// Copyright 2018 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 internal_gengo import ( "fmt" "math" "strings" "unicode/utf8" "google.golang.org/protobuf/compiler/protogen" "google.golang.org/protobuf/proto" "google.golang.org/protobuf/reflect/protoreflect" "google.golang.org/protobuf/types/descriptorpb" ) func genReflectFileDescriptor(gen *protogen.Plugin, g *protogen.GeneratedFile, f *fileInfo) { g.P("var ", f.GoDescriptorIdent, " ", protoreflectPackage.Ident("FileDescriptor")) g.P() genFileDescriptor(gen, g, f) if len(f.allEnums) > 0 { g.P("var ", enumTypesVarName(f), " = make([]", protoimplPackage.Ident("EnumInfo"), ",", len(f.allEnums), ")") } if len(f.allMessages) > 0 { g.P("var ", messageTypesVarName(f), " = make([]", protoimplPackage.Ident("MessageInfo"), ",", len(f.allMessages), ")") } // Generate a unique list of Go types for all declarations and dependencies, // and the associated index into the type list for all dependencies. var goTypes []string var depIdxs []string seen := map[protoreflect.FullName]int{} genDep := func(name protoreflect.FullName, depSource string) { if depSource != "" { line := fmt.Sprintf("%d, // %d: %s -> %s", seen[name], len(depIdxs), depSource, name) depIdxs = append(depIdxs, line) } } genEnum := func(e *protogen.Enum, depSource string) { if e != nil { name := e.Desc.FullName() if _, ok := seen[name]; !ok { line := fmt.Sprintf("(%s)(0), // %d: %s", g.QualifiedGoIdent(e.GoIdent), len(goTypes), name) goTypes = append(goTypes, line) seen[name] = len(seen) } if depSource != "" { genDep(name, depSource) } } } genMessage := func(m *protogen.Message, depSource string) { if m != nil { name := m.Desc.FullName() if _, ok := seen[name]; !ok { line := fmt.Sprintf("(*%s)(nil), // %d: %s", g.QualifiedGoIdent(m.GoIdent), len(goTypes), name) if m.Desc.IsMapEntry() { // Map entry messages have no associated Go type. line = fmt.Sprintf("nil, // %d: %s", len(goTypes), name) } goTypes = append(goTypes, line) seen[name] = len(seen) } if depSource != "" { genDep(name, depSource) } } } // This ordering is significant. // See filetype.TypeBuilder.DependencyIndexes. type offsetEntry struct { start int name string } var depOffsets []offsetEntry for _, enum := range f.allEnums { genEnum(enum.Enum, "") } for _, message := range f.allMessages { genMessage(message.Message, "") } depOffsets = append(depOffsets, offsetEntry{len(depIdxs), "field type_name"}) for _, message := range f.allMessages { for _, field := range message.Fields { if field.Desc.IsWeak() { continue } source := string(field.Desc.FullName()) genEnum(field.Enum, source+":type_name") genMessage(field.Message, source+":type_name") } } depOffsets = append(depOffsets, offsetEntry{len(depIdxs), "extension extendee"}) for _, extension := range f.allExtensions { source := string(extension.Desc.FullName()) genMessage(extension.Extendee, source+":extendee") } depOffsets = append(depOffsets, offsetEntry{len(depIdxs), "extension type_name"}) for _, extension := range f.allExtensions { source := string(extension.Desc.FullName()) genEnum(extension.Enum, source+":type_name") genMessage(extension.Message, source+":type_name") } depOffsets = append(depOffsets, offsetEntry{len(depIdxs), "method input_type"}) for _, service := range f.Services { for _, method := range service.Methods { source := string(method.Desc.FullName()) genMessage(method.Input, source+":input_type") } } depOffsets = append(depOffsets, offsetEntry{len(depIdxs), "method output_type"}) for _, service := range f.Services { for _, method := range service.Methods { source := string(method.Desc.FullName()) genMessage(method.Output, source+":output_type") } } depOffsets = append(depOffsets, offsetEntry{len(depIdxs), ""}) for i := len(depOffsets) - 2; i >= 0; i-- { curr, next := depOffsets[i], depOffsets[i+1] depIdxs = append(depIdxs, fmt.Sprintf("%d, // [%d:%d] is the sub-list for %s", curr.start, curr.start, next.start, curr.name)) } if len(depIdxs) > math.MaxInt32 { panic("too many dependencies") // sanity check } g.P("var ", goTypesVarName(f), " = []interface{}{") for _, s := range goTypes { g.P(s) } g.P("}") g.P("var ", depIdxsVarName(f), " = []int32{") for _, s := range depIdxs { g.P(s) } g.P("}") g.P("func init() { ", initFuncName(f.File), "() }") g.P("func ", initFuncName(f.File), "() {") g.P("if ", f.GoDescriptorIdent, " != nil {") g.P("return") g.P("}") // Ensure that initialization functions for different files in the same Go // package run in the correct order: Call the init funcs for every .proto file // imported by this one that is in the same Go package. for i, imps := 0, f.Desc.Imports(); i < imps.Len(); i++ { impFile := gen.FilesByPath[imps.Get(i).Path()] if impFile.GoImportPath != f.GoImportPath { continue } g.P(initFuncName(impFile), "()") } if len(f.allMessages) > 0 { // Populate MessageInfo.Exporters. g.P("if !", protoimplPackage.Ident("UnsafeEnabled"), " {") for _, message := range f.allMessages { if sf := f.allMessageFieldsByPtr[message]; len(sf.unexported) > 0 { idx := f.allMessagesByPtr[message] typesVar := messageTypesVarName(f) g.P(typesVar, "[", idx, "].Exporter = func(v interface{}, i int) interface{} {") g.P("switch v := v.(*", message.GoIdent, "); i {") for i := 0; i < sf.count; i++ { if name := sf.unexported[i]; name != "" { g.P("case ", i, ": return &v.", name) } } g.P("default: return nil") g.P("}") g.P("}") } } g.P("}") // Populate MessageInfo.OneofWrappers. for _, message := range f.allMessages { if len(message.Oneofs) > 0 { idx := f.allMessagesByPtr[message] typesVar := messageTypesVarName(f) // Associate the wrapper types by directly passing them to the MessageInfo. g.P(typesVar, "[", idx, "].OneofWrappers = []interface{} {") for _, oneof := range message.Oneofs { if !oneof.Desc.IsSynthetic() { for _, field := range oneof.Fields { g.P("(*", field.GoIdent, ")(nil),") } } } g.P("}") } } } g.P("type x struct{}") g.P("out := ", protoimplPackage.Ident("TypeBuilder"), "{") g.P("File: ", protoimplPackage.Ident("DescBuilder"), "{") g.P("GoPackagePath: ", reflectPackage.Ident("TypeOf"), "(x{}).PkgPath(),") g.P("RawDescriptor: ", rawDescVarName(f), ",") g.P("NumEnums: ", len(f.allEnums), ",") g.P("NumMessages: ", len(f.allMessages), ",") g.P("NumExtensions: ", len(f.allExtensions), ",") g.P("NumServices: ", len(f.Services), ",") g.P("},") g.P("GoTypes: ", goTypesVarName(f), ",") g.P("DependencyIndexes: ", depIdxsVarName(f), ",") if len(f.allEnums) > 0 { g.P("EnumInfos: ", enumTypesVarName(f), ",") } if len(f.allMessages) > 0 { g.P("MessageInfos: ", messageTypesVarName(f), ",") } if len(f.allExtensions) > 0 { g.P("ExtensionInfos: ", extensionTypesVarName(f), ",") } g.P("}.Build()") g.P(f.GoDescriptorIdent, " = out.File") // Set inputs to nil to allow GC to reclaim resources. g.P(rawDescVarName(f), " = nil") g.P(goTypesVarName(f), " = nil") g.P(depIdxsVarName(f), " = nil") g.P("}") } func genFileDescriptor(gen *protogen.Plugin, g *protogen.GeneratedFile, f *fileInfo) { descProto := proto.Clone(f.Proto).