terraform/configs/configschema/decoder_spec.go

package configschema

import (
	"github.com/hashicorp/hcl/v2/hcldec"
)

var mapLabelNames = []string{"key"}

// DecoderSpec returns a hcldec.Spec that can be used to decode a HCL Body
// using the facilities in the hcldec package.
//
// The returned specification is guaranteed to return a value of the same type
// returned by method ImpliedType, but it may contain null values if any of the
// block attributes are defined as optional and/or computed respectively.
func (b *Block) DecoderSpec() hcldec.Spec {
	ret := hcldec.ObjectSpec{}
	if b == nil {
		return ret
	}

	for name, attrS := range b.Attributes {
		ret[name] = attrS.decoderSpec(name)
	}

	for name, blockS := range b.BlockTypes {
		if _, exists := ret[name]; exists {
			// This indicates an invalid schema, since it's not valid to
			// define both an attribute and a block type of the same name.
			// However, we don't raise this here since it's checked by
			// InternalValidate.
			continue
		}

		childSpec := blockS.Block.DecoderSpec()

		// We can only validate 0 or 1 for MinItems, because a dynamic block
		// may satisfy any number of min items while only having a single
		// block in the config. We cannot validate MaxItems because a
		// configuration may have any number of dynamic blocks
		minItems := 0
		if blockS.MinItems > 1 {
			minItems = 1
		}

		switch blockS.Nesting {
		case NestingSingle, NestingGroup:
			ret[name] = &hcldec.BlockSpec{
				TypeName: name,
				Nested:   childSpec,
				Required: blockS.MinItems == 1,
			}
			if blockS.Nesting == NestingGroup {
				ret[name] = &hcldec.DefaultSpec{
					Primary: ret[name],
					Default: &hcldec.LiteralSpec{
						Value: blockS.EmptyValue(),
					},
				}
			}
		case NestingList:
			// We prefer to use a list where possible, since it makes our
			// implied type more complete, but if there are any
			// dynamically-typed attributes inside we must use a tuple
			// instead, at the expense of our type then not being predictable.
			if blockS.Block.ImpliedType().HasDynamicTypes() {
				ret[name] = &hcldec.BlockTupleSpec{
					TypeName: name,
					Nested:   childSpec,
					MinItems: minItems,
				}
			} else {
				ret[name] = &hcldec.BlockListSpec{
					TypeName: name,
					Nested:   childSpec,
					MinItems: minItems,
				}
			}
		case NestingSet:
			// We forbid dynamically-typed attributes inside NestingSet in
			// InternalValidate, so we don't do anything special to handle
			// that here. (There is no set analog to tuple and object types,
			// because cty's set implementation depends on knowing the static
			// type in order to properly compute its internal hashes.)
			ret[name] = &hcldec.BlockSetSpec{
				TypeName: name,
				Nested:   childSpec,
				MinItems: minItems,
			}
		case NestingMap:
			// We prefer to use a list where possible, since it makes our
			// implied type more complete, but if there are any
			// dynamically-typed attributes inside we must use a tuple
			// instead, at the expense of our type then not being predictable.
			if blockS.Block.ImpliedType().HasDynamicTypes() {
				ret[name] = &hcldec.BlockObjectSpec{
					TypeName:   name,
					Nested:     childSpec,
					LabelNames: mapLabelNames,
				}
			} else {
				ret[name] = &hcldec.BlockMapSpec{
					TypeName:   name,
					Nested:     childSpec,
					LabelNames: mapLabelNames,
				}
			}
		default:
			// Invalid nesting type is just ignored. It's checked by
			// InternalValidate.
			continue
		}
	}

	return ret
}

func (a *Attribute) decoderSpec(name string) hcldec.Spec {
	return &hcldec.AttrSpec{
		Name:     name,
		Type:     a.Type,
		Required: a.Required,
	}
}
config/configschema: stub out initial API 2017-10-03 01:07:39 +02:00			`package configschema`

