodySchema{
Attributes: []hcl.AttributeSchema{
{
Name: "for_each",
Required: false,
},
{
Name: "labels",
Required: false,
},
{
Name: "iterator",
Required: false,
},
},
Blocks: []hcl.BlockHeaderSchema{
{
Type: "content",
},
},
}