Telegram::Bot
Tools for developing Telegram bots. Best used with Rails, but can be used in standalone app. Supposed to be used in webhook-mode in production, and poller-mode in development, but you can use poller in production if you want.
Package contains:
- Lightweight client for bot API (with fast and thread-safe httpclient under the hood).
- Controller with message parser: define methods for commands, not
case
branches. - Middleware and routes helpers for production env.
- Poller with automatic source-reloader for development env.
- Rake tasks to update webhook urls.
- Async mode. Let the queue adapter handle network errors!
Here is sample telegram_bot_app with session, keyboards and inline queries. Run it on your local machine in 1 minute!
And here is app template to generate new rails app in seconds.
See examples and cookbook in the wiki.
Table of Contents
Installation
Add this line to your application's Gemfile:
gem 'telegram-bot'
And then execute:
bundle
Or install it yourself as:
gem install telegram-bot
Require if necessary:
require 'telegram/bot'
Usage
Configuration
While clients can be instantiated explicitly, there is Telegram.bots_config=
method
to configure app-wide clients, which are accessible via Telegram.bots
.
It accepts hash of {bot_id: bot_config}
, and there is special id :default
which is used for Telegram.bot
.
Telegram.bots_config = {
default: DEFAULT_BOT_TOKEN,
chat: {
token: CHAT_BOT_TOKEN,
username: 'ChatBot', # to support commands with mentions (/help@ChatBot)
server: 'http://local.bot.api.server', # for Local Bot API Server
},
}
Telegram.bot.get_updates
Telegram.bot == Telegram.bots[:default] # true
Telegram.bots[:chat].send_message(...)
Configuration in Rails app
In Rails app Telegram.bots_config
is read from secrets.yml
automatically
from telegram
section:
development:
telegram:
# Single bot can be specified like this
bot: TOKEN
# or
bot:
token: TOKEN
username: SomeBot
server: http://local.bot.api.server
# For multiple bots in single app use hash of `internal_bot_id => settings`
bots:
# just set the bot token
chat: TOKEN_1
# or add username to support commands with mentions (/help@ChatBot)
auction:
token: TOKEN_2
username: ChatBot
For Rails >= 5.2 Telegram::Bot
searches for config first in credentials and then in secrets.
To use credentials as config store, add telegram section to credentials instead of secrets using
rails credentials:edit
. In this case be aware of that Rails < 6.0 may not load
credentials in dev environment by default.
In Rails >= 6.0 run rails credentials:edit --environment development
to configure bot
in each environment.
I suggest not using Rails 5.2 credentials because it can lead to leakage of sensitive data and it's more difficult to use in multiple environments. See secure_credentials gem for better option.
From now clients will be accessible with Telegram.bots[:chat]
or Telegram.bots[:auction]
.
Single bot can be accessed with Telegram.bot
or Telegram.bots[:default]
.
Client
Client is instantiated with Telegram::Bot::Client.new(token, username)
.
Username is optional and used only to parse commands with mentions.
There is request(path_suffix, body)
method to perform any query.
And there are shortcuts for all available requests in underscored style
(answer_inline_query(params)
instead of answerInlineQuery
).
bot.request(:getMe) or bot.get_me
bot.request(:getupdates, offset: 1) or bot.get_updates(offset: 1)
bot.send_message(chat_id: chat_id, text: 'Test')
There is no magic, they just pass params as is and set path_suffix
.
See list of available methods
fetched from API docs.
Please open PR or issue if it misses methods from new API versions.
Any API request error will raise Telegram::Bot::Error
with description in its message.
Special Telegram::Bot::Forbidden
is raised when bot can't post messages to the chat anymore.
Typed responses
By default client will return parsed json responses. You can enable
response typecasting to virtus models using
telegram-bot-types
gem:
# Add to your gemfile:
gem 'telegram-bot-types', '~> x.x.x'
# Enable typecasting:
Telegram::Bot::Client.typed_response!
# or for single instance:
bot.extend Telegram::Bot::Client::TypedResponse
bot.get_me.class # => Telegram::Bot::Types::User
Controller
Controller makes it easy to keep bot's code readable.
