Basic Usage

Generic Call basic usage

Supported Scenarios

  • Thrift
    1. Binary Generic Call: for traffic transit scenario
    2. HTTP Mapping Generic Call: for API Gateway scenario
    3. Map Mapping Generic Call
    4. JSON Mapping Generic Call
  • Protobufs
    1. JSON Mapping Generic Call

Example of Thrift Usage

1. Binary Generic

Client Usage

Application scenario: mid-platform services can forward the received original Thrift protocol packets to the target miscoservice through Binary Forwarding.

  • Client Initialization

    import (
       "github.com/cloudwego/kitex/client/genericclient"
       "github.com/cloudwego/kitex/pkg/generic"
    )
    func NewGenericClient(destServiceName string) genericclient.Client {
        genericCli := genericclient.NewClient(destServiceName, generic.BinaryThriftGeneric())
        return genericCli
    }
    
  • Generic Call

    If you encode by yourself, you have to use Thrift serialization protocol thrift/thrift-binary-protocol.md. Note that you shouldn’t encode original function parameter, but the XXXArgs which wraps function parameters. You can refer to github.com/cloudwego/kitex/generic/generic_test.go.

    Kitex provides a thrift codec package github.com/cloudwego/kitex/pkg/utils.NewThriftMessageCodec.

    rc := utils.NewThriftMessageCodec()
    buf, err := rc.Encode("Test", thrift.CALL, 100, args)
    // generic call
    resp, err := genericCli.GenericCall(ctx, "actualMethod", buf)
    

Server Usage

It is not necessary to use Client and Server of Binary Generic Call together. Binary Generic Client can access normal Thrift Server if the correct Thrift encoded binary is passed.

The server just supports request with a length header like Framed and TTheader, Bufferd Binary is not ok. So the client has to specify the transport protocol with an option, eg: client.WithTransportProtocol(transport.Framed).

package main

import (
    "github.com/cloudwego/kitex/pkg/generic"
    "github.com/cloudwego/kitex/server/genericserver"
)

func main() {
    g := generic.BinaryThriftGeneric()
    svr := genericserver.NewServer(&GenericServiceImpl{}, g)
    err := svr.Run()
    if err != nil {
            panic(err)
    }
}

type GenericServiceImpl struct {}

// GenericCall ...
func (g *GenericServiceImpl) GenericCall(ctx context.Context, method string, request interface{}) (response interface{}, err error) {
    // request is thrift binary
    reqBuf := request.([]byte)
    // e.g.
    fmt.Printf("Method: %s\n", method))
    result := xxx.NewMockTestResult()
    result.Success = &resp
    respBuf, err = rc.Encode(mth, thrift.REPLY, seqID, result)

    return respBuf, nil
}

2. HTTP Mapping Generic Call

The HTTP Mapping Generic Call is only for the client, and requires Thrift IDL to comply with the interface mapping specification. See the specific specification IDL Definition Specification for Mapping between Thrift and HTTP

IDL Definition Example

namespace go http

struct ReqItem {
    1: optional i64 id(go.tag = "json:\"id\"")
    2: optional string text
}

struct BizRequest {
    1: optional i64 v_int64(api.query = 'v_int64', api.vd = "$>0&&$<200")
    2: optional string text(api.body = 'text')
    3: optional i32 token(api.header = 'token')
    4: optional map<i64, ReqItem> req_items_map (api.body='req_items_map')
    5: optional ReqItem some(api.body = 'some')
    6: optional list<string> req_items(api.query = 'req_items')
    7: optional i32 api_version(api.path = 'action')
    8: optional i64 uid(api.path = 'biz')
    9: optional list<i64> cids(api.query = 'cids')
    10: optional list<string> vids(api.query = 'vids')
}

struct RspItem {
    1: optional i64 item_id
    2: optional string text
}

struct BizResponse {
    1: optional string T                             (api.header= 'T')
    2: optional map<i64, RspItem> rsp_items           (api.body='rsp_items')
    3: optional i32 v_enum                       (api.none = '')
    4: optional list<RspItem> rsp_item_list            (api.body = 'rsp_item_list')
    5: optional i32 http_code                         (api.http_code = '')
    6: optional list<i64> item_count (api.header = 'item_count')
}

