// Copyright 2019 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package protodesc import ( "google.golang.org/protobuf/internal/errors" "google.golang.org/protobuf/internal/filedesc" "google.golang.org/protobuf/internal/strs" "google.golang.org/protobuf/reflect/protoreflect" "google.golang.org/protobuf/types/descriptorpb" ) type descsByName map[protoreflect.FullName]protoreflect.Descriptor func (r descsByName) initEnumDeclarations(eds []*descriptorpb.EnumDescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (es []filedesc.Enum, err error) { es = make([]filedesc.Enum, len(eds)) // allocate up-front to ensure stable pointers for i, ed := range eds { e := &es[i] e.L2 = new(filedesc.EnumL2) if e.L0, err = r.makeBase(e, parent, ed.GetName(), i, sb); err != nil { return nil, err } if opts := ed.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.EnumOptions) e.L2.Options = func() protoreflect.ProtoMessage { return opts } } for _, s := range ed.GetReservedName() { e.L2.ReservedNames.List = append(e.L2.ReservedNames.List, protoreflect.Name(s)) } for _, rr := range ed.GetReservedRange() { e.L2.ReservedRanges.List = append(e.L2.ReservedRanges.List, [2]protoreflect.EnumNumber{ protoreflect.EnumNumber(rr.GetStart()), protoreflect.EnumNumber(rr.GetEnd()), }) } if e.L2.Values.List, err = r.initEnumValuesFromDescriptorProto(ed.GetValue(), e, sb); err != nil { return nil, err } } return es, nil } func (r descsByName) initEnumValuesFromDescriptorProto(vds []*descriptorpb.EnumValueDescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (vs []filedesc.EnumValue, err error) { vs = make([]filedesc.EnumValue, len(vds)) // allocate up-front to ensure stable pointers for i, vd := range vds { v := &vs[i] if v.L0, err = r.makeBase(v, parent, vd.GetName(), i, sb); err != nil { return nil, err } if opts := vd.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.EnumValueOptions) v.L1.Options = func() protoreflect.ProtoMessage { return opts } } v.L1.Number = protoreflect.EnumNumber(vd.GetNumber()) } return vs, nil } func (r descsByName) initMessagesDeclarations(mds []*descriptorpb.DescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (ms []filedesc.Message, err error) { ms = make([]filedesc.Message, len(mds)) // allocate up-front to ensure stable pointers for i, md := range mds { m := &ms[i] m.L2 = new(filedesc.MessageL2) if m.L0, err = r.makeBase(m, parent, md.GetName(), i, sb); err != nil { return nil, err } if opts := md.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.MessageOptions) m.L2.Options = func() protoreflect.ProtoMessage { return opts } m.L2.IsMapEntry = opts.GetMapEntry() m.L2.IsMessageSet = opts.GetMessageSetWireFormat() } for _, s := range md.GetReservedName() { m.L2.ReservedNames.List = append(m.L2.ReservedNames.List, protoreflect.Name(s)) } for _, rr := range md.GetReservedRange() { m.L2.ReservedRanges.List = append(m.L2.ReservedRanges.List, [2]protoreflect.FieldNumber{ protoreflect.FieldNumber(rr.GetStart()), protoreflect.FieldNumber(rr.GetEnd()), }) } for _, xr := range md.GetExtensionRange() { m.L2.ExtensionRanges.List = append(m.L2.ExtensionRanges.List, [2]protoreflect.FieldNumber{ protoreflect.FieldNumber(xr.GetStart()), protoreflect.FieldNumber(xr.GetEnd()), }) var optsFunc func() protoreflect.ProtoMessage if opts := xr.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.ExtensionRangeOptions) optsFunc = func() protoreflect.ProtoMessage { return opts } } m.L2.ExtensionRangeOptions = append(m.L2.ExtensionRangeOptions, optsFunc) } if m.L2.Fields.List, err = r.initFieldsFromDescriptorProto(md.GetField(), m, sb); err != nil { return nil, err } if m.L2.Oneofs.List, err = r.initOneofsFromDescriptorProto(md.GetOneofDecl(), m, sb); err != nil { return nil, err } if m.L1.Enums.List, err = r.initEnumDeclarations(md.GetEnumType(), m, sb); err != nil { return nil, err } if m.L1.Messages.List, err = r.initMessagesDeclarations(md.GetNestedType(), m, sb); err != nil { return nil, err } if m.L1.Extensions.List, err = r.initExtensionDeclarations(md.GetExtension(), m, sb); err != nil { return nil, err } } return ms, nil } func (r descsByName) initFieldsFromDescriptorProto(fds []*descriptorpb.FieldDescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (fs []filedesc.Field, err error) { fs = make([]filedesc.Field, len(fds)) // allocate up-front to ensure stable pointers for i, fd := range fds { f := &fs[i] if f.L0, err = r.makeBase(f, parent, fd.GetName(), i, sb); err != nil { return nil, err } if opts := fd.