Telego is Telegram Bot API library for Golang with full API implementation (one-to-one)
The goal of this library was to create API with the same types and methods as actual Telegram Bot API.
Every type and method have been represented in types.go
and methods.go
files with mostly
all documentation from Telegram.
For more detailed documentation, see docs at telego.pixelbox.dev.
Note: Telego uses fasthttp instead of
net/http
and go-json instead ofencoding/json
by default (both can be changed).
Click to show β’ hide
How to get the library:
go get github.com/mymmrac/telego
Make sure you get the latest version to have all new features & fixes.
More examples can be seen here:
Click to show β’ hide
- Basic
- Configuration
- Methods
- Updates (long polling)
- Updates (webhook)
- Ngrok webhook
- Echo bot
- Echo bot (with handlers)
- Echo bot (handlers + webhook + graceful shutdown + docker)
- Sending files (documents, photos, media groups)
- Downloading files
- Inline keyboard
- Keyboard
- Edit message
- Utility methods
- Inline query bot
- Bot handlers
- Bot handles (groups + middleware)
- Update's context
- Graceful shutdown (no helpers)
- Graceful shutdown (long polling)
- Graceful shutdown (webhook)
- Custom predicates for handlers
- Handler ordering
- Specific handlers
- Predicate as middleware
- Update processor
- Message entities
- Multi bot webhook
- Retry caller
- Menu bot
- Test server
Note: Error handling may be missing in examples, but I strongly recommend handling all errors.
Generally, useful information about Telegram Bots and their features:
Click to show β’ hide
- π Telegram Bot API β’ Telegram documentation of Bot API (full reference)
- 𧩠Telegram Bot Fundamentals ⒠Bots: An introduction for developers
- π Telegram Bot Features β’ Describes individual bot elements and features in detail
- π§ Telegram Bot Webhooks β’ Marvin's Marvellous Guide to All Things Webhook
- π° Telegram Bot Payments β’ Describes payment system and payment lifecycle
- π± Telegram Bot WebApps β’ Describes WebApps and interactions with them
- π Ngrok β’ Connect localhost to the Internet
- π‘οΈ Let's Encrypt β’ TLS certificates for free
For start, you need to create an instance of your bot and specify token.
package main
import (
"fmt"
"os"
"github.com/mymmrac/telego"
)
func main() {
// Get Bot token from environment variables
botToken := os.Getenv("TOKEN")
// Create bot and enable debugging info
// Note: Please keep in mind that default logger may expose sensitive information,
// use in development only
// (more on configuration in examples/configuration/main.go)
bot, err := telego.NewBot(botToken, telego.WithDefaultDebugLogger())
if err != nil {
fmt.Println(err)
os.Exit(1)
}
// Call method getMe (https://core.telegram.org/bots/api#getme)
botUser, err := bot.GetMe()
if err != nil {
fmt.Println("Error:", err)
}
// Print Bot information
fmt.Printf("Bot user: %+v\n", botUser)
}
In order to receive updates, you can use one of two methods:
- using long polling (
bot.UpdatesViaLongPolling
) - using webhook (
bot.UpdatesViaWebhook
)
Let's start from long polling (easier for local testing):
package main
import (
"fmt"
"os"
"github.com/mymmrac/telego"
)
func main() {
botToken := os.Getenv("TOKEN")
// Note: Please keep in mind that default logger may expose sensitive information,
// use in development only
bot, err := telego.NewBot(botToken, telego.WithDefaultDebugLogger())
if err != nil {
fmt.Println(err)
os.Exit(1)
}
// Get updates channel
// (more on configuration in examples/updates_long_polling/main.go)
updates, _ := bot.UpdatesViaLongPolling(nil)
// Stop reviving updates from update channel
defer bot.StopLongPolling()
// Loop through all updates when they came
for update := range updates {
fmt.Printf("Update: %+v\n", update)
}
}
Webhook example (recommended way):
package main
import (
"fmt"
"os"
"github.com/mymmrac/telego"
)
func main() {
botToken := os.Getenv("TOKEN")
// Note: Please keep in mind that default logger may expose sensitive information,
// use in development only
bot, err := telego.NewBot(botToken, telego.WithDefaultDebugLogger())
if err != nil {
fmt.Println(err)
os.Exit(1)
}
// Set up a webhook on Telegram side
_ = bot.SetWebhook(&telego.SetWebhookParams{
URL: "https://example.com/bot" + bot.Token(),
})
// Receive information about webhook
info, _ := bot.GetWebhookInfo()
fmt.Printf("Webhook Info: %+v\n", info)
// Get an update channel from webhook.