service BizService {
    BizResponse BizMethod1(1: BizRequest req)(api.get = '/life/client/:action/:biz', api.baseurl = 'ib.snssdk.com', api.param = 'true')
    BizResponse BizMethod2(1: BizRequest req)(api.post = '/life/client/:action/:biz', api.baseurl = 'ib.snssdk.com', api.param = 'true', api.serializer = 'form')
    BizResponse BizMethod3(1: BizRequest req)(api.post = '/life/client/:action/:biz/other', api.baseurl = 'ib.snssdk.com', api.param = 'true', api.serializer = 'json')
}

Generic Call Example

  • Request

Type: *generic.HTTPRequest

  • Response

Type: *generic.HTTPResponse

package main

import (
    "github.com/cloudwego/kitex/client/genericclient"
    "github.com/cloudwego/kitex/pkg/generic"
)

func main() {
    // Parse IDL with Local Files
	// YOUR_IDL_PATH thrift file path, eg: ./idl/example.thrift
    // includeDirs: specify include path
    p, err := generic.NewThriftFileProvider("./YOUR_IDL_PATH")
    if err != nil {
        panic(err)
    }
    g, err := generic.HTTPThriftGeneric(p)
    if err != nil {
        panic(err)
    }
    cli, err := genericclient.NewClient("destServiceName", g, opts...)
    if err != nil {
        panic(err)
    }
    body := map[string]interface{}{
        "text": "text",
        "some": map[string]interface{}{
            "id":   1,
            "text": "text",
        },
        "req_items_map": map[string]interface{}{
            "1": map[string]interface{}{
                "id":   1,
                "text": "text",
            },
        },
    }
    data, err := json.Marshal(body)
    if err != nil {
        panic(err)
    }
    url := "http://example.com/1/1?v_int64=1&req_items=item1,item2,itme3&cids=1,2,3&vids=1,2,3"
    req, err := http.NewRequest(http.MethodGet, url, bytes.NewBuffer(data))
    if err != nil {
        panic(err)
    }
    // Kitex generalization currently directly supports http.Request in the standard library.
    // To use hertz, you need to make a request conversion httpReq, err := adapter.GetCompatRequest(hertzReqCtx)
    req.Header.Set("token", "1")
    customReq, err := generic.FromHTTPRequest(req)
    // customReq *generic.HttpRequest
    resp, err := cli.GenericCall(ctx, "", customReq)
    realResp := resp.(*generic.HTTPResponse)
    realResp.Write(w)
}

Annotation Extension

For example, add a xxx.source = 'not_body_struct' annotation to indicate that a certain field itself does not have a mapping to the HTTP request fields, and you need to traverse its subfields to obtain the corresponding value from the HTTP request. The usage is as follows:

struct Request {
    1: optional i64 v_int64(api.query = 'v_int64')
    2: optional CommonParam common_param (xxx.source='not_body_struct')
}

struct CommonParam {
    1: optional i64 api_version (api.query = 'api_version')
    2: optional i32 token(api.header = 'token')
}

Extension way:

func init() {
        descriptor.RegisterAnnotation(new(notBodyStruct))
}

// Implement descriptor.Annotation
type notBodyStruct struct {
}

func (a * notBodyStruct) Equal(key, value string) bool {
        return key == "xxx.source" && value == "not_body_struct"
}

// Support 4 types Handle: HttpMapping, FieldMapping, ValueMapping, Router
func (a * notBodyStruct) Handle() interface{} {
        return newNotBodyStruct
}

type notBodyStruct struct{}

var newNotBodyStruct descriptor.NewHTTPMapping = func(value string) descriptor.HTTPMapping {
        return &notBodyStruct{}
}

// get value from request
func (m *notBodyStruct) Request(req *descriptor.HttpRequest, field *descriptor.FieldDescriptor) (interface{}, bool) {
        return req, true
}

// set value to response
func (m *notBodyStruct) Response(resp *descriptor.HTTPResponse, field *descriptor.FieldDescriptor, val interface{}) {
}

3. Map Mapping Generic Call

Map Mapping Generic Call means that the user can directly construct Map request or response according to the specification, and Kitex will do Thrift codec accordingly.