It does nothing more than finding out action name for update and invoking it.
So there is almost no overhead comparing to large switch
, while you
can represent actions as separate methods keeping source much more readable and supportable.
New instance of controller is instantiated for each update. This way every update is processed in isolation from others.
Bot controllers like usual rails controllers provides features like callbacks,
rescue_from
and instrumentation.
class Telegram::WebhookController < Telegram::Bot::UpdatesController
# use callbacks like in any other controller
around_action :with_locale
# Every update has one of: message, inline_query, chosen_inline_result,
# callback_query, etc.
# Define method with the same name to handle this type of update.
def message(message)
# store_message(message['text'])
end
# For the following types of updates commonly used params are passed as arguments,
# full payload object is available with `payload` instance method.
#
# message(payload)
# inline_query(query, offset)
# chosen_inline_result(result_id, query)
# callback_query(data)
# Define public methods ending with `!` to handle commands.
# Command arguments will be parsed and passed to the method.
# Be sure to use splat args and default values to not get errors when
# someone passed more or less arguments in the message.
def start!(word = nil, *other_words)
# do_smth_with(word)
# full message object is also available via `payload` instance method:
# process_raw_message(payload['text'])
# There are `chat` & `from` shortcut methods.
# For callback queries `chat` is taken from `message` when it's available.
response = from ? "Hello #{from['username']}!" : 'Hi there!'
# There is `respond_with` helper to set `chat_id` from received message:
respond_with :message, text: response
# `reply_with` also sets `reply_to_message_id`:
reply_with :photo, photo: File.open('party.jpg')
end
private
def with_locale(&block)
I18n.with_locale(locale_for_update, &block)
end
def locale_for_update
if from
# locale for user
elsif chat
# locale for chat
end
end
end
Reply helpers
There are helpers for basic responses. They just set chat/message/query
identifiers from the update. See
ReplyHelpers
module for more information. Here are these methods signatures:
def respond_with(type, params); end
def reply_with(type, params); end
def answer_inline_query(results, params = {}); end
def answer_callback_query(text, params = {}); end
def edit_message(type, params = {}); end
def answer_pre_checkout_query(ok, params = {}); end
def answer_shipping_query(ok, params = {}); end
Optional typecasting
You can enable typecasting of update
with telegram-bot-types
by including
Telegram::Bot::UpdatesController::TypedUpdate
:
class Telegram::WebhookController < Telegram::Bot::UpdatesController
include Telegram::Bot::UpdatesController::TypedUpdate
def message(message)
message.class # => Telegram::Bot::Types::Message
end
end
Session
This API is very close to ActiveController's session API, but works different
under the hood. Cookies can not be used to store session id or
whole session (like CookieStore does). So it uses key-value store and session_key
method to build identifier from update.
Store can be one of numerous ActiveSupport::Cache
stores.
While :file_store
is suitable for development and single-server deployments
without heavy load, it doesn't scale well. Key-value databases with persistance
like Redis are more appropriate for production use.
# In rails app store can be configured in env files:
config.telegram_updates_controller.session_store = :redis_store, {expires_in: 1.month}
# In other app it can be done for all controllers with:
Telegram::Bot::UpdatesController.session_store = :redis_store, {expires_in: 1.month}
# or for specific one:
OneOfUpdatesController.session_store = :redis_store, {expires_in: 1.month}
Default session id is made from bot's username and (from || chat)['id']
.
It means that session will be the same for updates from user in every chat,
and different for every user in the same group chat.
To change this behavior you can override session_key
method, or even
define multiple sessions
in single controller. For details see Session
module.
class Telegram::WebhookController < Telegram::Bot::UpdatesController
include Telegram::Bot::UpdatesController::Session
# or just shortcut:
use_session!
