This package is a golang SDK for CoolQ HTTP API. You can develop a QQ Bot that works based on CoolQ and CoolQ HTTP API plugin, with golang and this package.
The architectures and method names in this package are mainly inspired by go-telegram-bot-api. Meanwhile, we provide a couple of features like event emitter and chained api, inspired by other SDKs of CQHTTP. In most cases, this package gives you a friendly experience of developing bots in golang. You'll find it easy to navigate to this package, if you have once worked with go-telegram-bot-api or SDKs of CQHTTP in other languages. However, there are still use cases of CQHTTP that we do not cover with a good support ---- by design, for example, the scenario of using multiple CoolQ instance with one bot application.
Head through the following examples and godoc will give you a tutorial about how to use this package. If you still have problems, look up to the code or open an issue.
CoolQ HTTP API provides several choices of communication method. The table below shows whether this SDK supports a kind of method.
Method | API | Event |
---|---|---|
HTTP | √ | √ * |
WebHook (i.e. HTTP Reverse) | √ ** | √ |
WebSocket | √ | √ |
WebSocket Reverse | × | √ |
* CQHTTP LongPolling Plugin is required to use this feature.
** Only limited operations (e.g. reply, approve) are provided by CQHTTP, in response to an event.
This is a very simple bot that just displays any gotten updates, then replies it to that chat.
func main() {
bot, err := qqbotapi.NewBotAPI("MyCoolqHttpToken", "http://localhost:5700", "CQHTTP_SECRET")
if err != nil {
log.Fatal(err)
}
bot.Debug = true
u := qqbotapi.NewWebhook("/webhook_endpoint")
u.PreloadUserInfo = true
// Use WebHook as event method
updates := bot.ListenForWebhook(u)
// Or if you love WebSocket Reverse
// updates := bot.ListenForWebSocket(u)
go http.ListenAndServe("0.0.0.0:8443", nil)
for update := range updates {
if update.Message == nil {
continue
}
log.Printf("[%s] %s", update.Message.From.String(), update.Message.Text)
bot.SendMessage(update.Message.Chat.ID, update.Message.Chat.Type, update.Message.Text)
}
}
If you need to utilize a sync response, it will be slightly different.
func main() {
bot, err := qqbotapi.NewBotAPI("MyCoolqHttpToken", "http://localhost:5700", "CQHTTP_SECRET")
if err != nil {
log.Fatal(err)
}
bot.Debug = true
u := qqbotapi.NewWebhook("/webhook_endpoint")
u.PreloadUserInfo = true
bot.ListenForWebhookSync(u, func(update qqbotapi.Update) interface{} {
log.Printf("[%s] %s", update.Message.From.String(), update.Message.Text)
return map[string]interface{}{
"reply": update.Message.Text,
}
})
http.ListenAndServe("0.0.0.0:8443", nil)
}
It's as easy as well if you prefer WebSocket or LongPolling as event method.
func main() {
// Whether to use WebSocket or LongPolling depends on the address.
// To use WebSocket, the address should be something like "ws://localhost:6700"
bot, err := qqbotapi.NewBotAPI("MyCoolqHttpToken", "http://localhost:5700", "CQHTTP_SECRET")
if err != nil {
log.Fatal(err)
}
bot.Debug = true
u := qqbotapi.NewUpdate(0)
u.PreloadUserInfo = true
updates, err := bot.GetUpdatesChan(u)
for update := range updates {
if update.Message == nil {
continue
}
log.Printf("[%s] %s", update.Message.From.String(), update.Message.Text)
bot.SendMessage(update.Message.Chat.ID, update.Message.Chat.Type, update.Message.Text)
}
}
If you come from Python/JavaScript, you'll be probably looking for this feature. We at here provide it as a helper that you may choose to use or not on your taste.