(*descriptorpb.FileDescriptorProto) descProto.SourceCodeInfo = nil // drop source code information b, err := proto.MarshalOptions{AllowPartial: true, Deterministic: true}.Marshal(descProto) if err != nil { gen.Error(err) return } g.P("var ", rawDescVarName(f), " = []byte{") for len(b) > 0 { n := 16 if n > len(b) { n = len(b) } s := "" for _, c := range b[:n] { s += fmt.Sprintf("0x%02x,", c) } g.P(s) b = b[n:] } g.P("}") g.P() if f.needRawDesc { onceVar := rawDescVarName(f) + "Once" dataVar := rawDescVarName(f) + "Data" g.P("var (") g.P(onceVar, " ", syncPackage.Ident("Once")) g.P(dataVar, " = ", rawDescVarName(f)) g.P(")") g.P() g.P("func ", rawDescVarName(f), "GZIP() []byte {") g.P(onceVar, ".Do(func() {") g.P(dataVar, " = ", protoimplPackage.Ident("X"), ".CompressGZIP(", dataVar, ")") g.P("})") g.P("return ", dataVar) g.P("}") g.P() } } func genEnumReflectMethods(g *protogen.GeneratedFile, f *fileInfo, e *enumInfo) { idx := f.allEnumsByPtr[e] typesVar := enumTypesVarName(f) // Descriptor method. g.P("func (", e.GoIdent, ") Descriptor() ", protoreflectPackage.Ident("EnumDescriptor"), " {") g.P("return ", typesVar, "[", idx, "].Descriptor()") g.P("}") g.P() // Type method. g.P("func (", e.GoIdent, ") Type() ", protoreflectPackage.Ident("EnumType"), " {") g.P("return &", typesVar, "[", idx, "]") g.P("}") g.P() // Number method. g.P("func (x ", e.GoIdent, ") Number() ", protoreflectPackage.Ident("EnumNumber"), " {") g.P("return ", protoreflectPackage.Ident("EnumNumber"), "(x)") g.P("}") g.P() } func genMessageReflectMethods(g *protogen.GeneratedFile, f *fileInfo, m *messageInfo) { idx := f.allMessagesByPtr[m] typesVar := messageTypesVarName(f) // ProtoReflect method. g.P("func (x *", m.GoIdent, ") ProtoReflect() ", protoreflectPackage.Ident("Message"), " {") g.P("mi := &", typesVar, "[", idx, "]") g.P("if ", protoimplPackage.Ident("UnsafeEnabled"), " && x != nil {") g.P("ms := ", protoimplPackage.Ident("X"), ".MessageStateOf(", protoimplPackage.Ident("Pointer"), "(x))") g.P("if ms.LoadMessageInfo() == nil {") g.P("ms.StoreMessageInfo(mi)") g.P("}") g.P("return ms") g.P("}") g.P("return mi.MessageOf(x)") g.P("}") g.P() } func fileVarName(f *protogen.File, suffix string) string { prefix := f.GoDescriptorIdent.GoName _, n := utf8.DecodeRuneInString(prefix) prefix = strings.ToLower(prefix[:n]) + prefix[n:] return prefix + "_" + suffix } func rawDescVarName(f *fileInfo) string { return fileVarName(f.File, "rawDesc") } func goTypesVarName(f *fileInfo) string { return fileVarName(f.File, "goTypes") } func depIdxsVarName(f *fileInfo) string { return fileVarName(f.File, "depIdxs") } func enumTypesVarName(f *fileInfo) string { return fileVarName(f.File, "enumTypes") } func messageTypesVarName(f *fileInfo) string { return fileVarName(f.File, "msgTypes") } func extensionTypesVarName(f *fileInfo) string { return fileVarName(f.File, "extTypes") } func initFuncName(f *protogen.File) string { return fileVarName(f, "init") }