Beispiel #1
0
func kickOffWatcher(c *imap.Client) {
	cmd, _ := c.Idle()
	for cmd.InProgress() {
		c.Data = nil
		c.Recv(-1)
		for _, rsp := range c.Data {
			if rsp.Label == "EXISTS" {
				newEmailCount := rsp.Fields[0].(uint32)
				if newEmailCount > curMsgCount {
					c.IdleTerm()
					notifyNewEmail(c, newEmailCount)
					kickOffWatcher(c)
				}
				curMsgCount = newEmailCount
			}
		}
	}
}
Beispiel #2
0
//use imap to delete a mail
func (email *Email) DeleteEmail(w rest.ResponseWriter, r *rest.Request) {
	log.Printf("delete email...")
	addr := r.FormValue("imapAddr")
	//port := r.FormValue("smtpPort")
	user := r.FormValue("user")
	pwd := r.FormValue("pwd")
	id := r.FormValue("id")

	//check params, return error

	//create imap client
	var (
		c   *imap.Client
		cmd *imap.Command
		rsp *imap.Response
	)

	// Connect to the server
	c, _ = imap.Dial(addr)

	// Remember to log out and close the connection when finished
	defer c.Logout(30 * time.Second)

	// Print server greeting (first response in the unilateral server data queue)
	log.Printf("Server says hello:%s", c.Data[0].Info)
	c.Data = nil

	// Enable encryption, if supported by the server
	if c.Caps["STARTTLS"] {
		c.StartTLS(nil)
	}

	// Authenticate
	if c.State() == imap.Login {
		c.Login(user, pwd)
	}

	// List all top-level mailboxes, wait for the command to finish
	cmd, _ = imap.Wait(c.List("", "%"))

	// Print mailbox information
	log.Printf("\nTop-level mailboxes:")
	for _, rsp = range cmd.Data {
		log.Printf("|--%s", rsp.MailboxInfo())
	}

	// Check for new unilateral server data responses
	for _, rsp = range c.Data {
		log.Printf("Server data:%s", rsp)
	}
	c.Data = nil

	// Open a mailbox (synchronous command - no need for imap.Wait)
	c.Select("INBOX", true)
	log.Printf("\nMailbox status:%s\n", c.Mailbox)
	if c.Mailbox == nil {
		resp := EmailJsonResponse{Success: true}
		w.WriteJson(&resp)
		return
	}

	//use Expunge to delete a mail
	set, _ := imap.NewSeqSet("")
	mid, _ := strconv.Atoi(id)
	set.AddNum(uint32(mid))

	//delete mail
	cmd, err := c.Expunge(set)
	if err != nil {
		log.Printf("%v ", cmd)
	} else {
		log.Printf("delete mail ok")
	}

}
Beispiel #3
0
func (emaill *Email) getEmailContentUseIMAP(w rest.ResponseWriter, r *rest.Request) {
	addr := r.FormValue("imapAddr")
	port := r.FormValue("imapPort")
	user := r.FormValue("user")
	pwd := r.FormValue("pwd")
	id := r.FormValue("id")

	address := addr + ":" + port
	log.Printf("get email content use imap %s\n", address)

	var (
		c   *imap.Client
		cmd *imap.Command
		rsp *imap.Response
	)

	// Connect to the server
	c, err := imap.Dial(addr)
	if err != nil {
		log.Printf("dial %s error\n", address)
		return
	}

	// Remember to log out and close the connection when finished
	defer c.Logout(30 * time.Second)

	// Print server greeting (first response in the unilateral server data queue)
	log.Printf("Server says hello:%s", c.Data[0].Info)
	c.Data = nil

	// Enable encryption, if supported by the server
	if c.Caps["STARTTLS"] {
		c.StartTLS(nil)
	}

	// Authenticate
	if c.State() == imap.Login {
		c.Login(user, pwd)
	}

	// List all top-level mailboxes, wait for the command to finish
	cmd, _ = imap.Wait(c.List("", "%"))

	// Print mailbox information
	log.Printf("\nTop-level mailboxes:")
	for _, rsp = range cmd.Data {
		log.Printf("|--%s", rsp.MailboxInfo())
	}

	// Check for new unilateral server data responses
	for _, rsp = range c.Data {
		log.Printf("Server data:%s", rsp)
	}
	c.Data = nil

	// Open a mailbox (synchronous command - no need for imap.Wait)
	c.Select("INBOX", true)
	log.Printf("\nMailbox status:%s\n", c.Mailbox)
	if c.Mailbox == nil {
		resp := EmailJsonResponse{Success: true}
		w.WriteJson(&resp)
		return
	}