			`import (`
vendor: switch to HCL 2.0 in the HCL repository Previously we were using the experimental HCL 2 repository, but now we'll shift over to the v2 import path within the main HCL repository as part of actually releasing HCL 2.0 as stable. This is a mechanical search/replace to the new import paths. It also switches to the v2.0.0 release of HCL, which includes some new code that Terraform didn't previously have but should not change any behavior that matters for Terraform's purposes. For the moment the experimental HCL2 repository is still an indirect dependency via terraform-config-inspect, so it remains in our go.sum and vendor directories for the moment. Because terraform-config-inspect uses a much smaller subset of the HCL2 functionality, this does still manage to prune the vendor directory a little. A subsequent release of terraform-config-inspect should allow us to completely remove that old repository in a future commit. 2019-09-10 00:58:44 +02:00			`"github.com/hashicorp/hcl/v2/hcldec"`
config/configschema: stub out initial API 2017-10-03 01:07:39 +02:00			`)`

config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`var mapLabelNames = []string{"key"}`

			`// DecoderSpec returns a hcldec.Spec that can be used to decode a HCL Body`
			`// using the facilities in the hcldec package.`
config/configschema: stub out initial API 2017-10-03 01:07:39 +02:00			`//`
			`// The returned specification is guaranteed to return a value of the same type`
don't set Unknown for computed values Any value that is not set in the configuration should decode as a Null value. Unknown should still be returned if a computed value expression is unknown. 2018-07-20 18:40:22 +02:00			`// returned by method ImpliedType, but it may contain null values if any of the`
			`// block attributes are defined as optional and/or computed respectively.`
config/configschema: stub out initial API 2017-10-03 01:07:39 +02:00			`func (b *Block) DecoderSpec() hcldec.Spec {`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`ret := hcldec.ObjectSpec{}`
			`if b == nil {`
			`return ret`
			`}`

			`for name, attrS := range b.Attributes {`
config/configupgrade: Test to show that list unwrapping works for sets This was already working but we had no tests to prove it. 2019-02-23 01:52:11 +01:00			`ret[name] = attrS.decoderSpec(name)`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`}`

			`for name, blockS := range b.BlockTypes {`
			`if _, exists := ret[name]; exists {`
			`// This indicates an invalid schema, since it's not valid to`
			`// define both an attribute and a block type of the same name.`
			`// However, we don't raise this here since it's checked by`
			`// InternalValidate.`
			`continue`
			`}`

			`childSpec := blockS.Block.DecoderSpec()`

don't check MinItems with unknowns in blocks If a block was defined via "dynamic", there will be only one block value until the expansion is known. Since we can't detect dynamic blocks at this point, don't verify MinItems while there are unknown values in the config. The decoder spec can also only check for existence of a block, so limit the check to 0 or 1. 2019-07-26 23:43:11 +02:00			`// We can only validate 0 or 1 for MinItems, because a dynamic block`
			`// may satisfy any number of min items while only having a single`
fix Min/Max validation during decoding We can only validate MinItems >= 1 (equiv to "Required") during decoding, as dynamic blocks each only decode as a single block. MaxItems cannot be validated at all, also because of dynamic blocks, which may have any number of blocks in the config. 2019-08-20 15:49:41 +02:00			`// block in the config. We cannot validate MaxItems because a`
			`// configuration may have any number of dynamic blocks`
don't check MinItems with unknowns in blocks If a block was defined via "dynamic", there will be only one block value until the expansion is known. Since we can't detect dynamic blocks at this point, don't verify MinItems while there are unknown values in the config. The decoder spec can also only check for existence of a block, so limit the check to 0 or 1. 2019-07-26 23:43:11 +02:00			`minItems := 0`
			`if blockS.MinItems > 1 {`
			`minItems = 1`
			`}`