Build Map

Kitex will strictly verify the field name and type constructed according to the given IDL. The field name only supports string type corresponding to the Map Key. The type mapping of the field Value is shown in the Type Mapping Table below.

Returns the Field ID and type that will verify the Response and generate the corresponding Map Key based on the Field Name of the IDL.

For response, the Field ID and Type will be verified, and return Map to user corresponding to the IDL.

Type Mapping Table

The Mapping between Golang and Thrift:

Golang Type Thrift IDL Type
bool bool
int8 i8
int16 i16
int32 i32
int64 i64
float64 double
string string
[]byte binary
[]interface{} list/set
map[interface{}]interface{} map
map[string]interface{} struct
int32 enum

Example

Take the following IDL as an example:

enum ErrorCode {
    SUCCESS = 0
    FAILURE = 1
}

struct Info {
    1: map<string,string> Map
    2: i64 ID
}

struct EchoRequest {
    1: string Msg
    2: i8 I8
    3: i16 I16
    4: i32 I32
    5: i64 I64
    6: binary Binary
    7: map<string,string> Map
    8: set<string> Set
    9: list<string> List
    10: ErrorCode ErrorCode
    11: Info Info

    255: optional Base Base
}

The request construction is as follows:

req := map[string]interface{}{
                "Msg":    "hello",
                "I8":     int8(1),
                "I16":    int16(1),
                "I32":    int32(1),
                "I64":    int64(1),
                "Binary": []byte("hello"),
                "Map": map[interface{}]interface{}{
                        "hello": "world",
                },
                "Set":       []interface{}{"hello", "world"},
                "List":      []interface{}{"hello", "world"},
                "ErrorCode": int32(1),
                "Info": map[string]interface{}{
                        "Map": map[interface{}]interface{}{
                                "hello": "world",
                        },
                        "ID": int64(232324),
                },
        }

Generic Call Example

Example IDL:

base.thrift

namespace py base
namespace go base
namespace java com.xxx.thrift.base

struct TrafficEnv {
    1: bool Open = false,
    2: string Env = "",
}

struct Base {
    1: string LogID = "",
    2: string Caller = "",
    3: string Addr = "",
    4: string Client = "",
    5: optional TrafficEnv TrafficEnv,
    6: optional map<string, string> Extra,
}

struct BaseResp {
    1: string StatusMessage = "",
    2: i32 StatusCode = 0,
    3: optional map<string, string> Extra,
}

example_service.thrift

include "base.thrift"
namespace go kitex.test.server

struct ExampleReq {
    1: required string Msg,
    255: base.Base Base,
}
struct ExampleResp {
    1: required string Msg,
    255: base.BaseResp BaseResp,
}
service ExampleService {
    ExampleResp ExampleMethod(1: ExampleReq req),
}
Client Usage
  • Request

Type: map[string]interface{}

  • Response

Type: map[string]interface{}

package main

import (
    "github.com/cloudwego/kitex/pkg/generic"
    "github.com/cloudwego/kitex/client/genericclient"
)

func main() {
    // Parse IDL with Local Files
    // YOUR_IDL_PATH thrift file path, eg:./idl/example.thrift
    p, err := generic.NewThriftFileProvider("./YOUR_IDL_PATH")
    if err != nil {
        panic(err)
    }
    g, err := generic.MapThriftGeneric(p)
    if err != nil {
        panic(err)
    }
    cli, err := genericclient.NewClient("destServiceName", g, opts...)
    if err != nil {
        panic(err)
    }
    // 'ExampleMethod' method name must be passed as param
    resp, err := cli.GenericCall(ctx, "ExampleMethod", map[string]interface{}{
        "Msg": "hello",
    })
    // resp is a map[string]interface{}
}
Server Usage
  • Request