// (more on configuration in examples/updates_webhook/main.go)
updates, _ := bot.UpdatesViaWebhook("/bot" + bot.Token())
// Start server for receiving requests from the Telegram
go func() {
_ = bot.StartWebhook("localhost:443")
}()
// Stop reviving updates from update channel and shutdown webhook server
defer func() {
_ = bot.StopWebhook()
}()
// Loop through all updates when they came
for update := range updates {
fmt.Printf("Update: %+v\n", update)
}
}
For running multiple bots from a single server, see this example.
Tip: For testing webhooks, you can use Ngrok to make a tunnel to your localhost, and get a random domain available from the Internet. It's as simple as
ngrok http 8080
. Or follow Telego + Ngrok example using ngrok/ngrok-go for most convenient bot testing.
Tip: You may wish to use Let's Encrypt in order to generate your free TLS certificate.
All Telegram Bot API methods described in documentation can be
used by the library. They have the same names and the same parameters, parameters represented by struct with
name: <methodName>
+ Params
. If method doesn't have required parameters nil
value can be used as a parameter.
Note:
types.go
andmethods.go
were automatically generated from documentation, and it's possible that they have errors or missing parts both in comments and actual code. Feel free to report such things.
package main
import (
"fmt"
"os"
"github.com/mymmrac/telego"
tu "github.com/mymmrac/telego/telegoutil"
)
func main() {
botToken := os.Getenv("TOKEN")
// Note: Please keep in mind that default logger may expose sensitive information,
// use in development only
bot, err := telego.NewBot(botToken, telego.WithDefaultDebugLogger())
if err != nil {
fmt.Println(err)
os.Exit(1)
}
// Call method getMe
botUser, _ := bot.GetMe()
fmt.Printf("Bot User: %+v\n", botUser)
updates, _ := bot.UpdatesViaLongPolling(nil)
defer bot.StopLongPolling()
for update := range updates {
if update.Message != nil {
// Retrieve chat ID
chatID := update.Message.Chat.ID
// Call method sendMessage.
// Send a message to sender with the same text (echo bot).
// (https://core.telegram.org/bots/api#sendmessage)
sentMessage, _ := bot.SendMessage(
tu.Message(
tu.ID(chatID),
update.Message.Text,
),
)
fmt.Printf("Sent Message: %v\n", sentMessage)
}
}
}
In Telego even though you have all types
and methods
available, it's often not so
convenient to use them directly. To solve this issues telegoutil
package was created. It contains
utility-helper function that will make your life a bit easier.
I suggest including it with alias to get cleaner code:
import tu "github.com/mymmrac/telego/telegoutil"
The package contains couple methods for creating send parameters with all required parameters like:
Message(chatID, text) => SendMessageParams
Photo(chatID, photoFile) => SendPhotoParams
Location(chatID, latitude, longitude) => SendLocationParams
- ...
Or other useful methods like:
ID(intID) => ChatID
File(namedReader) => InputFile
- ...
Utils related to methods
can be found in telegoutil/methods
, for
types
in telegoutil/types
, for handlers
in
telegoutil/handler
, for api
in telegoutil/api
.
Note: If you think that something can be added to
telegoutil
package fill free to create an issue or pull request with desired changes.
Creating method parameters is sometimes bulky and not convenient, so you can use with
methods in combination with
utility
methods.
Here is a simple example of creating a message with a keyboard that has 4 buttons with different parameters.
package main
import (
"github.com/mymmrac/telego"
tu "github.com/mymmrac/telego/telegoutil"
)
func main() {
// ... initializing bot (full example in examples/keyboard/main.go)
// Creating keyboard
keyboard := tu.Keyboard(
tu.KeyboardRow( // Row 1
// Column 1
tu.KeyboardButton("Button"),
// Column 2, `with` method
tu.KeyboardButton("Poll Regular").
WithRequestPoll(tu.PollTypeRegular()),
),
tu.KeyboardRow( // Row 2
// Column 1, `with` method
tu.KeyboardButton("Contact").WithRequestContact(),
// Column 2, `with` method
tu.KeyboardButton("Location").WithRequestLocation(),
),
).WithResizeKeyboard().WithInputFieldPlaceholder("Select something")
// Multiple `with` methods can be chained
// Creating message
msg := tu.Message(
tu.ID(123),
"Hello World",
).WithReplyMarkup(keyboard).WithProtectContent() // Multiple `with` method
bot.SendMessage(msg)
}
Those methods allow you to modify values without directly accessing them, also as you saw with
methods can be staked
one to another in order to update multiple values.
Processing updates just in for loop is not the most pleasing thing to do, so Telego provides net/http
like handlers,
but instead of the path, you provide predicates.
One update will only match to the first handler whose predicates are satisfied, predicates checked in order of handler registration (it's useful to first specify the most specific predicates and then more general).
Also, all handlers (but not their predicates) are processed in parallel.
