open-nomad/jobspec2/hclutil/blockattrs.go

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package hclutil
import (
"github.com/hashicorp/hcl/v2"
hcls "github.com/hashicorp/hcl/v2/hclsyntax"
)
// BlocksAsAttrs rewrites the hcl.Body so that hcl blocks are treated as
// attributes when schema is unknown.
//
// This conversion is necessary for parsing task driver configs, as they can be
// arbitrary nested without pre-defined schema.
//
// More concretely, it changes the following:
//
// ```
//
// config {
// meta { ... }
// }
//
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// ```
//
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// to
//
// ```
//
// config {
// meta = { ... } # <- attribute now
// }
//
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// ```
func BlocksAsAttrs(body hcl.Body) hcl.Body {
if hclb, ok := body.(*hcls.Body); ok {
return &blockAttrs{body: hclb}
}
return body
}
type blockAttrs struct {
body hcl.Body
hiddenAttrs map[string]struct{}
hiddenBlocks map[string]struct{}
}
func (b *blockAttrs) Content(schema *hcl.BodySchema) (*hcl.BodyContent, hcl.Diagnostics) {
bc, diags := b.body.Content(schema)
bc.Blocks = expandBlocks(bc.Blocks)
return bc, diags
}
func (b *blockAttrs) PartialContent(schema *hcl.BodySchema) (*hcl.BodyContent, hcl.Body, hcl.Diagnostics) {
bc, remainBody, diags := b.body.PartialContent(schema)
bc.Blocks = expandBlocks(bc.Blocks)
remain := &blockAttrs{
body: remainBody,
hiddenAttrs: map[string]struct{}{},
hiddenBlocks: map[string]struct{}{},
}
for name := range b.hiddenAttrs {
remain.hiddenAttrs[name] = struct{}{}
}
for typeName := range b.hiddenBlocks {
remain.hiddenBlocks[typeName] = struct{}{}
}
for _, attrS := range schema.Attributes {
remain.hiddenAttrs[attrS.Name] = struct{}{}
}
for _, blockS := range schema.Blocks {
remain.hiddenBlocks[blockS.Type] = struct{}{}
}
return bc, remain, diags
}
func (b *blockAttrs) JustAttributes() (hcl.Attributes, hcl.Diagnostics) {
body, ok := b.body.(*hcls.Body)
if !ok {
return b.body.JustAttributes()
}
attrs := make(hcl.Attributes)
var diags hcl.Diagnostics
if body.Attributes == nil && len(body.Blocks) == 0 {
return attrs, diags
}
for name, attr := range body.Attributes {
if _, hidden := b.hiddenAttrs[name]; hidden {
continue
}
na := attr.AsHCLAttribute()
na.Expr = attrExpr(attr.Expr)
attrs[name] = na
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}
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for _, blocks := range blocksByType(body.Blocks) {
if _, hidden := b.hiddenBlocks[blocks[0].Type]; hidden {
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continue
}
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b := blocks[0]
attr := &hcls.Attribute{
Name: b.Type,
NameRange: b.TypeRange,
EqualsRange: b.OpenBraceRange,
SrcRange: b.Body.SrcRange,
Expr: blocksToExpr(blocks),
}
attrs[blocks[0].Type] = attr.AsHCLAttribute()
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}
return attrs, diags
}
func (b *blockAttrs) MissingItemRange() hcl.Range {
return b.body.MissingItemRange()
}
func expandBlocks(blocks hcl.Blocks) hcl.Blocks {
if len(blocks) == 0 {
return blocks
}
r := make([]*hcl.Block, len(blocks))
for i, b := range blocks {
nb := *b
nb.Body = BlocksAsAttrs(b.Body)
r[i] = &nb
}
return r
}
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func blocksByType(blocks hcls.Blocks) map[string]hcls.Blocks {
r := map[string]hcls.Blocks{}
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for _, b := range blocks {
r[b.Type] = append(r[b.Type], b)
}
return r
}
func blocksToExpr(blocks hcls.Blocks) hcls.Expression {
if len(blocks) == 0 {
panic("unexpected empty blocks")
}
exprs := make([]hcls.Expression, len(blocks))
for i, b := range blocks {
exprs[i] = blockToExpr(b)
}
last := blocks[len(blocks)-1]
return &hcls.TupleConsExpr{
Exprs: exprs,
SrcRange: hcl.RangeBetween(blocks[0].OpenBraceRange, last.CloseBraceRange),
OpenRange: blocks[0].OpenBraceRange,
}
}
func blockToExpr(b *hcls.Block) hcls.Expression {
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items := []hcls.ObjectConsItem{}
for _, attr := range b.Body.Attributes {
keyExpr := &hcls.ScopeTraversalExpr{
Traversal: hcl.Traversal{
hcl.TraverseRoot{
Name: attr.Name,
SrcRange: attr.NameRange,
},
},
SrcRange: attr.NameRange,
}
key := &hcls.ObjectConsKeyExpr{
Wrapped: keyExpr,
}
items = append(items, hcls.ObjectConsItem{
KeyExpr: key,
ValueExpr: attrExpr(attr.Expr),
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})
}
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for _, blocks := range blocksByType(b.Body.Blocks) {
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keyExpr := &hcls.ScopeTraversalExpr{
Traversal: hcl.Traversal{
hcl.TraverseRoot{
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Name: blocks[0].Type,
SrcRange: blocks[0].TypeRange,
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},
},
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SrcRange: blocks[0].TypeRange,
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}
key := &hcls.ObjectConsKeyExpr{
Wrapped: keyExpr,
}
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item := hcls.ObjectConsItem{
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KeyExpr: key,
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ValueExpr: blocksToExpr(blocks),
}
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items = append(items, item)
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}
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v := &hcls.ObjectConsExpr{
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Items: items,
}
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// Create nested maps, with the labels as keys.
// Starts wrapping from most inner label to outer
for i := len(b.Labels) - 1; i >= 0; i-- {
keyExpr := &hcls.ScopeTraversalExpr{
Traversal: hcl.Traversal{
hcl.TraverseRoot{
Name: b.Labels[i],
SrcRange: b.LabelRanges[i],
},
},
SrcRange: b.LabelRanges[i],
}
key := &hcls.ObjectConsKeyExpr{
Wrapped: keyExpr,
}
item := hcls.ObjectConsItem{
KeyExpr: key,
ValueExpr: &hcls.TupleConsExpr{
Exprs: []hcls.Expression{v},
},
}
v = &hcls.ObjectConsExpr{
Items: []hcls.ObjectConsItem{item},
}
}
return v
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}
func attrExpr(expr hcls.Expression) hcls.Expression {
if _, ok := expr.(*hcls.ObjectConsExpr); ok {
return &hcls.TupleConsExpr{
Exprs: []hcls.Expression{expr},
SrcRange: expr.Range(),
OpenRange: expr.StartRange(),
}
}
return expr
}