package generator import ( "bufio" "bytes" "fmt" "go/parser" "go/printer" "go/token" "path" "strconv" "strings" "github.com/golang/protobuf/protoc-gen-go/descriptor" plugin "github.com/golang/protobuf/protoc-gen-go/plugin" "github.com/pkg/errors" "github.com/go-kratos/kratos/tool/protobuf/pkg/gen" "github.com/go-kratos/kratos/tool/protobuf/pkg/naming" "github.com/go-kratos/kratos/tool/protobuf/pkg/typemap" "github.com/go-kratos/kratos/tool/protobuf/pkg/utils" ) const Version = "v0.1" var GoModuleImportPath = "github.com/go-kratos/kratos" var GoModuleDirName = "github.com/go-kratos/kratos" type Base struct { Reg *typemap.Registry // Map to record whether we've built each package // pkgName => alias name pkgs map[string]string pkgNamesInUse map[string]bool ImportPrefix string // String to prefix to imported package file names. importMap map[string]string // Mapping from .proto file name to import path. // Package naming: GenPkgName string // Name of the package that we're generating PackageName string // Name of the proto file package fileToGoPackageName map[*descriptor.FileDescriptorProto]string // List of files that were inputs to the generator. We need to hold this in // the struct so we can write a header for the file that lists its inputs. GenFiles []*descriptor.FileDescriptorProto // Output buffer that holds the bytes we want to write out for a single file. // Gets reset after working on a file. Output *bytes.Buffer // key: pkgName // value: importPath Deps map[string]string Params *ParamsBase httpInfoCache map[string]*HTTPInfo } // RegisterPackageName name is the go package name or proto pkg name // return go pkg alias func (t *Base) RegisterPackageName(name string) (alias string) { alias = name i := 1 for t.pkgNamesInUse[alias] { alias = name + strconv.Itoa(i) i++ } t.pkgNamesInUse[alias] = true t.pkgs[name] = alias return alias } func (t *Base) Setup(in *plugin.CodeGeneratorRequest, paramsOpt ...GeneratorParamsInterface) { t.httpInfoCache = make(map[string]*HTTPInfo) t.pkgs = make(map[string]string) t.pkgNamesInUse = make(map[string]bool) t.importMap = make(map[string]string) t.Deps = make(map[string]string) t.fileToGoPackageName = make(map[*descriptor.FileDescriptorProto]string) t.Output = bytes.NewBuffer(nil) var params GeneratorParamsInterface if len(paramsOpt) > 0 { params = paramsOpt[0] } else { params = &BasicParam{} } err := ParseGeneratorParams(in.GetParameter(), params) if err != nil { gen.Fail("could not parse parameters", err.Error()) } t.Params = params.GetBase() t.ImportPrefix = params.GetBase().ImportPrefix t.importMap = params.GetBase().ImportMap t.GenFiles = gen.FilesToGenerate(in) // Collect information on types. t.Reg = typemap.New(in.ProtoFile) t.RegisterPackageName("context") t.RegisterPackageName("ioutil") t.RegisterPackageName("proto") // Time to figure out package names of objects defined in protobuf. First, // we'll figure out the name for the package we're generating. genPkgName, err := DeduceGenPkgName(t.GenFiles) if err != nil { gen.Fail(err.Error()) } t.GenPkgName = genPkgName // Next, we need to pick names for all the files that are dependencies. if len(in.ProtoFile) > 0 { t.PackageName = t.GenFiles[0].GetPackage() } for _, f := range in.ProtoFile { if fileDescSliceContains(t.GenFiles, f) { // This is a file we are generating. It gets the shared package name. t.fileToGoPackageName[f] = t.GenPkgName } else { // This is a dependency. Use its package name. name := f.GetPackage() if name == "" { name = utils.BaseName(f.GetName()) } name = utils.CleanIdentifier(name) alias := t.RegisterPackageName(name) t.fileToGoPackageName[f] = alias } } for _, f := range t.GenFiles { deps := t.DeduceDeps(f) for k, v := range deps { t.Deps[k] = v } } } func (t *Base) DeduceDeps(file *descriptor.FileDescriptorProto) map[string]string { deps := make(map[string]string) // Map of package name to quoted import path. ourImportPath := path.Dir(naming.GoFileName(file, "")) for _, s := range file.Service { for _, m := range s.Method { defs := []*typemap.MessageDefinition{ t.Reg.MethodInputDefinition(m), t.Reg.MethodOutputDefinition(m), } for _, def := range defs { if def.File.GetPackage() == t.PackageName { continue } // By default, import path is the dirname of the Go filename. importPath := path.Dir(naming.GoFileName(def.File, "")) if importPath == ourImportPath { continue } importPath = t.SubstituteImportPath(importPath, def.File.GetName()) importPath = t.ImportPrefix + importPath pkg := t.GoPackageNameForProtoFile(def.File) deps[pkg] = strconv.Quote(importPath) } } } return