package generator import ( "fmt" "reflect" "sort" "strings" "github.com/golang/protobuf/proto" "github.com/golang/protobuf/protoc-gen-go/descriptor" plugin "github.com/golang/protobuf/protoc-gen-go/plugin" "github.com/go-kratos/kratos/tool/protobuf/pkg/generator" "github.com/go-kratos/kratos/tool/protobuf/pkg/naming" "github.com/go-kratos/kratos/tool/protobuf/pkg/tag" "github.com/go-kratos/kratos/tool/protobuf/pkg/typemap" "github.com/go-kratos/kratos/tool/protobuf/pkg/utils" ) type bm struct { generator.Base filesHandled int } // BmGenerator BM generator. func BmGenerator() *bm { t := &bm{} return t } // Generate ... func (t *bm) Generate(in *plugin.CodeGeneratorRequest) *plugin.CodeGeneratorResponse { t.Setup(in) // Showtime! Generate the response. resp := new(plugin.CodeGeneratorResponse) for _, f := range t.GenFiles { respFile := t.generateForFile(f) if respFile != nil { resp.File = append(resp.File, respFile) } } return resp } func (t *bm) generateForFile(file *descriptor.FileDescriptorProto) *plugin.CodeGeneratorResponse_File { resp := new(plugin.CodeGeneratorResponse_File) t.generateFileHeader(file, t.GenPkgName) t.generateImports(file) t.generatePathConstants(file) count := 0 for i, service := range file.Service { count += t.generateBMInterface(file, service) t.generateBMRoute(file, service, i) } resp.Name = proto.String(naming.GenFileName(file, ".bm.go")) resp.Content = proto.String(t.FormattedOutput()) t.Output.Reset() t.filesHandled++ return resp } func (t *bm) generatePathConstants(file *descriptor.FileDescriptorProto) { t.P() for _, service := range file.Service { name := naming.ServiceName(service) for _, method := range service.Method { if !t.ShouldGenForMethod(file, service, method) { continue } apiInfo := t.GetHttpInfoCached(file, service, method) t.P(`var Path`, name, naming.MethodName(method), ` = "`, apiInfo.Path, `"`) } t.P() } } func (t *bm) generateFileHeader(file *descriptor.FileDescriptorProto, pkgName string) { t.P("// Code generated by protoc-gen-bm ", generator.Version, ", DO NOT EDIT.") t.P("// source: ", file.GetName()) t.P() if t.filesHandled == 0 { comment, err := t.Reg.FileComments(file) if err == nil && comment.Leading != "" { // doc for the first file t.P("/*") t.P("Package ", t.GenPkgName, " is a generated blademaster stub package.") t.P("This code was generated with kratos/tool/protobuf/protoc-gen-bm ", generator.Version, ".") t.P() for _, line := range strings.Split(comment.Leading, "\n") { line = strings.TrimPrefix(line, " ") // ensure we don't escape from the block comment line = strings.Replace(line, "*/", "* /", -1) t.P(line) } t.P() t.P("It is generated from these files:") for _, f := range t.GenFiles { t.P("\t", f.GetName()) } t.P("*/") } } t.P(`package `, pkgName) t.P() } func (t *bm) generateImports(file *descriptor.FileDescriptorProto) { //if len(file.Service) == 0 { // return //} t.P(`import (`) //t.P(` `,t.pkgs["context"], ` "context"`) t.P(` "context"`) t.P() t.P(` bm "github.com/go-kratos/kratos/pkg/net/http/blademaster"`) t.P(` "github.com/go-kratos/kratos/pkg/net/http/blademaster/binding"`) t.P(`)`) // It's legal to import a message and use it as an input or output for a // method. Make sure to import the package of any such message. First, dedupe // them. deps := t.DeduceDeps(file) for pkg, importPath := range deps { t.P(`import `, pkg, ` `, importPath) } t.P() t.P(`// to suppressed 'imported but not used warning'`) t.P(`var _ *bm.Context`) t.P(`var _ context.Context`) t.P(`var _ binding.StructValidator`) } // Big header comments to makes it easier to visually parse a generated file. func (t *bm) sectionComment(sectionTitle string) { t.P() t.P(`// `, strings.Repeat("=", len(sectionTitle))) t.P(`// `, sectionTitle) t.P(`// `, strings.Repeat("=", len(sectionTitle))) t.P() } func (t *bm) generateBMRoute( file *descriptor.FileDescriptorProto, service *descriptor.ServiceDescriptorProto, index int) { // old mode is generate xx.route.go in the http pkg // new mode is generate route code in the same .bm.go // route rule /x{department}/{project-name}/{path_prefix}/method_name // generate each route method servName := naming.ServiceName(service) versionPrefix := naming.GetVersionPrefix(t.GenPkgName) svcName := utils.LcFirst(utils.CamelCase(versionPrefix)) + servName + "Svc" t.P(`var `, svcName, ` `, servName, `BMServer`) type methodInfo struct { midwares []string routeFuncName string apiInfo *generator.HTTPInfo methodName string } var methList []methodInfo var allMidwareMap = make(map[string]bool) var isLegacyPkg = false for _, method := range service.Method { if !t.ShouldGenForMethod(file, service, method) { continue } var midwares []string comments, _ := t.Reg.MethodComments(file, service, method) tags := tag.GetTagsInComment(comments.Leading) if tag.GetTagValue("dynamic", tags) == "true" { continue } apiInfo := t.GetHttpInfoCached(file, service, method) isLegacyPkg = apiInfo.IsLegacyPath //httpMethod, legacyPath, path := getHttpInfo(file, service, method, t.reg) //if legacyPath != "" { // isLegacyPkg = true //} midStr := tag.GetTagValue("midware", tags) if midStr != "" { midwares = strings.Split(midStr, ",") for _, m := range midwares { allMidwareMap[m] = true } } methName := naming.MethodName(method) inputType := t.GoTypeName(method.GetInputType()) routeName := utils.LcFirst(utils.CamelCase(servName) + utils.CamelCase(methName)) methList = append(methList, methodInfo{ apiInfo: apiInfo, midwares: midwares, routeFuncName: routeName, methodName: method.GetName(), }) t.P(fmt.Sprintf("func %s (c *bm.Context) {", routeName)) t.P(` p := new(`, inputType, `)`) requestBinding := "" if t.hasHeaderTag(t.Reg.MessageDefinition(method.GetInputType())) { requestBinding = ", binding.Request" } t.P(` if err := c.BindWith(p, binding.Default(c.Request.Method, c.Request.Header.Get("Content-Type"))` + requestBinding + `); err != nil {`) t.P(` return`) t.P(` }`) t.P(` resp, err := `, svcName, `.`, methName, `(c, p)`) t.P(` c.JSON(resp, err)`) t.P(`}`) t.P(``) } // generate route group var midList []string for m := range allMidwareMap { midList = append(midList, m+" bm.HandlerFunc") } sort.Strings(midList) // 注册老的路由的方法 if isLegacyPkg { funcName := `Register` + utils.CamelCase(versionPrefix) + servName + `Service` t.P(`// `, funcName, ` Register the blademaster route with middleware map`) t.P(`// midMap is the middleware map, the key is defined in proto`) t.P(`func `, funcName, `(e *bm.Engine, svc `, servName, "BMServer, midMap map[string]bm.HandlerFunc)", ` {`) var keys []string for m := range allMidwareMap { keys = append(keys, m) } // to keep generated code consistent sort.Strings(keys) for _, m := range keys { t.P(m, ` := midMap["`, m, `"]`) } t.P(svcName, ` = svc`) for _, methInfo := range methList { var midArgStr string if len(methInfo.midwares) == 0 { midArgStr = "" } else { midArgStr = strings.Join(methInfo.midwares, ", ") + ", " } t.P(`e.`, methInfo.apiInfo.HttpMethod, `("`, methInfo.apiInfo.LegacyPath, `", `, midArgStr, methInfo.routeFuncName, `)`) } t.P(` }`) } else { // 新的注册路由的方法 var bmFuncName = fmt.Sprintf("Register%sBMServer", servName) t.P(`// `, bmFuncName, ` Register the blademaster route`) t.P(`func `, bmFuncName, `(e *bm.Engine, server `, servName, `BMServer) {`) t.P(svcName, ` = server`) for _, methInfo := range methList { t.P(`e.`, methInfo.apiInfo.HttpMethod, `("`, methInfo.apiInfo.NewPath, `",`, methInfo.routeFuncName, ` )`) } t.P(` }`) } } func (t *bm) hasHeaderTag(md *typemap.MessageDefinition) bool { if md.Descriptor.Field == nil { return false } for _, f := range md.Descriptor.Field { t := tag.GetMoreTags(f) if t != nil { st := reflect.StructTag(*t) if st.Get("request") != "" { return true } if st.Get("header") != "" { return true } } } return false } func (t *bm) generateBMInterface(file *descriptor.FileDescriptorProto, service *descriptor.ServiceDescriptorProto) int { count := 0 servName := naming.ServiceName(service) t.P("// " + servName + "BMServer is the server API for " + servName + " service.") comments, err := t.Reg.ServiceComments(file, service) if err == nil { t.PrintComments(comments) } t.P(`type `, servName, `BMServer interface {`) for _, method := range service.Method { if !t.ShouldGenForMethod(file, service, method) { continue } count++ t.generateInterfaceMethod(file, service, method, comments) t.P() } t.P(`}`) return count } func (t *bm) generateInterfaceMethod(file *descriptor.FileDescriptorProto, service *descriptor.ServiceDescriptorProto, method *descriptor.MethodDescriptorProto, comments typemap.DefinitionComments) { comments, err := t.Reg.MethodComments(file, service, method) methName := naming.MethodName(method) outputType := t.GoTypeName(method.GetOutputType()) inputType := t.GoTypeName(method.GetInputType()) tags := tag.GetTagsInComment(comments.Leading) if tag.GetTagValue("dynamic", tags) == "true" { return } if err == nil { t.PrintComments(comments) } respDynamic := tag.GetTagValue("dynamic_resp", tags) == "true" if respDynamic { t.P(fmt.Sprintf(` %s(ctx context.Context, req *%s) (resp interface{}, err error)`, methName, inputType)) } else { t.P(fmt.Sprintf(` %s(ctx context.Context, req *%s) (resp *%s, err error)`, methName, inputType, outputType)) } }