Type: map[string]interface{}

  • Response

Type: map[string]interface{}

package main

import (
    "github.com/cloudwego/kitex/pkg/generic"
    "github.com/cloudwego/kitex/server/genericserver"
)

func main() {
    // Parse IDL with Local Files
  	// YOUR_IDL_PATH thrift file path,eg: ./idl/example.thrift
    p, err := generic.NewThriftFileProvider("./YOUR_IDL_PATH")
    if err != nil {
        panic(err)
    }
    g, err := generic.MapThriftGeneric(p)
    if err != nil {
        panic(err)
    }
    svc := genericserver.NewServer(new(GenericServiceImpl), g, opts...)
    if err != nil {
        panic(err)
    }
    err := svr.Run()
    if err != nil {
        panic(err)
    }
    // resp is a map[string]interface{}
}

type GenericServiceImpl struct {
}

func (g *GenericServiceImpl) GenericCall(ctx context.Context, method string, request interface{}) (response interface{}, err error) {
        m := request.(map[string]interface{})
        fmt.Printf("Recv: %v\n", m)
        return  map[string]interface{}{
            "Msg": "world",
        }, nil
}

4. JSON Mapping Generic Call

JSON Mapping Generic Call means that the user can directly construct JSON string request or response according to the specification, and Kitex will do Thrift codec accordingly.

Build JSON

Kitex JSON Mapping Generic Call will convert the request parameters according to the given IDL, will not strictly verify the field name and type constructed.

The field name only supports string type corresponding to the JSON Field. The type mapping of the field Value is shown in the Type Mapping Table below.

Returns the Field ID and type that will verify the Response and generate the corresponding JSON Field based on the Field Name of the IDL.

For response, the Field ID and Type will be verified, and return JSON string to user corresponding to the IDL.

Type Mapping Table

The Mapping between Golang and Thrift:

Golang Type Thrift IDL Type
bool bool
int8 i8
int16 i16
int32 i32
int64 i64
float64 double
string string
[]byte binary
[]interface{} list/set
map[interface{}]interface{} map
map[string]interface{} struct
int32 enum
Example

Take the following IDL as an example:

enum ErrorCode {
    SUCCESS = 0
    FAILURE = 1
}

struct Info {
    1: map<string,string> Map
    2: i64 ID
}

struct EchoRequest {
    1: string Msg
    2: i8 I8
    3: i16 I16
    4: i32 I32
    5: i64 I64
    6: map<string,string> Map
    7: set<string> Set
    8: list<string> List
    9: ErrorCode ErrorCode
   10: Info Info

    255: optional Base Base
}

The request construction is as follows:

req := {
  "Msg": "hello",
  "I8": 1,
  "I16": 1,
  "I32": 1,
  "I64": 1,
  "Map": "{\"hello\":\"world\"}",
  "Set": ["hello", "world"],
  "List": ["hello", "world"],
  "ErrorCode": 1,
  "Info": "{\"Map\":\"{\"hello\":\"world\"}\", \"ID\":232324}"

}

Generic Call Example

Example IDL :

base.thrift

namespace py base
namespace go base
namespace java com.xxx.thrift.base

struct TrafficEnv {
    1: bool Open = false,
    2: string Env = "",
}

struct Base {
    1: string LogID = "",
    2: string Caller = "",
    3: string Addr = "",
    4: string Client = "",
    5: optional TrafficEnv TrafficEnv,
    6: optional map<string, string> Extra,
}

struct BaseResp {
    1: string StatusMessage = "",
    2: i32 StatusCode = 0,
    3: optional map<string, string> Extra,
}

example_service.thrift

include "base.thrift"
namespace go kitex.test.server

struct ExampleReq {
    1: required string Msg,
    255: base.Base Base,
}
struct ExampleResp {
    1: required string Msg,
    255: base.BaseResp BaseResp,
}
service ExampleService {
    ExampleResp ExampleMethod(1: ExampleReq req),
}
Client Usage
  • Request

Type:JSON string

  • Response

Type:JSON string

package main

import (
    "github.com/cloudwego/kitex/pkg/generic"
    "github.com/cloudwego/kitex/client/genericclient"
)

func main() {
    // Parse IDL with Local Files
    // YOUR_IDL_PATH thrift file path, eg:./idl/example.thrift
    p, err := generic.NewThriftFileProvider("./YOUR_IDL_PATH")
    if err != nil {
        panic(err)
    }
    g, err := generic.JSONThriftGeneric(p)
    if err != nil {
        panic(err)
    }
    cli, err := genericclient.NewClient("psm", g, opts...)
    if err != nil {
        panic(err)
    }
    // 'ExampleMethod' method name must be passed as param
    resp, err := cli.GenericCall(ctx, "ExampleMethod", "{\"Msg\": \"hello\"}")
    // resp is a JSON string
}
Server Usage
  • Request