var bot *qqbotapi.BotAPI
func Log(update qqbotapi.Update) {
log.Printf("[%s] %s", update.Message.From.String(), update.Message.Text)
}
func Echo(update qqbotapi.Update) {
bot.SendMessage(update.Message.Chat.ID, update.Message.Chat.Type, update.Message.Text)
}
func main() {
var err error
bot, err = qqbotapi.NewBotAPI("MyCoolqHttpToken", "http://localhost:5700", "CQHTTP_SECRET")
if err != nil {
log.Fatal(err)
}
u := qqbotapi.NewWebhook("/webhook_endpoint")
updates := bot.ListenForWebhook(u)
go http.ListenAndServe("0.0.0.0:8443", nil)
ev := qqbotapi.NewEv(updates)
// Function Echo will get triggered on receiving an update with
// PostType `message`, MessageType `group` and SubType `normal`
ev.On("message.group.normal")(Echo)
// Function Log will get triggered on receiving an update with
// PostType `message`
ev.On("message")(Log)
// Keep main thread alive
<-make(chan bool)
}
Update.Message.Message
is a group of Media
, defined in package cqcode
.
for update := range updates {
if update.Message == nil {
continue
}
for _, media := range *update.Message.Message {
switch m := media.(type) {
case *cqcode.Image:
fmt.Printf(
"The message includes an image, id: %s, url: %s",
m.FileID,
m.URL,
)
}
}
}
There are some useful command helpers.
for update := range updates {
if update.Message == nil {
continue
}
// If this is true, a valid command must start with a command prefix (default to "/"),
// false by default.
cqcode.StrictCommand = true
// Set command prefix
cqcode.CommandPrefix = "/"
if update.Message.IsCommand() {
// cmd string, args []string
// In a StrictCommand mode, the command prefix will be stripped off.
cmd, args := update.Message.Command()
// Note that cmd and args are still media
cmdMedia, _ := cqcode.ParseMessage(cmd)
for _, v := range cmdMedia {
switch v.(type) {
case *cqcode.At:
fmt.Print("The command includes an At!")
case *cqcode.Face:
fmt.Print("The command includes a Face!")
}
}
}
}
The easiest way to send a message is to use a chained api.
// Send a text-img message
s := bot.NewMessage(10000000, "group").
At("1232332333").
Text("嘤嘤嘤").
NewLine().
FaceByName("调皮").
Text("这是一个测试").
ImageBase64("img.jpg").
Send()
// Withdraw that message
if s.Err == nil {
bot.DeleteMessage(s.Result.MessageID)
}
// Send a stand-alone message (No need to call Send())
bot.NewMessage(10000000, "private").
Dice()
You can also use bot.SendMessage
.
// All media types defined in package cqcode can be sent directly.
// e.g. Send a text message
bot.SendMessage(10000000, "group", cqcode.Text{
Text: "[<- These will be encoded ->]",
})
// Send a location
bot.SendMessage(10000000, "group", cqcode.Location{
Content: "上海市徐汇区交通大学华山路1954号",
Latitude: 31.198878,
Longitude: 121.436381,
Style: 1,
Title: "位置分享",
})
// Send a message that contains a number of media.
message := make(cqcode.Message, 0)
message.Append(&cqcode.At{QQ: "all"})
message.Append(&cqcode.Text{Text:" 大家起来嗨"})
face, _ := cqcode.NewFaceFromName("调皮")
message.Append(face)
bot.SendMessage(10000000, "group", message)
// To send an image or a record, you may use a helper function.
// Format a base64-encoded image (Recommended)
image1, err := qqbotapi.NewImageBase64("/path/to/image.jpg")
// Format an image in the web.
u, err := url.Parse("https://img.rikako.moe/i/D1D.jpg")
image2 := qqbotapi.NewImageWeb(u)
image2.DisableCache()
// Format a local image if CQHTTP and your bot are under the same host.
u, err = url.Parse("file:///tmp/D1D.jpg")
image3 := qqbotapi.NewImageWeb(u)
Or you can manually use the function bot.Send
and bot.Do
with a "config".
You should find this quite familiar if you have once developed a Telegram bot.
// An alternative to bot.SendMessage and bot.DeleteMessage
message := qqbotapi.NewMessage(10000000, "group", "aaaaaa")
m, err := bot.Send(message)
if err == nil {
config := qqbotapi.DeleteMessageConfig{MessageID: m.MessageID}
bot.Do(config)
}