Esempio n. 1
0
func protoComments(reg *descriptor.Registry, file *descriptor.File, outers []string, typeName string, typeIndex int32, fieldPaths ...int32) string {
	if file.SourceCodeInfo == nil {
		// Curious! A file without any source code info.
		// This could be a test that's providing incomplete
		// descriptor.File information.
		//
		// We could simply return no comments, but panic
		// could make debugging easier.
		panic("descriptor.File should not contain nil SourceCodeInfo")
	}

	outerPaths := make([]int32, len(outers))
	for i := range outers {
		location := ""
		if file.Package != nil {
			location = file.GetPackage()
		}

		msg, err := reg.LookupMsg(location, strings.Join(outers[:i+1], "."))
		if err != nil {
			panic(err)
		}
		outerPaths[i] = int32(msg.Index)
	}

	for _, loc := range file.SourceCodeInfo.Location {
		if !isProtoPathMatches(loc.Path, outerPaths, typeName, typeIndex, fieldPaths) {
			continue
		}
		comments := ""
		if loc.LeadingComments != nil {
			comments = strings.TrimRight(*loc.LeadingComments, "\n")
			comments = strings.TrimSpace(comments)
			// TODO(ivucica): this is a hack to fix "// " being interpreted as "//".
			// perhaps we should:
			// - split by \n
			// - determine if every (but first and last) line begins with " "
			// - trim every line only if that is the case
			// - join by \n
			comments = strings.Replace(comments, "\n ", "\n", -1)
		}
		return comments
	}
	return ""
}
Esempio n. 2
0
// findNestedMessagesAndEnumerations those can be generated by the services.
func findNestedMessagesAndEnumerations(message *descriptor.Message, reg *descriptor.Registry, m messageMap, e enumMap) {
	// Iterate over all the fields that
	for _, t := range message.Fields {
		fieldType := t.GetTypeName()
		// If the type is an empty string then it is a proto primitive
		if fieldType != "" {
			if _, ok := m[fieldType]; !ok {
				msg, err := reg.LookupMsg("", fieldType)
				if err != nil {
					enum, err := reg.LookupEnum("", fieldType)
					if err != nil {
						panic(err)
					}
					e[fieldType] = enum
					continue
				}
				m[fieldType] = msg
				findNestedMessagesAndEnumerations(msg, reg, m, e)
			}
		}
	}
}
Esempio n. 3
0
// schemaOfField returns a swagger Schema Object for a protobuf field.
func schemaOfField(f *descriptor.Field, reg *descriptor.Registry) swaggerSchemaObject {
	const (
		singular = 0
		array    = 1
		object   = 2
	)
	var (
		core      schemaCore
		aggregate int
	)

	fd := f.FieldDescriptorProto
	if m, err := reg.LookupMsg("", f.GetTypeName()); err == nil {
		if opt := m.GetOptions(); opt != nil && opt.MapEntry != nil && *opt.MapEntry {
			fd = m.GetField()[1]
			aggregate = object
		}
	}
	if fd.GetLabel() == pbdescriptor.FieldDescriptorProto_LABEL_REPEATED {
		aggregate = array
	}

	switch ft := fd.GetType(); ft {
	case pbdescriptor.FieldDescriptorProto_TYPE_ENUM, pbdescriptor.FieldDescriptorProto_TYPE_MESSAGE, pbdescriptor.FieldDescriptorProto_TYPE_GROUP:
		if fd.GetTypeName() == ".google.protobuf.Timestamp" && pbdescriptor.FieldDescriptorProto_TYPE_MESSAGE == ft {
			core = schemaCore{
				Type:   "string",
				Format: "date-time",
			}
		} else {
			core = schemaCore{
				Ref: "#/definitions/" + fullyQualifiedNameToSwaggerName(fd.GetTypeName(), reg),
			}
		}
	default:
		ftype, format, ok := primitiveSchema(ft)
		if ok {
			core = schemaCore{Type: ftype, Format: format}
		} else {
			core = schemaCore{Type: ft.String(), Format: "UNKNOWN"}
		}
	}
	switch aggregate {
	case array:
		return swaggerSchemaObject{
			schemaCore: schemaCore{
				Type: "array",
			},
			Items: (*swaggerItemsObject)(&core),
		}
	case object:
		return swaggerSchemaObject{
			schemaCore: schemaCore{
				Type: "object",
			},
			AdditionalProperties: &swaggerSchemaObject{schemaCore: core},
		}
	default:
		return swaggerSchemaObject{schemaCore: core}
	}
}