310 lines
10 KiB
Go
310 lines
10 KiB
Go
package schema
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import (
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"fmt"
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"github.com/hashicorp/terraform/configs/configschema"
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"github.com/zclconf/go-cty/cty"
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)
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// The functions and methods in this file are concerned with the conversion
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// of this package's schema model into the slightly-lower-level schema model
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// used by Terraform core for configuration parsing.
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// CoreConfigSchema lowers the receiver to the schema model expected by
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// Terraform core.
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//
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// This lower-level model has fewer features than the schema in this package,
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// describing only the basic structure of configuration and state values we
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// expect. The full schemaMap from this package is still required for full
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// validation, handling of default values, etc.
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//
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// This method presumes a schema that passes InternalValidate, and so may
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// panic or produce an invalid result if given an invalid schemaMap.
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func (m schemaMap) CoreConfigSchema() *configschema.Block {
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if len(m) == 0 {
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// We return an actual (empty) object here, rather than a nil,
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// because a nil result would mean that we don't have a schema at
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// all, rather than that we have an empty one.
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return &configschema.Block{}
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}
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ret := &configschema.Block{
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Attributes: map[string]*configschema.Attribute{},
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BlockTypes: map[string]*configschema.NestedBlock{},
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}
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for name, schema := range m {
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if schema.Elem == nil {
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ret.Attributes[name] = schema.coreConfigSchemaAttribute()
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continue
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}
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if schema.Type == TypeMap {
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// For TypeMap in particular, it isn't valid for Elem to be a
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// *Resource (since that would be ambiguous in flatmap) and
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// so Elem is treated as a TypeString schema if so. This matches
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// how the field readers treat this situation, for compatibility
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// with configurations targeting Terraform 0.11 and earlier.
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if _, isResource := schema.Elem.(*Resource); isResource {
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sch := *schema // shallow copy
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sch.Elem = &Schema{
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Type: TypeString,
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}
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ret.Attributes[name] = sch.coreConfigSchemaAttribute()
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continue
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}
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}
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switch schema.ConfigMode {
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case SchemaConfigModeAttr:
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ret.Attributes[name] = schema.coreConfigSchemaAttribute()
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case SchemaConfigModeBlock:
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ret.BlockTypes[name] = schema.coreConfigSchemaBlock()
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default: // SchemaConfigModeAuto, or any other invalid value
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if schema.Computed && !schema.Optional {
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// Computed-only schemas are always handled as attributes,
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// because they never appear in configuration.
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ret.Attributes[name] = schema.coreConfigSchemaAttribute()
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continue
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}
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switch schema.Elem.(type) {
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case *Schema, ValueType:
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ret.Attributes[name] = schema.coreConfigSchemaAttribute()
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case *Resource:
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ret.BlockTypes[name] = schema.coreConfigSchemaBlock()
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default:
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// Should never happen for a valid schema
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panic(fmt.Errorf("invalid Schema.Elem %#v; need *Schema or *Resource", schema.Elem))
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}
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}
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}
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return ret
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}
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// coreConfigSchemaAttribute prepares a configschema.Attribute representation
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// of a schema. This is appropriate only for primitives or collections whose
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// Elem is an instance of Schema. Use coreConfigSchemaBlock for collections
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// whose elem is a whole resource.
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func (s *Schema) coreConfigSchemaAttribute() *configschema.Attribute {
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// The Schema.DefaultFunc capability adds some extra weirdness here since
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// it can be combined with "Required: true" to create a situation where
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// required-ness is conditional. Terraform Core doesn't share this concept,
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// so we must sniff for this possibility here and conditionally turn
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// off the "Required" flag if it looks like the DefaultFunc is going
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// to provide a value.
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// This is not 100% true to the original interface of DefaultFunc but
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// works well enough for the EnvDefaultFunc and MultiEnvDefaultFunc
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// situations, which are the main cases we care about.
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//
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// Note that this also has a consequence for commands that return schema
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// information for documentation purposes: running those for certain
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// providers will produce different results depending on which environment
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// variables are set. We accept that weirdness in order to keep this
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// interface to core otherwise simple.
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reqd := s.Required
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opt := s.Optional
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if reqd && s.DefaultFunc != nil {
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v, err := s.DefaultFunc()
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// We can't report errors from here, so we'll instead just force
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// "Required" to false and let the provider try calling its
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// DefaultFunc again during the validate step, where it can then
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// return the error.
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if err != nil || (err == nil && v != nil) {
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reqd = false
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opt = true
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}
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}
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return &configschema.Attribute{
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Type: s.coreConfigSchemaType(),
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Optional: opt,
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Required: reqd,
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Computed: s.Computed,
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Sensitive: s.Sensitive,
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Description: s.Description,
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}
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}
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// coreConfigSchemaBlock prepares a configschema.NestedBlock representation of
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// a schema. This is appropriate only for collections whose Elem is an instance
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// of Resource, and will panic otherwise.
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func (s *Schema) coreConfigSchemaBlock() *configschema.NestedBlock {
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ret := &configschema.NestedBlock{}
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if nested := s.Elem.(*Resource).coreConfigSchema(); nested != nil {
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ret.Block = *nested
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}
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switch s.Type {
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case TypeList:
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ret.Nesting = configschema.NestingList
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case TypeSet:
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ret.Nesting = configschema.NestingSet
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case TypeMap:
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ret.Nesting = configschema.NestingMap
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default:
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// Should never happen for a valid schema
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panic(fmt.Errorf("invalid s.Type %s for s.Elem being resource", s.Type))
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}
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ret.MinItems = s.MinItems
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ret.MaxItems = s.MaxItems
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if s.Required && s.MinItems == 0 {
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// configschema doesn't have a "required" representation for nested
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// blocks, but we can fake it by requiring at least one item.