# You can override global config for this controller.
self.session_store = :file_store
def write!(text = nil, *)
session[:text] = text
end
def read!(*)
respond_with :message, text: session[:text]
end
private
# In this case session will persist for user only in specific chat.
# Same user in other chat will have different session.
def session_key
"#{bot.username}:#{chat['id']}:#{from['id']}" if chat && from
end
end
Message context
It's usual to support chain of messages like BotFather: after receiving command
it asks you for additional argument. There is MessageContext
for this:
class Telegram::WebhookController < Telegram::Bot::UpdatesController
include Telegram::Bot::UpdatesController::MessageContext
def rename!(*)
# set context for the next message
save_context :rename_from_message
respond_with :message, text: 'What name do you like?'
end
# register context handlers to handle this context
def rename_from_message(*words)
update_name words[0]
respond_with :message, text: 'Renamed!'
end
# You can use same action name as context name:
def rename!(name = nil, *)
if name
update_name name
respond_with :message, text: 'Renamed!'
else
save_context :rename!
respond_with :message, text: 'What name do you like?'
end
end
end
Callback queries
You can include CallbackQueryContext
module to split #callback_query
into
several methods. It doesn't require session support, and takes context from
data: if data has a prefix with colon like this my_ctx:smth...
it invokes
my_ctx_callback_query('smth...')
when such action method is defined. Otherwise
it invokes callback_query('my_ctx:smth...')
as usual.
Callback queries without prefix stay untouched.
# This one handles `set_value:%{something}`.
def set_value_callback_query(new_value = nil, *)
save_this(value)
answer_callback_query('Saved!')
end
# And this one is for `make_cool:%{something}`
def make_cool_callback_query(thing = nil, *)
do_it(thing)
answer_callback_query("#{thing} is cool now! Like a callback query context.")
end
Routes in Rails app
There is telegram_webhook
helper for rails app to define routes for webhooks.
It defines routes at telegram/#{hash_of(bot.token)}
and connects bots with controller.
# Most off apps would require
telegram_webhook TelegramController
# which is same as
telegram_webhook TelegramController, :default
# Use different controllers for each bot:
telegram_webhook TelegramChatController, :chat
telegram_webhook TelegramAuctionController, :auction
# Defined route is named and its name depends on `Telegram.bots`.
# For single bot it will use 'telegram_webhook',
# for multiple bots it uses bot's key in the `Telegram.bots` as prefix
# (eg. `chat_telegram_webhook`).
# You can override this with `as` option:
telegram_webhook TelegramController, as: :custom_telegram_webhook
Processing updates
To process update with controller call .dispatch(bot, update)
on it.
There are several options to run it automatically:
- Use webhooks with routes helper (described above).
- Use
Telegram::Bot::Middleware
with rack (example in wiki). - Use poller (described in the next section).
To run action without update (ex., send notifications from jobs),
you can call #process
directly. In this case controller can be initialized
with :from
and/or :chat
options instead of update
object:
controller = ControllerClass.new(bot, from: telegram_user, chat: telegram_chat)
controller.process(:welcome, *args)
Development & Debugging
Use rake telegram:bot:poller
to run poller in rails app. It automatically loads
changes without restart in development env.
Optionally pass bot id in BOT
envvar (BOT=chat
) to specify bot to run poller for.
This task requires telegram_webhook
helper to be used as it connects bots with controller.
To run poller in other cases use:
Telegram::Bot::UpdatesPoller.start(bot, controller_class)
Testing
There is a Telegram::Bot::ClientStub
class to stub client for tests.
Instead of performing API requests it stores them in a requests
hash.
To stub all possible clients use Telegram::Bot::ClientStub.stub_all!
before
initializing clients. Here is a template for RSpec:
# environments/test.rb
# Make sure to run it before defining routes or accessing any bot in the app!
Telegram.reset_bots
Telegram::Bot::ClientStub.stub_all!
# rails_helper.rb
RSpec.configure do |config|
# ...
config.after { Telegram.bot.reset }
# or for multiple bots:
config.after { Telegram.bots.each_value(&:reset) }
# ...
end
RSpec contexts and helpers are included automatically for groups and examples with matching
tags. In RSpec < 3.4 it's required to use include_context
explicitly.
See list of available helpers
for details.
