go-lark is an easy-to-use SDK for Feishu and Lark Open Platform, which implements messaging APIs, with full-fledged supports on building Chat Bot and Notification Bot.
It is widely used and tested by ~650 ByteDance in-house developers with over 3k Go packages.
- Notification bot & chat bot supported
- Send messages (Group, Private, Rich Text, and Card)
- Quick to build message with
MsgBuffer
- Easy to create incoming message hook
- Encryption and token verification supported
- Middleware support for Gin & Hertz web framework
- Highly extensible
- Documentation & tests
go get github.com/illacloud/larksdk
There are two types of bot that is supported by go-lark. We need to create a bot manually.
Chat Bot:
- Feishu: create from Feishu Open Platform.
- Lark: create from Lark Developer.
- App ID and App Secret are required to init a
ChatBot
.
Notification Bot:
- Create from group chat.
- Web Hook URL is required.
Chat Bot:
import "github.com/illacloud/larksdk"
func main() {
bot := lark.NewChatBot("<App ID>", "<App Secret>")
bot.StartHeartbeat()
bot.PostText("hello, world", lark.WithEmail("someone@example.com"))
}
Notification Bot:
import "github.com/illacloud/larksdk"
func main() {
bot := lark.NewNotificationBot("<WEB HOOK URL>")
bot.PostNotificationV2(lark.NewMsgBuffer(lark.MsgText).Text("hello, wolrd").Build())
}
Feishu/Lark API offers more features, please refers to Usage for further documentation.
- go-lark is tested on Feishu endpoints, which literally compats Lark endpoints, because Feishu and Lark basically shares the same API specification. We do not guarantee all of the APIs work well with Lark, until we have tested it on Lark.
- go-lark only supports Custom App. Marketplace App is not supported yet.
- go-lark implements messaging, group chat, and bot API, other APIs such as Lark Doc, Calendar and so on are not supported.
The default API endpoints are for Feishu, in order to switch to Lark, we should use SetDomain
:
bot := lark.NewChatBot("<App ID>", "<App Secret>")
bot.SetDomain(lark.DomainLark)
Auto-renewable authentication:
// initialize a chat bot with appID and appSecret
bot := lark.NewChatBot(appID, appSecret)
// Renew access token periodically
bot.StartHeartbeat()
// Stop renewal
bot.StopHeartbeat()
Single-pass authentication:
bot := lark.NewChatBot(appID, appSecret)
resp, err := bot.GetTenantAccessTokenInternal(true)
// and we can now access the token value with `bot.TenantAccessToken()`
Example: examples/auth
For Chat Bot, we can send simple messages with the following method:
PostText
PostTextMention
PostTextMentionAll
PostImage
PostShareChatCard
ReplyMessage
AddReaction
DeleteReaction
Basic message examples: examples/basic-message
To build rich messages, we may use Message Buffer (or simply MsgBuffer
),
which builds message conveniently with chaining methods.
Apart from the general auth and messaging chapter, there are comprehensive examples for almost all APIs.
Here is a collection of ready-to-run examples for each part of go-lark
:
- examples/auth
- examples/basic-message
- examples/rich-text-message
- examples/interactive-message
- examples/image-message
- examples/share-chat
- examples/group
We can build message body with MsgBuffer
and send with PostMessage
, which supports the following message types:
MsgText
: TextMsgPost
: Rich TextMsgInteractive
: Interactive CardMsgShareCard
: Group Share CardMsgShareUser
: User Share CardMsgImage
: ImageMsgFile
: FileMsgAudio
: AudioMsgMedia
: MediaMsgSticker
: Sticker
MsgBuffer
provides binding functions and content functions.
Binding functions:
Function | Usage | Comment |
---|---|---|
BindChatID | Bind a chat ID | Either OpenID , UserID , Email , ChatID or UnionID should be present |
BindOpenID | Bind a user open ID | |
BindUserID | Bind a user ID | |
BindUnionID | Bind a union ID | |
BindEmail | Bind a user email | |
BindReply | Bind a reply ID | Required when reply a message |
Content functions pair with message content types. If it mismatched, it would not have sent successfully. Content functions:
Function | Message Type | Usage | Comment |
---|---|---|---|
Text | MsgText |
Append plain text | May build with TextBuilder |
Post | MsgPost |
Append rich text | May build with PostBuilder |
Card | MsgInteractive |
Append interactive card | May build with CardBuilder |
ShareChat | MsgShareCard |
Append group share card | |
ShareUser | MsgShareUser |
Append user share card | |
Image | MsgImage |
Append image | Required to upload to Lark server in advance |
File | MsgFile |
Append file | Required to upload to Lark server in advance |
Audio | MsgAudio |
Append audio | Required to upload to Lark server in advance |
Media | MsgMedia |
Append media | Required to upload to Lark server in advance |
Sticker | MsgSticker |
Append sticker | Required to upload to Lark server in advance |
Each go-lark
API function returns response
and err
.
err
is the error from HTTP client, when it was not nil
, HTTP might have gone wrong.
