package configschema import ( "fmt" "regexp" "github.com/zclconf/go-cty/cty" multierror "github.com/hashicorp/go-multierror" ) var validName = regexp.MustCompile(`^[a-z0-9_]+$`) // InternalValidate returns an error if the receiving block and its child schema // definitions have any inconsistencies with the documented rules for valid // schema. // // This can be used within unit tests to detect when a given schema is invalid, // and is run when terraform loads provider schemas during NewContext. func (b *Block) InternalValidate() error { if b == nil { return fmt.Errorf("top-level block schema is nil") } return b.internalValidate("") } func (b *Block) internalValidate(prefix string) error { var multiErr *multierror.Error for name, attrS := range b.Attributes { if attrS == nil { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: attribute schema is nil", prefix, name)) continue } multiErr = multierror.Append(multiErr, attrS.internalValidate(name, prefix)) } for name, blockS := range b.BlockTypes { if blockS == nil { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: block schema is nil", prefix, name)) continue } if _, isAttr := b.Attributes[name]; isAttr { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: name defined as both attribute and child block type", prefix, name)) } else if !validName.MatchString(name) { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: name may contain only lowercase letters, digits and underscores", prefix, name)) } if blockS.MinItems < 0 || blockS.MaxItems < 0 { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: MinItems and MaxItems must both be greater than zero", prefix, name)) } switch blockS.Nesting { case NestingSingle: switch { case blockS.MinItems != blockS.MaxItems: multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: MinItems and MaxItems must match in NestingSingle mode", prefix, name)) case blockS.MinItems < 0 || blockS.MinItems > 1: multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: MinItems and MaxItems must be set to either 0 or 1 in NestingSingle mode", prefix, name)) } case NestingGroup: if blockS.MinItems != 0 || blockS.MaxItems != 0 { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: MinItems and MaxItems cannot be used in NestingGroup mode", prefix, name)) } case NestingList, NestingSet: if blockS.MinItems > blockS.MaxItems && blockS.MaxItems != 0 { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: MinItems must be less than or equal to MaxItems in %s mode", prefix, name, blockS.Nesting)) } if blockS.Nesting == NestingSet { ety := blockS.Block.ImpliedType() if ety.HasDynamicTypes() { // This is not permitted because the HCL (cty) set implementation // needs to know the exact type of set elements in order to // properly hash them, and so can't support mixed types. multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: NestingSet blocks may not contain attributes of cty.DynamicPseudoType", prefix, name)) } } case NestingMap: if blockS.MinItems != 0 || blockS.MaxItems != 0 { multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: MinItems and MaxItems must both be 0 in NestingMap mode", prefix, name)) } default: multiErr = multierror.Append(multiErr, fmt.Errorf("%s%s: invalid nesting mode %s", prefix, name, blockS.Nesting)) } subPrefix := prefix + name + "." multiErr = multierror.Append(multiErr, blockS.Block.internalValidate(subPrefix)) } return multiErr.ErrorOrNil() } // InternalValidate returns an error if the receiving attribute and its child // schema definitions have any inconsistencies with the documented rules for // valid schema. func (a *Attribute) InternalValidate(name string) error { if a == nil { return fmt.Errorf("attribute schema is nil") } return a.internalValidate(name, "") } func (a *Attribute) internalValidate(name, prefix string) error { var err *multierror.Error /* FIXME: this validation breaks certain existing providers and cannot be enforced without coordination. if !validName.MatchString(name) { err = multierror.Append(err, fmt.Errorf("%s%s: name may contain only lowercase letters, digits and underscores", prefix, name)) } */ if !a.Optional && !a.Required && !a.Computed { err = multierror.Append(err, fmt.Errorf("%s%s: must set Optional, Required or Computed", prefix, name)) } if a.Optional && a.Required { err = multierror.Append(err, fmt.Errorf("%s%s: cannot set both Optional and Required", prefix, name)) } if a.Computed && a.Required { err = multierror.Append(err, fmt.Errorf("%s%s: cannot set both Computed and Required", prefix, name)) } if a.Type == cty.NilType && a.NestedType == nil { err = multierror.Append(err, fmt.Errorf("%s%s: either Type or NestedType must be defined", prefix, name)) } if a.Type != cty.NilType { if a.NestedType != nil { err = multierror.Append(fmt.Errorf("%s: Type and NestedType cannot both be set", name)) } } if a.NestedType != nil { switch a.NestedType.Nesting { case NestingSingle, NestingMap: // no validations to perform case NestingList, NestingSet: if a.NestedType.Nesting == NestingSet { ety := a.NestedType.ImpliedType() if ety.HasDynamicTypes() { // This is not permitted because the HCL (cty) set implementation // needs to know the exact type of set elements in order to // properly hash them, and so can't support mixed types. err = multierror.Append(err, fmt.Errorf("%s%s: NestingSet blocks may not contain attributes of cty.DynamicPseudoType", prefix, name)) } } default: err = multierror.Append(err, fmt.Errorf("%s%s: invalid nesting mode %s", prefix, name, a.NestedType.Nesting)) } for name, attrS := range a.NestedType.Attributes { if attrS == nil { err = multierror.Append(err, fmt.Errorf("%s%s: attribute schema is nil", prefix, name)) continue } err = multierror.Append(err, attrS.internalValidate(name, prefix)) } } return err.ErrorOrNil() }