I suggest including it with alias to get cleaner code:
import th "github.com/mymmrac/telego/telegohandler"
Here is an example of using handlers with long polling updates.
You can see the full list of available predicates in telegohandler/predicates
,
or define your own.
package main
import (
"fmt"
"os"
"github.com/mymmrac/telego"
th "github.com/mymmrac/telego/telegohandler"
tu "github.com/mymmrac/telego/telegoutil"
)
func main() {
botToken := os.Getenv("TOKEN")
// Note: Please keep in mind that default logger may expose sensitive information,
// use in development only
bot, err := telego.NewBot(botToken, telego.WithDefaultDebugLogger())
if err != nil {
fmt.Println(err)
os.Exit(1)
}
// Get updates channel
updates, _ := bot.UpdatesViaLongPolling(nil)
// Create bot handler and specify from where to get updates
bh, _ := th.NewBotHandler(bot, updates)
// Stop handling updates
defer bh.Stop()
// Stop getting updates
defer bot.StopLongPolling()
// Register new handler with match on command `/start`
bh.Handle(func(bot *telego.Bot, update telego.Update) {
// Send message
_, _ = bot.SendMessage(tu.Message(
tu.ID(update.Message.Chat.ID),
fmt.Sprintf("Hello %s!", update.Message.From.FirstName),
))
}, th.CommandEqual("start"))
// Register new handler with match on any command
// Handlers will match only once and in order of registration,
// so this handler will be called on any command except `/start` command
bh.Handle(func(bot *telego.Bot, update telego.Update) {
// Send message
_, _ = bot.SendMessage(tu.Message(
tu.ID(update.Message.Chat.ID),
"Unknown command, use /start",
))
}, th.AnyCommand())
// Start handling updates
bh.Start()
}
Also, just handling updates is useful, but handling specific updates like messages or callback queries in most of the cases are more straightforward and provides cleaner code.
So Telego provides specific handles for all fields of telego.Update
. See the list of all available handler types in
telegohandler/update_handlers
, or define your own.
package main
import (
"fmt"
"github.com/mymmrac/telego"
th "github.com/mymmrac/telego/telegohandler"
tu "github.com/mymmrac/telego/telegoutil"
)
func main() {
// ... initializing bot and bot handler
// (full example in examples/handler_specific/main.go)
// Register new handler with match on command `/start`
bh.HandleMessage(func(bot *telego.Bot, message telego.Message) {
// Send a message with inline keyboard
_, _ = bot.SendMessage(tu.Message(
tu.ID(message.Chat.ID),
fmt.Sprintf("Hello %s!", message.From.FirstName),
).WithReplyMarkup(tu.InlineKeyboard(
tu.InlineKeyboardRow(
tu.InlineKeyboardButton("Go!").WithCallbackData("go"),
)),
))
}, th.CommandEqual("start"))
// Register new handler with match on the call back query
// with data equal to `go` and non-nil message
bh.HandleCallbackQuery(func(bot *telego.Bot, query telego.CallbackQuery) {
// Send message
_, _ = bot.SendMessage(tu.Message(tu.ID(query.Message.Chat.ID), "GO GO GO"))
// Answer callback query
_ = bot.AnswerCallbackQuery(tu.CallbackQuery(query.ID).WithText("Done"))
}, th.AnyCallbackQueryWithMessage(), th.CallbackDataEqual("go"))
// ... start bot handler
}
One more important part of handlers are groups and middlewares. Telego allows creating groups with and without predicates and attaching middleware to groups.
package main
import (
"fmt"
"github.com/mymmrac/telego"
th "github.com/mymmrac/telego/telegohandler"
)
func main() {
// Init ...
// Add global middleware, it will be applied in order of addition
bh.Use(func(bot *telego.Bot, update telego.Update, next th.Handler) {
fmt.Println("Global middleware") // Will be called first
next(bot, update)
})
// Create any groups with or without predicates
// Note: Updates first checked by groups and only then by handlers
// (group -> ... -> group -> handler)
task := bh.Group(th.TextContains("task"))
// Add middleware to groups
task.Use(func(bot *telego.Bot, update telego.Update, next th.Handler) {
fmt.Println("Group-based middleware") // Will be called second
if len(update.Message.Text) < 10 {
next(bot, update)
}
})
// Handle updates on a group
task.HandleMessage(func(bot *telego.Bot, message telego.Message) {
fmt.Println("Task...") // Will be called third
})
}
Telego supports multiple build configurations via Go's build tags (right now only to change JSON encoding/decoding library):
- No tags - use goccy/go-json
sonic
- use bytedance/sonicstdjson
- useencoding/json
Note: Use
sonic
only on supported platforms as it has its own limitations, more here.
Contribution guidelines listed here.
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Telego is distributed under MIT licence.