While response
is HTTP response from Lark API server, in which Code
and OK
represent whether it succeeds.
The meaning of Code
is defined here.
Lark provides a number of events and they are in two different schema (1.0/2.0). go-lark now only implements a few of them, which are needed for interacting between bot and Lark server:
- URL Challenge
- Receiving Messages
We recommend HTTP middlewares to handle these events.
We have already implemented HTTP middlewares to support event handling:
Example: examples/gin-middleware examples/hertz-middleware
r := gin.Default()
middleware := larkgin.NewLarkMiddleware()
middleware.BindURLPrefix("/handle") // supposed URL is http://your.domain.com/handle
r.Use(middleware.LarkChallengeHandler())
Lark has provided event v2 and it applied automatically to newly created bots.
r := gin.Default()
middleware := larkgin.NewLarkMiddleware()
r.Use(middleware.LarkEventHandler())
Get the event (e.g. Message):
r.POST("/", func(c *gin.Context) {
if evt, ok := middleware.GetEvent(c); ok { // => GetEvent instead of GetMessage
if evt.Header.EventType == lark.EventTypeMessageReceived {
if msg, err := evt.GetMessageReceived(); err == nil {
fmt.Println(msg.Message.Content)
}
}
}
})
We may also setup callback for card actions (e.g. button). The URL challenge part is the same.
We may use LarkCardHandler
to handle the actions:
r.Use(middleware.LarkCardHandler())
r.POST("/callback", func(c *gin.Context) {
if card, ok := middleware.GetCardCallback(c); ok {
}
})
For older bots, please use v1:
r := gin.Default()
middleware := larkgin.NewLarkMiddleware()
middleware.BindURLPrefix("/handle") // supposed URL is http://your.domain.com/handle
r.POST("/handle", func(c *gin.Context) {
if msg, ok := middleware.GetMessage(c); ok && msg != nil {
text := msg.Event.Text
// your awesome logic
}
})
Lark Open Platform offers AES encryption and token verification to ensure security for events.
- AES Encryption: when switch on, all traffic will be encrypted with AES.
- Token Verification: simple token verification for incoming messages.
We recommend you to enable token verification. If HTTPS is not available on your host, then enable AES encryption.
middleware.WithTokenVerfication("<verification-token>")
middleware.WithEncryption("<encryption-key>")
Lark does not provide messaging API debugger officially. Thus, we have to debug with real Lark conversation. We recommend ngrok to debug events.
And we add PostEvent
to simulate message sending to make it even easier.
PostEvent
can also be used to redirect events, which acts like a reverse proxy.
-
Dotenv Setup
go-lark uses
godotenv
test locally. You may have to create a.env
file in repo directory, which contains environmental variables:LARK_APP_ID LARK_APP_SECRET LARK_USER_EMAIL LARK_USER_ID LARK_UNION_ID LARK_OPEN_ID LARK_CHAT_ID LARK_WEBHOOK_V2 LARK_WEBHOOK_V2_SIGNED
LARK_APP_ID
andLARK_APP_SECRET
are mandatory. Others are required only by specific API tests. -
Run Test
GO_LARK_TEST_MODE=local ./scripts/test.sh
go-lark's dev utilities (authentication, HTTP handling, and etc.) are capable for easily implementing most of APIs provided by Lark Open Platform. And we may use that as an extension for go-lark.
Here is an example that implementing a Lark Doc API with go-lark:
package lark
import "github.com/illacloud/larksdk"
const copyFileAPIPattern = "/open-apis/drive/explorer/v2/file/copy/files/%s"
// CopyFileResponse .
type CopyFileResponse struct {
lark.BaseResponse
Data CopyFileData `json:"data"`
}
// CopyFileData .
type CopyFileData struct {
FolderToken string `json:"folderToken"`
Revision int64 `json:"revision"`
Token string `json:"token"`
Type string `json:"type"`
URL string `json:"url"`
}
// CopyFile implementation
func CopyFile(bot *lark.Bot, fileToken, dstFolderToken, dstName string) (*CopyFileResponse, error) {
var respData model.CopyFileResponse
err := bot.PostAPIRequest(
"CopyFile",
fmt.Sprintf(copyFileAPIPattern, fileToken),
true,
map[string]interface{}{
"type": "doc",
"dstFolderToken": dstFolderToken,
"dstName": dstName,
"permissionNeeded": true,
"CommentNeeded": false,
},
&respData,
)
return &respData, err
}
- I got
99991401
when sending messages- remove IP Whitelist from dashboard
- My bot failed sending messages
- check authentication.
- not invite to the group.
- API permission not applied.
- Does go-lark support interactive message card?
- Yes, use a CardBuilder.
- If you think you've found a bug with go-lark, please file an issue.
- Pull Request is welcomed.
Copyright (c) David Zhang, 2018-2024. Licensed under MIT License.