deps } // DeduceGenPkgName figures out the go package name to use for generated code. // Will try to use the explicit go_package setting in a file (if set, must be // consistent in all files). If no files have go_package set, then use the // protobuf package name (must be consistent in all files) func DeduceGenPkgName(genFiles []*descriptor.FileDescriptorProto) (string, error) { var genPkgName string for _, f := range genFiles { name, explicit := naming.GoPackageName(f) if explicit { name = utils.CleanIdentifier(name) if genPkgName != "" && genPkgName != name { // Make sure they're all set consistently. return "", errors.Errorf("files have conflicting go_package settings, must be the same: %q and %q", genPkgName, name) } genPkgName = name } } if genPkgName != "" { return genPkgName, nil } // If there is no explicit setting, then check the implicit package name // (derived from the protobuf package name) of the files and make sure it's // consistent. for _, f := range genFiles { name, _ := naming.GoPackageName(f) name = utils.CleanIdentifier(name) if genPkgName != "" && genPkgName != name { return "", errors.Errorf("files have conflicting package names, must be the same or overridden with go_package: %q and %q", genPkgName, name) } genPkgName = name } // All the files have the same name, so we're good. return genPkgName, nil } func (t *Base) GoPackageNameForProtoFile(file *descriptor.FileDescriptorProto) string { return t.fileToGoPackageName[file] } func fileDescSliceContains(slice []*descriptor.FileDescriptorProto, f *descriptor.FileDescriptorProto) bool { for _, sf := range slice { if f == sf { return true } } return false } // P forwards to g.gen.P, which prints output. func (t *Base) P(args ...string) { for _, v := range args { t.Output.WriteString(v) } t.Output.WriteByte('\n') } func (t *Base) FormattedOutput() string { // Reformat generated code. fset := token.NewFileSet() raw := t.Output.Bytes() ast, err := parser.ParseFile(fset, "", raw, parser.ParseComments) if err != nil { // Print out the bad code with line numbers. // This should never happen in practice, but it can while changing generated code, // so consider this a debugging aid. var src bytes.Buffer s := bufio.NewScanner(bytes.NewReader(raw)) for line := 1; s.Scan(); line++ { fmt.Fprintf(&src, "%5d\t%s\n", line, s.Bytes()) } gen.Fail("bad Go source code was generated:", err.Error(), "\n"+src.String()) } out := bytes.NewBuffer(nil) err = (&printer.Config{Mode: printer.TabIndent | printer.UseSpaces, Tabwidth: 8}).Fprint(out, fset, ast) if err != nil { gen.Fail("generated Go source code could not be reformatted:", err.Error()) } return out.String() } func (t *Base) PrintComments(comments typemap.DefinitionComments) bool { text := strings.TrimSuffix(comments.Leading, "\n") if len(strings.TrimSpace(text)) == 0 { return false } split := strings.Split(text, "\n") for _, line := range split { t.P("// ", strings.TrimPrefix(line, " ")) } return len(split) > 0 } // IsOwnPackage ... // protoName is fully qualified name of a type func (t *Base) IsOwnPackage(protoName string) bool { def := t.Reg.MessageDefinition(protoName) if def == nil { gen.Fail("could not find message for", protoName) } return def.File.GetPackage() == t.PackageName } // Given a protobuf name for a Message, return the Go name we will use for that // type, including its package prefix. func (t *Base) GoTypeName(protoName string) string { def := t.Reg.MessageDefinition(protoName) if def == nil { gen.Fail("could not find message for", protoName) } var prefix string if def.File.GetPackage() != t.PackageName { prefix = t.GoPackageNameForProtoFile(def.File) + "." } var name string for _, parent := range def.Lineage() { name += parent.Descriptor.GetName() + "_" } name += def.Descriptor.GetName() return prefix + name } func streamingMethod(method *descriptor.MethodDescriptorProto) bool { return (method.ServerStreaming != nil && *method.ServerStreaming) || (method.ClientStreaming != nil && *method.ClientStreaming) } func (t *Base) ShouldGenForMethod(file *descriptor.FileDescriptorProto, service *descriptor.ServiceDescriptorProto, method *descriptor.MethodDescriptorProto) bool { if streamingMethod(method) { return false } if !t.Params.ExplicitHTTP { return true } httpInfo := t.GetHttpInfoCached(file, service, method) return httpInfo.HasExplicitHTTPPath } func (t *Base) SubstituteImportPath(importPath string, importFile string) string { if substitution, ok := t.importMap[importFile]; ok { importPath = substitution } return importPath }