package telebot import ( "bytes" "encoding/json" "fmt" "log" "net/http" "strconv" ) var defaultOnError = func(err error, c Context) { log.Println(c.Update().ID, err) } func (b *Bot) debug(err error) { log.Println(err) } func (b *Bot) deferDebug() { if r := recover(); r != nil { if err, ok := r.(error); ok { b.debug(err) } else if str, ok := r.(string); ok { b.debug(fmt.Errorf("%s", str)) } } } func (b *Bot) runHandler(h HandlerFunc, c Context) { f := func() { defer b.deferDebug() if err := h(c); err != nil { b.OnError(err, c) } } if b.synchronous { f() } else { go f() } } func applyMiddleware(h HandlerFunc, middleware ...MiddlewareFunc) HandlerFunc { for i := len(middleware) - 1; i >= 0; i-- { h = middleware[i](h) } return h } // wrapError returns new wrapped telebot-related error. func wrapError(err error) error { return fmt.Errorf("telebot: %w", err) } // extractOk checks given result for error. If result is ok returns nil. // In other cases it extracts API error. If error is not presented // in errors.go, it will be prefixed with `unknown` keyword. func extractOk(data []byte) error { var e struct { Ok bool `json:"ok"` Code int `json:"error_code"` Description string `json:"description"` Parameters map[string]interface{} `json:"parameters"` } if json.NewDecoder(bytes.NewReader(data)).Decode(&e) != nil { return nil // FIXME } if e.Ok { return nil } err := Err(e.Description) switch err { case nil: case ErrGroupMigrated: migratedTo, ok := e.Parameters["migrate_to_chat_id"] if !ok { return NewError(e.Code, e.Description) } return GroupError{ err: err.(*Error), MigratedTo: int64(migratedTo.(float64)), } default: return err } switch e.Code { case http.StatusTooManyRequests: retryAfter, ok := e.Parameters["retry_after"] if !ok { return NewError(e.Code, e.Description) } err = FloodError{ err: NewError(e.Code, e.Description), RetryAfter: int(retryAfter.(float64)), } default: err = fmt.Errorf("telegram: %s (%d)", e.Description, e.Code) } return err } // extractMessage extracts common Message result from given data. // Should be called after extractOk or b.Raw() to handle possible errors. func extractMessage(data []byte) (*Message, error) { var resp struct { Result *Message } if err := json.Unmarshal(data, &resp); err != nil { var resp struct { Result bool } if err := json.Unmarshal(data, &resp); err != nil { return nil, wrapError(err) } if resp.Result { return nil, ErrTrueResult } return nil, wrapError(err) } return resp.Result, nil } func extractOptions(how []interface{}) *SendOptions { opts := &SendOptions{} for _, prop := range how { switch opt := prop.(type) { case *SendOptions: opts = opt.copy() case *ReplyMarkup: if opt != nil { opts.ReplyMarkup = opt.copy() } case Option: switch opt { case NoPreview: opts.DisableWebPagePreview = true case Silent: opts.DisableNotification = true case AllowWithoutReply: opts.AllowWithoutReply = true case ForceReply: if opts.ReplyMarkup == nil { opts.ReplyMarkup = &ReplyMarkup{} } opts.ReplyMarkup.ForceReply = true case OneTimeKeyboard: if opts.ReplyMarkup == nil { opts.ReplyMarkup = &ReplyMarkup{} } opts.ReplyMarkup.OneTimeKeyboard = true case RemoveKeyboard: if opts.ReplyMarkup == nil { opts.ReplyMarkup = &ReplyMarkup{} } opts.ReplyMarkup.RemoveKeyboard = true default: panic("telebot: unsupported flag-option") } case ParseMode: opts.ParseMode = opt case Entities: opts.Entities = opt default: panic("telebot: unsupported send-option") } } return opts } func (b *Bot) embedSendOptions(params map[string]string, opt *SendOptions) { if b.parseMode != ModeDefault { params["parse_mode"] = b.parseMode } if opt == nil { return } if opt.ReplyTo != nil && opt.ReplyTo.ID != 0 { params["reply_to_message_id"] = strconv.Itoa(opt.ReplyTo.ID) } if opt.DisableWebPagePreview { params["disable_web_page_preview"] = "true" } if opt.DisableNotification { params["disable_notification"] = "true" } if opt.ParseMode != ModeDefault { params["parse_mode"] = opt.ParseMode } if len(opt.Entities) > 0 { delete(params, "parse_mode") entities, _ := json.Marshal(opt.Entities) if params["caption"] != "" { params["caption_entities"] = string(entities) } else { params["entities"] = string(entities) } } if opt.AllowWithoutReply { params["allow_sending_without_reply"] = "true" } if opt.ReplyMarkup != nil { processButtons(opt.ReplyMarkup.InlineKeyboard) replyMarkup, _ := json.Marshal(opt.ReplyMarkup) params["reply_markup"] = string(replyMarkup) } } func processButtons(keys [][]InlineButton) { if keys == nil || len(keys) < 1 || len(keys[0]) < 1 { return } for i := range keys { for j := range keys[i] { key := &keys[i][j] if key.Unique != "" { // Format: "\f|" data := key.Data if data == "" { key.Data = "\f" + key.Unique } else { key.Data = "\f" + key.Unique + "|" + data } } } } } func embedRights(p map[string]interface{}, rights Rights) { data, _ := json.Marshal(rights) _ = json.Unmarshal(data, &p) } func thumbnailToFilemap(thumb *Photo) map[string]File { if thumb != nil { return map[string]File{"thumb": thumb.File} } return nil } func isUserInList(user *User, list []User) bool { for _, user2 := range list { if user.ID == user2.ID { return true } } return false } func intsToStrs(ns []int) (s []string) { for _, n := range ns { s = append(s, strconv.Itoa(n)) } return }