config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`switch blockS.Nesting {`
configs/configschema: Introduce the NestingGroup mode for blocks In study of existing providers we've found a pattern we werent previously accounting for of using a nested block type to represent a group of arguments that relate to a particular feature that is always enabled but where it improves configuration readability to group all of its settings together in a nested block. The existing NestingSingle was not a good fit for this because it is designed under the assumption that the presence or absence of the block has some significance in enabling or disabling the relevant feature, and so for these always-active cases we'd generate a misleading plan where the settings for the feature appear totally absent, rather than showing the default values that will be selected. NestingGroup is, therefore, a slight variation of NestingSingle where presence vs. absence of the block is not distinguishable (it's never null) and instead its contents are treated as unset when the block is absent. This then in turn causes any default values associated with the nested arguments to be honored and displayed in the plan whenever the block is not explicitly configured. The current SDK cannot activate this mode, but that's okay because its "legacy type system" opt-out flag allows it to force a block to be processed in this way anyway. We're adding this now so that we can introduce the feature in a future SDK without causing a breaking change to the protocol, since the set of possible block nesting modes is not extensible. 2019-04-09 00:32:53 +02:00			`case NestingSingle, NestingGroup:`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`ret[name] = &hcldec.BlockSpec{`
			`TypeName: name,`
			`Nested: childSpec,`
fix Min/Max validation during decoding We can only validate MinItems >= 1 (equiv to "Required") during decoding, as dynamic blocks each only decode as a single block. MaxItems cannot be validated at all, also because of dynamic blocks, which may have any number of blocks in the config. 2019-08-20 15:49:41 +02:00			`Required: blockS.MinItems == 1,`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`}`
configs/configschema: Introduce the NestingGroup mode for blocks In study of existing providers we've found a pattern we werent previously accounting for of using a nested block type to represent a group of arguments that relate to a particular feature that is always enabled but where it improves configuration readability to group all of its settings together in a nested block. The existing NestingSingle was not a good fit for this because it is designed under the assumption that the presence or absence of the block has some significance in enabling or disabling the relevant feature, and so for these always-active cases we'd generate a misleading plan where the settings for the feature appear totally absent, rather than showing the default values that will be selected. NestingGroup is, therefore, a slight variation of NestingSingle where presence vs. absence of the block is not distinguishable (it's never null) and instead its contents are treated as unset when the block is absent. This then in turn causes any default values associated with the nested arguments to be honored and displayed in the plan whenever the block is not explicitly configured. The current SDK cannot activate this mode, but that's okay because its "legacy type system" opt-out flag allows it to force a block to be processed in this way anyway. We're adding this now so that we can introduce the feature in a future SDK without causing a breaking change to the protocol, since the set of possible block nesting modes is not extensible. 2019-04-09 00:32:53 +02:00			`if blockS.Nesting == NestingGroup {`
			`ret[name] = &hcldec.DefaultSpec{`
			`Primary: ret[name],`
			`Default: &hcldec.LiteralSpec{`
			`Value: blockS.EmptyValue(),`
			`},`
			`}`
			`}`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`case NestingList:`
configschema: Handle nested blocks containing dynamic-typed attributes We need to make the collection itself be a tuple or object rather than list or map in this case, since otherwise all of the elements of the collection are constrained to be of the same type and that isn't the intent of a provider indicating that it accepts any type. 2018-08-23 00:45:34 +02:00			`// We prefer to use a list where possible, since it makes our`
			`// implied type more complete, but if there are any`
			`// dynamically-typed attributes inside we must use a tuple`
			`// instead, at the expense of our type then not being predictable.`
			`if blockS.Block.ImpliedType().HasDynamicTypes() {`
			`ret[name] = &hcldec.BlockTupleSpec{`
			`TypeName: name,`
