package main import ( "encoding/json" "net/http" "reflect" "regexp" "strings" "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/gen" "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" ) type swaggerGen struct { generator.Base // defsMap will fill into swagger's definitions // key is full qualified proto name defsMap map[string]*typemap.MessageDefinition } // NewSwaggerGenerator a swagger generator func NewSwaggerGenerator() *swaggerGen { return &swaggerGen{} } func (t *swaggerGen) Generate(in *plugin.CodeGeneratorRequest) *plugin.CodeGeneratorResponse { t.Setup(in) resp := &plugin.CodeGeneratorResponse{} for _, f := range t.GenFiles { if len(f.Service) == 0 { continue } respFile := t.generateSwagger(f) if respFile != nil { resp.File = append(resp.File, respFile) } } return resp } func (t *swaggerGen) generateSwagger(file *descriptor.FileDescriptorProto) *plugin.CodeGeneratorResponse_File { var pkg = file.GetPackage() r := regexp.MustCompile("v(\\d+)$") strs := r.FindStringSubmatch(pkg) var vStr string if len(strs) >= 2 { vStr = strs[1] } else { vStr = "" } var swaggerObj = &swaggerObject{ Paths: swaggerPathsObject{}, Swagger: "2.0", Info: swaggerInfoObject{ Title: file.GetName(), Version: vStr, }, Schemes: []string{"http", "https"}, Consumes: []string{"application/json", "multipart/form-data"}, Produces: []string{"application/json"}, } t.defsMap = map[string]*typemap.MessageDefinition{} out := &plugin.CodeGeneratorResponse_File{} name := naming.GenFileName(file, ".swagger.json") for _, svc := range file.Service { for _, meth := range svc.Method { if !t.ShouldGenForMethod(file, svc, meth) { continue } apiInfo := t.GetHttpInfoCached(file, svc, meth) pathItem := swaggerPathItemObject{} if originPathItem, ok := swaggerObj.Paths[apiInfo.Path]; ok { pathItem = originPathItem } op := t.getOperationByHTTPMethod(apiInfo.HttpMethod, &pathItem) op.Summary = apiInfo.Title op.Description = apiInfo.Description swaggerObj.Paths[apiInfo.Path] = pathItem op.Tags = []string{pkg + "." + svc.GetName()} // request request := t.Reg.MessageDefinition(meth.GetInputType()) // request cannot represent by simple form isComplexRequest := false for _, field := range request.Descriptor.Field { if !generator.IsScalar(field) { isComplexRequest = true break } } if !isComplexRequest && apiInfo.HttpMethod == "GET" { for _, field := range request.Descriptor.Field { if !generator.IsScalar(field) { continue } p := t.getQueryParameter(file, request, field) op.Parameters = append(op.Parameters, p) } } else { p := swaggerParameterObject{} p.In = "body" p.Required = true p.Name = "body" p.Schema = &swaggerSchemaObject{} p.Schema.Ref = "#/definitions/" + meth.GetInputType() op.Parameters = []swaggerParameterObject{p} } // response resp := swaggerResponseObject{} resp.Description = "A successful response." // proto 里面的response只定义data里面的 // 所以需要把code msg data 这一级加上 resp.Schema.Type = "object" resp.Schema.Properties = &swaggerSchemaObjectProperties{} p := keyVal{Key: "code", Value: &schemaCore{Type: "integer"}} *resp.Schema.Properties = append(*resp.Schema.Properties, p) p = keyVal{Key: "message", Value: &schemaCore{Type: "string"}} *resp.Schema.Properties = append(*resp.Schema.Properties, p) p = keyVal{Key: "data", Value: schemaCore{Ref: "#/definitions/" + meth.GetOutputType()}} *resp.Schema.Properties = append(*resp.Schema.Properties, p) op.Responses = swaggerResponsesObject{"200": resp} } } // walk though definitions t.walkThroughFileDefinition(file) defs := swaggerDefinitionsObject{} swaggerObj.Definitions = defs for typ, msg := range t.defsMap { def := swaggerSchemaObject{} def.Properties = new(swaggerSchemaObjectProperties) def.Description = strings.Trim(msg.Comments.Leading, "\n\r ") for _, field := range msg.Descriptor.Field { p := keyVal{Key: generator.GetFormOrJSONName(field)} schema := t.schemaForField(file, msg, field) if generator.GetFieldRequired(field, t.Reg, msg) { def.Required = append(def.Required, p.Key) } p.Value = schema *def.Properties = append(*def.Properties, p) } def.Type = "object" defs[typ] = def } b, _ := json.MarshalIndent(swaggerObj, "", " ") str := string(b) out.Name = &name out.Content = &str return out } func (t *swaggerGen) getOperationByHTTPMethod(httpMethod string, pathItem *swaggerPathItemObject) *swaggerOperationObject { var op = &swaggerOperationObject{} switch httpMethod { case http.MethodGet: pathItem.Get = op case http.MethodPost: pathItem.Post = op case http.MethodPut: pathItem.Put = op case http.MethodDelete: pathItem.Delete = op case http.MethodPatch: pathItem.Patch = op default: pathItem.Get = op } return op } func (t *swaggerGen) getQueryParameter(file *descriptor.FileDescriptorProto, input *typemap.MessageDefinition, field *descriptor.FieldDescriptorProto) swaggerParameterObject { p := swaggerParameterObject{} p.Name = generator.GetFormOrJSONName(field) fComment, _ := t.Reg.FieldComments(input, field) cleanComment := tag.GetCommentWithoutTag(fComment.Leading) p.Description = strings.Trim(strings.Join(cleanComment, "\n"), "\n\r ") validateComment := getValidateComment(field) if p.Description != "" && validateComment != "" { p.Description = p.Description + "," + validateComment } else if validateComment != "" { p.Description = validateComment } p.In = "query" p.Required = generator.GetFieldRequired(field, t.Reg, input) typ, isArray, format := getFieldSwaggerType(field) if isArray { p.Items = &swaggerItemsObject{} p.Type = "array" p.Items.Type = typ p.Items.Format = format } else { p.Type = typ p.Format = format } return p } func (t *swaggerGen) schemaForField(file *descriptor.FileDescriptorProto, msg *typemap.MessageDefinition, field *descriptor.FieldDescriptorProto) swaggerSchemaObject { schema := swaggerSchemaObject{} fComment, err := t.Reg.FieldComments(msg, field) if err != nil { gen.Error(err, "comment not found err %+v") } schema.Description = strings.Trim(fComment.Leading, "\n\r ") validateComment := getValidateComment(field) if schema.Description != "" && validateComment != "" { schema.Description = schema.Description + "," + validateComment } else if validateComment != "" { schema.Description = validateComment } typ, isArray, format := getFieldSwaggerType(field) if !generator.IsScalar(field) { if generator.IsMap(field, t.Reg) { schema.Type = "object" mapMsg := t.Reg.MessageDefinition(field.GetTypeName()) mapValueField := mapMsg.Descriptor.Field[1] valSchema := t.schemaForField(file, mapMsg, mapValueField) schema.AdditionalProperties = &valSchema } else { if isArray { schema.Items = &swaggerItemsObject{} schema.Type = "array" schema.Items.Ref = "#/definitions/" + field.GetTypeName() } else { schema.Ref = "#/definitions/" + field.GetTypeName() } } } else { if isArray { schema.Items = &swaggerItemsObject{} schema.Type = "array" schema.Items.Type = typ schema.Items.Format = format } else { schema.Type = typ schema.Format = format } } return schema } func (t *swaggerGen) walkThroughFileDefinition(file *descriptor.FileDescriptorProto) { for _, svc := range file.Service { for _, meth := range svc.Method { shouldGen := t.ShouldGenForMethod(file, svc, meth) if !shouldGen { continue } t.walkThroughMessages(t.Reg.MessageDefinition(meth.GetOutputType())) t.walkThroughMessages(t.Reg.MessageDefinition(meth.GetInputType())) } } } func (t *swaggerGen) walkThroughMessages(msg *typemap.MessageDefinition) { _, ok := t.defsMap[msg.ProtoName()] if ok { return } if !msg.Descriptor.GetOptions().GetMapEntry() { t.defsMap[msg.ProtoName()] = msg } for _, field := range msg.Descriptor.Field { if field.GetType() == descriptor.FieldDescriptorProto_TYPE_MESSAGE { t.walkThroughMessages(t.Reg.MessageDefinition(field.GetTypeName())) } } } func getFieldSwaggerType(field *descriptor.FieldDescriptorProto) (typeName string, isArray bool, formatName string) { typeName = "unknown" switch field.GetType() { case descriptor.FieldDescriptorProto_TYPE_BOOL: typeName = "boolean" case descriptor.FieldDescriptorProto_TYPE_DOUBLE: typeName = "number" formatName = "double" case descriptor.FieldDescriptorProto_TYPE_FLOAT: typeName = "number" formatName = "float" case descriptor.FieldDescriptorProto_TYPE_INT64, descriptor.FieldDescriptorProto_TYPE_UINT64, descriptor.FieldDescriptorProto_TYPE_INT32, descriptor.FieldDescriptorProto_TYPE_FIXED64, descriptor.FieldDescriptorProto_TYPE_FIXED32, descriptor.FieldDescriptorProto_TYPE_ENUM, descriptor.FieldDescriptorProto_TYPE_UINT32, descriptor.FieldDescriptorProto_TYPE_SFIXED32, descriptor.FieldDescriptorProto_TYPE_SFIXED64, descriptor.FieldDescriptorProto_TYPE_SINT32, descriptor.FieldDescriptorProto_TYPE_SINT64: typeName = "integer" case descriptor.FieldDescriptorProto_TYPE_STRING, descriptor.FieldDescriptorProto_TYPE_BYTES: typeName = "string" case descriptor.FieldDescriptorProto_TYPE_MESSAGE: typeName = "object" } if field.Label != nil && *field.Label == descriptor.FieldDescriptorProto_LABEL_REPEATED { isArray = true } return } func getValidateComment(field *descriptor.FieldDescriptorProto) string { var ( tags []reflect.StructTag ) //get required info from gogoproto.moretags moretags := tag.GetMoreTags(field) if moretags != nil { tags = []reflect.StructTag{reflect.StructTag(*moretags)} } validateTag := tag.GetTagValue("validate", tags) // trim regStr := []string{ "required *,*", "omitempty *,*", } for _, v := range regStr { re, _ := regexp.Compile(v) validateTag = re.ReplaceAllString(validateTag, "") } return validateTag }