Type:JSON string

  • Response

Type:JSON string

package main

import (
    "github.com/cloudwego/kitex/pkg/generic"
    "github.com/cloudwego/kitex/server/genericserver"
)

func main() {
    // Parse IDL with Local Files
    // YOUR_IDL_PATH thrift file path,eg: ./idl/example.thrift
    p, err := generic.NewThriftFileProvider("./YOUR_IDL_PATH")
    if err != nil {
        panic(err)
    }
    g, err := generic.JSONThriftGeneric(p)
    if err != nil {
        panic(err)
    }
    svc := genericserver.NewServer(new(GenericServiceImpl), g, opts...)
    if err != nil {
        panic(err)
    }
    err := svr.Run()
    if err != nil {
        panic(err)
    }
    // resp is a JSON string
}

type GenericServiceImpl struct {
}

func (g *GenericServiceImpl) GenericCall(ctx context.Context, method string, request interface{}) (response interface{}, err error) {
        // use jsoniter or other json parse sdk to assert request
        m := request.(string)
        fmt.Printf("Recv: %v\n", m)
        return  "{\"Msg\": \"world\"}", nil
}

Example of Protobufs Usage

1. JSON Mapping Generic Call

Users can construct JSON string requests or responses according to their specifications, and Kitex will handle the translation of JSON to and from their respective Protocol Buffers messages.

Build JSON

Type Mapping Table

The Mapping between Golang and Protocol Buffers:

Protocol Buffers Type Golang Type
float float32
double float64
int32 int32
int64 int64
uint32 uint32
uint64 uint64
sint32 int32
sint64 int64
fixed32 uint32
fixed64 uint64
sfixed32 int32
sfixed64 uint64
bool bool
string string
bytes byte[]

Also supports lists and dictionaries in json, mapping them to repeated V and map<K,V> in protobufs. Does not support Protobuf special fields, such as Enum, Oneof, etc.;

Example

Take the following IDL as an example:

syntax = "proto3";
package api;
// The greeting service definition.
option go_package = "api";

message Request {
  string message = 1;
}

message Response {
  string message = 1;
}

service Echo {
  rpc EchoPB (Request) returns (Response) {}
}

The request construction is as follows:

req := `{"message": "hello"}`  
Client Usage
  • Request

Type:JSON string

  • Response

Type:JSON string

package main

import (
	"context"
	dproto "github.com/cloudwego/dynamicgo/proto"
	"github.com/cloudwego/kitex/client"
	"github.com/cloudwego/kitex/client/genericclient"
	"github.com/cloudwego/kitex/pkg/generic"
	"github.com/cloudwego/kitex/pkg/klog"
	"github.com/cloudwego/kitex/transport"
)

const serverHostPort = "127.0.0.1:9999"

func main() {
	var err error

	path := "./YOUR_IDL_PATH"

	// initialise DynamicGo proto.ServiceDescriptor
	dOpts := dproto.Options{}
	p, err := generic.NewPbFileProviderWithDynamicGo(path, context.Background(), dOpts)
	if err != nil {
		panic(err)
	}

	// create generic client
	g, err := generic.JSONPbGeneric(p)
	if err != nil {
		panic(err)
	}

	var opts []client.Option
	opts = append(opts, client.WithHostPorts(serverHostPort))
	opts = append(opts, client.WithTransportProtocol(transport.TTHeader))

	cli, err := genericclient.NewClient("server_name_for_discovery", g, opts...)
	if err != nil {
		panic(err)
	}

	jReq := `{"message": "hello"}`

	ctx := context.Background()

	jRsp, err := cli.GenericCall(ctx, "EchoPB", jReq)
	klog.CtxInfof(ctx, "genericJsonCall: jRsp(%T) = %s, err = %v", jRsp, jRsp, err)
}
Server Usage
  • Request