There are 3 types of integration tests:
:rails
- for testing bot in webhooks-mode in Rails application. It simulates webhook requests POSTing data to controller's endpoint. It works on the top of requests specs, sorspec-rails
gem is required.:rack
- For testing bot in webhooks-mode in non-Rails application. It usesrack-test
gem to POST requests to bot's endpoint.:poller
- Calls.dispatch
directly on controller class.
Pick the appropriate one, then require telegram/bot/rspec/integration/#{type}
and mark spec group with tag telegram_bot: type
. See configuration options
for each type in
telegram/bot/rspec/integration/.
Here is an example test for a Rails app:
# spec/requests/telegram_webhooks_spec.rb
require 'telegram/bot/rspec/integration/rails'
RSpec.describe TelegramWebhooksController, telegram_bot: :rails do
# for old RSpec:
# include_context 'telegram/bot/integration/rails'
# Main method is #dispatch(update). Some helpers are:
# dispatch_message(text, options = {})
# dispatch_command(cmd, *args)
# Available matchers can be found in Telegram::Bot::RSpec::ClientMatchers.
it 'shows usage of basic matchers' do
# The most basic one is #make_telegram_request(bot, action).
# It works similar to `receive` matcher and supports chaining `.with(args).exactly(n).times`.
expect { dispatch_command(:start) }.to make_telegram_request(bot, :sendMessage).
with(hash_including(text: 'msg text'))
# There are some shortcuts for dispatching basic updates and testing responses.
expect { dispatch_message('Hi') }.to send_telegram_message(bot, /msg regexp/, some: :option)
end
describe '#start!' do
subject { -> { dispatch_command :start } }
# Using built in matcher for `respond_to`:
it { should respond_with_message 'Hi there!' }
end
# There is context for callback queries with related matchers,
# use :callback_query tag to include it.
describe '#hey_callback_query', :callback_query do
let(:data) { "hey:#{name}" }
let(:name) { 'Joe' }
it { should answer_callback_query('Hey Joe') }
it { should edit_current_message :text, text: 'Done' }
end
end
There is a context for testing bot controller in the way similar to Rails controller tests. It's supposed to be a low-level alternative for integration tests. Among the differences is that controller tests use a single controller instance for all dispatches in specific example, session is stubbed (does not use configured store engine), and update is not serialized so it also supports mocks. This can be useful for unit testing, but should not be used as the default way to test the bot.
require 'telegram/bot/updates_controller/rspec_helpers'
RSpec.describe TelegramWebhooksController, type: :telegram_bot_controller do
# for old RSpec:
# include_context 'telegram/bot/updates_controller'
# Same helpers and matchers like dispatch_command, answer_callback_query are available here.
end
See sample app for more examples.
Deployment
While webhooks-mode is prefered, poller still can be used in production. See comparison and examples for details.
Async mode
There is built in support for async requests using ActiveJob. Without Rails you can implement your own worker class to handle such requests. This allows:
- Process updates very fast, without waiting for telegram responses.
- Handle and retry network and other errors with queue adapter.
- ???
Instead of performing request instantly client serializes it, pushes to queue, and immediately return control back. The job is then fetched with a worker and real API request is performed. And this all is absolutely transparent for the app.
To enable this mode add async: true
to bot's config.
For more information and custom configuration check out
docs or
source.
If you want async mode, but don't want to setup queue, know that Rails 5 are shipped with Async adapter by default, and there is Sucker Punch for Rails 4.
To disable async mode for the block of code use bot.async(false) { bot.send_photo }
.
Yes, it's threadsafe too.
Limitations
- Client will not return API response.
- Sending files is not available in async mode, because they can not be serialized.
Development
After checking out the repo, run bin/setup
to install dependencies and git hooks.
Then, run appraisal rake spec
to run the tests.
You can also run bin/console
for an interactive prompt that will allow you to experiment.
To install this gem onto your local machine, run bundle exec rake install
.
To release a new version, update the version number in version.rb
,
and then run bundle exec rake release
, which will create a git tag for the version,
push git commits and tags, and push the .gem
file to rubygems.org.
Use bin/fetch-telegram-methods
to update API methods list from Telegram website.
Contributing
Bug reports and pull requests are welcome on GitHub at https://github.com/telegram-bot-rb/telegram-bot.