			`Nested: childSpec,`
don't check MinItems with unknowns in blocks If a block was defined via "dynamic", there will be only one block value until the expansion is known. Since we can't detect dynamic blocks at this point, don't verify MinItems while there are unknown values in the config. The decoder spec can also only check for existence of a block, so limit the check to 0 or 1. 2019-07-26 23:43:11 +02:00			`MinItems: minItems,`
configschema: Handle nested blocks containing dynamic-typed attributes We need to make the collection itself be a tuple or object rather than list or map in this case, since otherwise all of the elements of the collection are constrained to be of the same type and that isn't the intent of a provider indicating that it accepts any type. 2018-08-23 00:45:34 +02:00			`}`
			`} else {`
			`ret[name] = &hcldec.BlockListSpec{`
			`TypeName: name,`
			`Nested: childSpec,`
don't check MinItems with unknowns in blocks If a block was defined via "dynamic", there will be only one block value until the expansion is known. Since we can't detect dynamic blocks at this point, don't verify MinItems while there are unknown values in the config. The decoder spec can also only check for existence of a block, so limit the check to 0 or 1. 2019-07-26 23:43:11 +02:00			`MinItems: minItems,`
configschema: Handle nested blocks containing dynamic-typed attributes We need to make the collection itself be a tuple or object rather than list or map in this case, since otherwise all of the elements of the collection are constrained to be of the same type and that isn't the intent of a provider indicating that it accepts any type. 2018-08-23 00:45:34 +02:00			`}`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`}`
			`case NestingSet:`
configschema: Handle nested blocks containing dynamic-typed attributes We need to make the collection itself be a tuple or object rather than list or map in this case, since otherwise all of the elements of the collection are constrained to be of the same type and that isn't the intent of a provider indicating that it accepts any type. 2018-08-23 00:45:34 +02:00			`// We forbid dynamically-typed attributes inside NestingSet in`
			`// InternalValidate, so we don't do anything special to handle`
			`// that here. (There is no set analog to tuple and object types,`
			`// because cty's set implementation depends on knowing the static`
			`// type in order to properly compute its internal hashes.)`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`ret[name] = &hcldec.BlockSetSpec{`
			`TypeName: name,`
			`Nested: childSpec,`
don't check MinItems with unknowns in blocks If a block was defined via "dynamic", there will be only one block value until the expansion is known. Since we can't detect dynamic blocks at this point, don't verify MinItems while there are unknown values in the config. The decoder spec can also only check for existence of a block, so limit the check to 0 or 1. 2019-07-26 23:43:11 +02:00			`MinItems: minItems,`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`}`
			`case NestingMap:`
configschema: Handle nested blocks containing dynamic-typed attributes We need to make the collection itself be a tuple or object rather than list or map in this case, since otherwise all of the elements of the collection are constrained to be of the same type and that isn't the intent of a provider indicating that it accepts any type. 2018-08-23 00:45:34 +02:00			`// We prefer to use a list where possible, since it makes our`
			`// implied type more complete, but if there are any`
			`// dynamically-typed attributes inside we must use a tuple`
			`// instead, at the expense of our type then not being predictable.`
			`if blockS.Block.ImpliedType().HasDynamicTypes() {`
			`ret[name] = &hcldec.BlockObjectSpec{`
			`TypeName: name,`
			`Nested: childSpec,`
			`LabelNames: mapLabelNames,`
			`}`
			`} else {`
			`ret[name] = &hcldec.BlockMapSpec{`
			`TypeName: name,`
			`Nested: childSpec,`
			`LabelNames: mapLabelNames,`
			`}`
config/configschema: Block.DecoderSpec This returns a decoding specification that can be used with the hcldec package to decode a body into a cty.Value of an object type. 2017-10-04 02:16:04 +02:00			`}`
			`default:`
			`// Invalid nesting type is just ignored. It's checked by`
			`// InternalValidate.`
			`continue`
			`}`
			`}`

			`return ret`
config/configschema: stub out initial API 2017-10-03 01:07:39 +02:00			`}`
config/configupgrade: Test to show that list unwrapping works for sets This was already working but we had no tests to prove it. 2019-02-23 01:52:11 +01:00
			`func (a *Attribute) decoderSpec(name string) hcldec.Spec {`
			`return &hcldec.AttrSpec{`
			`Name: name,`
			`Type: a.Type,`
			`Required: a.Required,`
			`}`
			`}`