Type:JSON string

  • Response

Type:JSON string

package main

import (
	"context"
	dproto "github.com/cloudwego/dynamicgo/proto"
	"github.com/cloudwego/kitex/pkg/generic"
	"github.com/cloudwego/kitex/pkg/klog"
	"github.com/cloudwego/kitex/server"
	"github.com/cloudwego/kitex/server/genericserver"
	"net"
)

const serverHostPort = "127.0.0.1:9999"

func WithServiceAddr(hostPort string) server.Option {
	addr, _ := net.ResolveTCPAddr("tcp", hostPort)
	return server.WithServiceAddr(addr)
}

type GenericEchoImpl struct{}

func (g *GenericEchoImpl) GenericCall(ctx context.Context, method string, request interface{}) (response interface{}, err error) {
	buf := request.(string)
	return buf, nil
}

func main() {
	var opts []server.Option
	opts = append(opts, WithServiceAddr(serverHostPort))

	path := "./YOUR_IDL_PATH"

	dOpts := dproto.Options{}
	p, err := generic.NewPbFileProviderWithDynamicGo(path, context.Background(), dOpts)

	if err != nil {
		panic(err)
	}
	g, err := generic.JSONPbGeneric(p)

	opts = append(opts, WithServiceAddr(serverHostPort))

	svr := genericserver.NewServer(new(GenericEchoImpl), g, opts...)

	if err := svr.Run(); err != nil {
		klog.Infof(err.Error())
	}
}

IDLProvider

Generic Call of HTTP/Map/JSON mapping does not require generated code, but requires IDL which need users to provide.

At present, Kitex has two IDLProvider implementations. Users can choose to specify the IDL path or pass in IDL content. Of course, you can also expand the generic.DescriptorProvider according to your needs.

Parse IDL with Local Files

p, err := generic.NewThriftFileProvider("./YOUR_IDL_PATH")
 if err != nil {
     panic(err)
 }

Parse IDL with Memory

All IDLs need to be constructed into a Map, Key is Path, Value is IDL definition, and the usage is as follows:

p, err := generic.NewThriftContentProvider("YOUR_MAIN_IDL_CONTENT", map[string]string{/*YOUR_INCLUDES_IDL_CONTENT*/})
    if err != nil {
        panic(err)
    }

// dynamic update
err = p.UpdateIDL("YOUR_MAIN_IDL_CONTENT", map[string]string{/*YOUR_INCLUDES_IDL_CONTENT*/})
if err != nil {
    // handle err
}

Simple example (not real IDL, just for minimizing display Path constructs):

path := "a/b/main.thrift"
content := `
namespace go kitex.test.server
include "x.thrift"
include "../y.thrift"

service InboxService {}
`
includes := map[string]string{
   path:           content,
   "x.thrift": "namespace go kitex.test.server",
   "../y.thrift": `
   namespace go kitex.test.server
   include "z.thrift"
   `,
}

p, err := NewThriftContentProvider(path, includes)

Absolute Path including path Addressing

If you construct an IDL Map for convenience, you can also use an absolute path as a Key through NewThriftContentWithAbsIncludePathProvider .

p, err := generic.NewThriftContentWithAbsIncludePathProvider("YOUR_MAIN_IDL_PATH", "YOUR_MAIN_IDL_CONTENT", map[string]string{"ABS_INCLUDE_PATH": "CONTENT"})
    if err != nil {
        panic(err)
    }

// dynamic update
err = p.UpdateIDL("YOUR_MAIN_IDL_PATH", "YOUR_MAIN_IDL_CONTENT", map[string]string{/*YOUR_INCLUDES_IDL_CONTENT*/})
if err != nil {
    // handle err
}

Simple example (not real IDL, just for minimizing display Path constructs):

path := "a/b/main.thrift"
content := `
namespace go kitex.test.server
include "x.thrift"
include "../y.thrift"

service InboxService {}
`
includes := map[string]string{
   path:           content,
   "a/b/x.thrift": "namespace go kitex.test.server",
   "a/y.thrift": `
   namespace go kitex.test.server
   include "z.thrift"
   `,
   "a/z.thrift": "namespace go kitex.test.server",
}
p, err := NewThriftContentWithAbsIncludePathProvider(path, includes)