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.FieldOptions) f.L1.Options = func() protoreflect.ProtoMessage { return opts } f.L1.IsWeak = opts.GetWeak() f.L1.HasPacked = opts.Packed != nil f.L1.IsPacked = opts.GetPacked() } f.L1.Number = protoreflect.FieldNumber(fd.GetNumber()) f.L1.Cardinality = protoreflect.Cardinality(fd.GetLabel()) if fd.Type != nil { f.L1.Kind = protoreflect.Kind(fd.GetType()) } if fd.JsonName != nil { f.L1.JSONName = filedesc.JSONName(fd.GetJsonName()) } } return fs, nil } func (r descsByName) initOneofsFromDescriptorProto(ods []*descriptorpb.OneofDescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (os []filedesc.Oneof, err error) { os = make([]filedesc.Oneof, len(ods)) // allocate up-front to ensure stable pointers for i, od := range ods { o := &os[i] if o.L0, err = r.makeBase(o, parent, od.GetName(), i, sb); err != nil { return nil, err } if opts := od.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.OneofOptions) o.L1.Options = func() protoreflect.ProtoMessage { return opts } } } return os, nil } func (r descsByName) initExtensionDeclarations(xds []*descriptorpb.FieldDescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (xs []filedesc.Extension, err error) { xs = make([]filedesc.Extension, len(xds)) // allocate up-front to ensure stable pointers for i, xd := range xds { x := &xs[i] x.L2 = new(filedesc.ExtensionL2) if x.L0, err = r.makeBase(x, parent, xd.GetName(), i, sb); err != nil { return nil, err } if opts := xd.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.FieldOptions) x.L2.Options = func() protoreflect.ProtoMessage { return opts } x.L2.IsPacked = opts.GetPacked() } x.L1.Number = protoreflect.FieldNumber(xd.GetNumber()) x.L1.Cardinality = protoreflect.Cardinality(xd.GetLabel()) if xd.Type != nil { x.L1.Kind = protoreflect.Kind(xd.GetType()) } if xd.JsonName != nil { x.L2.JSONName = filedesc.JSONName(xd.GetJsonName()) } } return xs, nil } func (r descsByName) initServiceDeclarations(sds []*descriptorpb.ServiceDescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (ss []filedesc.Service, err error) { ss = make([]filedesc.Service, len(sds)) // allocate up-front to ensure stable pointers for i, sd := range sds { s := &ss[i] s.L2 = new(filedesc.ServiceL2) if s.L0, err = r.makeBase(s, parent, sd.GetName(), i, sb); err != nil { return nil, err } if opts := sd.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.ServiceOptions) s.L2.Options = func() protoreflect.ProtoMessage { return opts } } if s.L2.Methods.List, err = r.initMethodsFromDescriptorProto(sd.GetMethod(), s, sb); err != nil { return nil, err } } return ss, nil } func (r descsByName) initMethodsFromDescriptorProto(mds []*descriptorpb.MethodDescriptorProto, parent protoreflect.Descriptor, sb *strs.Builder) (ms []filedesc.Method, err error) { ms = make([]filedesc.Method, len(mds)) // allocate up-front to ensure stable pointers for i, md := range mds { m := &ms[i] if m.L0, err = r.makeBase(m, parent, md.GetName(), i, sb); err != nil { return nil, err } if opts := md.GetOptions(); opts != nil { opts = clone(opts).(*descriptorpb.MethodOptions) m.L1.Options = func() protoreflect.ProtoMessage { return opts } } m.L1.IsStreamingClient = md.GetClientStreaming() m.L1.IsStreamingServer = md.GetServerStreaming() } return ms, nil } func (r descsByName) makeBase(child, parent protoreflect.Descriptor, name string, idx int, sb *strs.Builder) (filedesc.BaseL0, error) { if !protoreflect.Name(name).IsValid() { return filedesc.BaseL0{}, errors.New("descriptor %q has an invalid nested name: %q", parent.FullName(), name) } // Derive the full name of the child. // Note that enum values are a sibling to the enum parent in the namespace. var fullName protoreflect.FullName if _, ok := parent.(protoreflect.EnumDescriptor); ok { fullName = sb.AppendFullName(parent.FullName().Parent(), protoreflect.Name(name)) } else { fullName = sb.AppendFullName(parent.FullName(), protoreflect.Name(name)) } if _, ok := r[fullName]; ok { return filedesc.BaseL0{}, errors.New("descriptor %q already declared", fullName) } r[fullName] = child // TODO: Verify that the full name does not already exist in the resolver? // This is not as critical since most usages of NewFile will register // the created file back into the registry, which will perform this check. return filedesc.BaseL0{ FullName: fullName, ParentFile: parent.ParentFile().(*filedesc.File), Parent: parent, Index: idx, }, nil }