// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package resource import ( "fmt" "github.com/hashicorp/consul/proto-public/pbresource" "google.golang.org/protobuf/reflect/protoreflect" ) var ( ErrMissing = NewConstError("missing required field") ErrEmpty = NewConstError("cannot be empty") ErrReferenceTenancyNotEqual = NewConstError("resource tenancy and reference tenancy differ") ) // ConstError is more or less equivalent to the stdlib errors.errorstring. However, having // our own exported type allows us to more accurately compare error values in tests. // // - go-cmp will not compared unexported fields by default. // - cmp.AllowUnexported() requires a concrete struct type and due to the stdlib not // exporting the errorstring type there doesn't seem to be a way to get at the type. // - cmpopts.EquateErrors has issues with protobuf types within other error structs. // // Due to these factors the easiest thing to do is to create a custom comparer for // the ConstError type and use it where necessary. type ConstError struct { message string } func NewConstError(msg string) ConstError { return ConstError{message: msg} } func (e ConstError) Error() string { return e.message } type ErrDataParse struct { TypeName string Wrapped error } func NewErrDataParse(msg protoreflect.ProtoMessage, err error) ErrDataParse { return ErrDataParse{ TypeName: string(msg.ProtoReflect().Descriptor().FullName()), Wrapped: err, } } func (err ErrDataParse) Error() string { return fmt.Sprintf("error parsing resource data as type %q: %s", err.TypeName, err.Wrapped.Error()) } func (err ErrDataParse) Unwrap() error { return err.Wrapped } type ErrInvalidField struct { Name string Wrapped error } func (err ErrInvalidField) Error() string { return fmt.Sprintf("invalid %q field: %v", err.Name, err.Wrapped) } func (err ErrInvalidField) Unwrap() error { return err.Wrapped } type ErrInvalidListElement struct { Name string Index int Wrapped error } func (err ErrInvalidListElement) Error() string { return fmt.Sprintf("invalid element at index %d of list %q: %v", err.Index, err.Name, err.Wrapped) } func (err ErrInvalidListElement) Unwrap() error { return err.Wrapped } type ErrInvalidMapValue struct { Map string Key string Wrapped error } func (err ErrInvalidMapValue) Error() string { return fmt.Sprintf("invalid value of key %q within %s: %v", err.Key, err.Map, err.Wrapped) } func (err ErrInvalidMapValue) Unwrap() error { return err.Wrapped } type ErrInvalidMapKey struct { Map string Key string Wrapped error } func (err ErrInvalidMapKey) Error() string { return fmt.Sprintf("map %s contains an invalid key - %q: %v", err.Map, err.Key, err.Wrapped) } func (err ErrInvalidMapKey) Unwrap() error { return err.Wrapped } type ErrOwnerTypeInvalid struct { ResourceType *pbresource.Type OwnerType *pbresource.Type } func (err ErrOwnerTypeInvalid) Error() string { return fmt.Sprintf( "resources of type %s cannot be owned by resources with type %s", ToGVK(err.ResourceType), ToGVK(err.OwnerType), ) } type ErrOwnerTenantInvalid struct { ResourceType *pbresource.Type ResourceTenancy *pbresource.Tenancy OwnerTenancy *pbresource.Tenancy } func (err ErrOwnerTenantInvalid) Error() string { return fmt.Sprintf( "resource in partition %s, namespace %s and peer %s cannot be owned by a resource in partition %s, namespace %s and peer %s", err.ResourceTenancy.Partition, err.ResourceTenancy.Namespace, err.ResourceTenancy.PeerName, err.OwnerTenancy.Partition, err.OwnerTenancy.Namespace, err.OwnerTenancy.PeerName, ) } type ErrInvalidReferenceType struct { AllowedType *pbresource.Type } func (err ErrInvalidReferenceType) Error() string { return fmt.Sprintf("reference must have type %s", ToGVK(err.AllowedType)) }