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ret.MinItems = 1
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}
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if s.Optional && s.MinItems > 0 {
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// Historically helper/schema would ignore MinItems if Optional were
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// set, so we must mimic this behavior here to ensure that providers
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// relying on that undocumented behavior can continue to operate as
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// they did before.
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ret.MinItems = 0
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}
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if s.Computed && !s.Optional {
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// MinItems/MaxItems are meaningless for computed nested blocks, since
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// they are never set by the user anyway. This ensures that we'll never
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// generate weird errors about them.
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ret.MinItems = 0
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ret.MaxItems = 0
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}
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return ret
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}
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// coreConfigSchemaType determines the core config schema type that corresponds
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// to a particular schema's type.
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func (s *Schema) coreConfigSchemaType() cty.Type {
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switch s.Type {
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case TypeString:
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return cty.String
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case TypeBool:
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return cty.Bool
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case TypeInt, TypeFloat:
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// configschema doesn't distinguish int and float, so helper/schema
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// will deal with this as an additional validation step after
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// configuration has been parsed and decoded.
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return cty.Number
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case TypeList, TypeSet, TypeMap:
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var elemType cty.Type
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switch set := s.Elem.(type) {
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case *Schema:
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elemType = set.coreConfigSchemaType()
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case ValueType:
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// This represents a mistake in the provider code, but it's a
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// common one so we'll just shim it.
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elemType = (&Schema{Type: set}).coreConfigSchemaType()
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case *Resource:
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// By default we construct a NestedBlock in this case, but this
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// behavior is selected either for computed-only schemas or
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// when ConfigMode is explicitly SchemaConfigModeBlock.
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// See schemaMap.CoreConfigSchema for the exact rules.
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elemType = set.coreConfigSchema().ImpliedType()
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default:
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if set != nil {
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// Should never happen for a valid schema
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panic(fmt.Errorf("invalid Schema.Elem %#v; need *Schema or *Resource", s.Elem))
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}
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// Some pre-existing schemas assume string as default, so we need
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// to be compatible with them.
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elemType = cty.String
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}
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switch s.Type {
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case TypeList:
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return cty.List(elemType)
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case TypeSet:
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return cty.Set(elemType)
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case TypeMap:
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return cty.Map(elemType)
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default:
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// can never get here in practice, due to the case we're inside
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panic("invalid collection type")
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}
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default:
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// should never happen for a valid schema
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panic(fmt.Errorf("invalid Schema.Type %s", s.Type))
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}
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}
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// CoreConfigSchema is a convenient shortcut for calling CoreConfigSchema on
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// the resource's schema. CoreConfigSchema adds the implicitly required "id"
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// attribute for top level resources if it doesn't exist.
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func (r *Resource) CoreConfigSchema() *configschema.Block {
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block := r.coreConfigSchema()
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if block.Attributes == nil {
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block.Attributes = map[string]*configschema.Attribute{}
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}
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// Add the implicitly required "id" field if it doesn't exist
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if block.Attributes["id"] == nil {
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block.Attributes["id"] = &configschema.Attribute{
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Type: cty.String,
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Optional: true,
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Computed: true,
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}
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}
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_, timeoutsAttr := block.Attributes[TimeoutsConfigKey]
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_, timeoutsBlock := block.BlockTypes[TimeoutsConfigKey]
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// Insert configured timeout values into the schema, as long as the schema
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// didn't define anything else by that name.
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if r.Timeouts != nil && !timeoutsAttr && !timeoutsBlock {
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timeouts := configschema.Block{
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Attributes: map[string]*configschema.Attribute{},
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}
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if r.Timeouts.Create != nil {
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timeouts.Attributes[TimeoutCreate] = &configschema.Attribute{
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Type: cty.String,
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Optional: true,
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}
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}
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if r.Timeouts.Read != nil {
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timeouts.Attributes[TimeoutRead] = &configschema.Attribute{
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Type: cty.String,
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Optional: true,
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}
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}
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if r.Timeouts.Update != nil {
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timeouts.Attributes[TimeoutUpdate] = &configschema.Attribute{
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Type: cty.String,
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Optional: true,
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}
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}
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if r.Timeouts.Delete != nil {
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timeouts.Attributes[TimeoutDelete] = &configschema.Attribute{
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Type: cty.String,
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Optional: true,
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}
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}
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if r.Timeouts.Default != nil {
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timeouts.Attributes[TimeoutDefault] = &configschema.Attribute{
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Type: cty.String,
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Optional: true,
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}
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}
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block.BlockTypes[TimeoutsConfigKey] = &configschema.NestedBlock{
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Nesting: configschema.NestingSingle,
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Block: timeouts,
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}
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}
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return block
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}
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func (r *Resource) coreConfigSchema() *configschema.Block {
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return schemaMap(r.Schema).CoreConfigSchema()
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}
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// CoreConfigSchema is a convenient shortcut for calling CoreConfigSchema
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// on the backends's schema.
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func (r *Backend) CoreConfigSchema() *configschema.Block {
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return schemaMap(r.Schema).CoreConfigSchema()
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}
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