	// Fetch the headers of the 10 most recent messages
	set, _ := imap.NewSeqSet("")
	set.Add(id)
	// if c.Mailbox.Messages >= 10 {
	// 	set.AddRange(c.Mailbox.Messages-9, c.Mailbox.Messages) //测试只取最新一封邮件
	// } else {
	// 	set.Add("1:*")
	// }
	cmd, _ = c.Fetch(set, "RFC822.HEADER", "RFC822.TEXT") //指定要获取的内容

	// Process responses while the command is running
	log.Printf("\nget mail [%s] messages:", id)
	for cmd.InProgress() {
		// Wait for the next response (no timeout)
		c.Recv(-1)

		// Process command data
		for _, rsp = range cmd.Data {
			header := imap.AsBytes(rsp.MessageInfo().Attrs["RFC822.HEADER"])
			if msg, _ := mail.ReadMessage(bytes.NewReader(header)); msg != nil {
				subject := msg.Header.Get("Subject")
				log.Printf("|--%s", subject)

				realSubject := GetRealSubject(subject)
				log.Printf("in rest_email.go: get real subject")
				log.Printf(realSubject)

				senderAddr := msg.Header.Get("From")
				recverAddrList := msg.Header.Get("To")

				realSenderAddr := GetRealSubject(senderAddr)
				realRecverAddrList := GetRealSubject(recverAddrList)

				body := imap.AsBytes(rsp.MessageInfo().Attrs["RFC822.TEXT"])
				//log.Printf("email body: %s", body)
				//realBody  := GetRealBody(string(body))
				headerAndBody := make([]byte, len(header)+len(body))
				copy(headerAndBody, header)
				copy(headerAndBody[len(header):], body)

				msg, _ := mail.ReadMessage(bytes.NewReader(headerAndBody))
				mime, _ := enmime.ParseMIMEBody(msg)
				realBody := mime.Text //如果原始内容为html,会去掉html元素标签
				log.Printf("real body: %s", realBody)

				//获取MIMEPart所有节点内容
				// log.Printf("root ======================")
				// root := mime.Root
				// if root != nil {
				// 	log.Printf(string(root.Content()))
				// 	log.Printf("child==========")
				// 	if child := root.FirstChild(); child != nil {
				// 		log.Printf(string(child.Content()))
				// 	}

				// }

				attachments := mime.Attachments
				log.Printf("attachments len=%d", len(attachments))
				count := len(attachments)
				var attachmentList []Attachment = nil
				var data EmailContent
				if count > 0 {
					attachmentList = make([]Attachment, count)
					for i := 0; i < len(attachments); i++ {
						name := attachments[i].FileName()
						content := attachments[i].Content() //todo encode by base64
						log.Printf("name===%s", name)
						attachmentList[i] = Attachment{Name: name, Body: string(content)}
					}

				}
				data = EmailContent{Subject: realSubject, SenderAddr: realSenderAddr,
					RecverAddrList: realRecverAddrList, Content: realBody,
					Attachments: attachmentList}

				resp := EmailJsonResponse{Success: true, Data: data}
				w.WriteJson(resp)
			}
		}
		cmd.Data = nil

		// Process unilateral server data
		for _, rsp = range c.Data {
			log.Printf("Server data:%s", rsp)
		}
		c.Data = nil
	}

	// Check command completion status
	if rsp, err := cmd.Result(imap.OK); err != nil {
		if err == imap.ErrAborted {
			log.Printf("Fetch command aborted\n")
		} else {
			log.Printf("Fetch error:%s\n", rsp.Info)
		}
	}

}
Beispiel #4
0
// updateTray is called whenever a client detects that the number of unseen
// messages *may* have changed. It will search the selected folder for unseen
// messages, count them and store the result. Then it will use the notify
// channel to let our main process update the status icon.
func UpdateTray(c *imap.Client, notify chan bool, name string) {
	// Send > Search since Search adds CHARSET UTF-8 which might not be supported
	cmd, err := c.Send("SEARCH", "UNSEEN")

	if err != nil {
		fmt.Printf("%s failed to look for new messages\n", name)
		fmt.Println("  ", err)
		return
	}

	if _, ok := Unseen[name]; !ok {
		Unseen[name] = []uint32{}
	}

	unseenMessages := []uint32{}
	for cmd.InProgress() {
		// Wait for the next response (no timeout)
		err = c.Recv(-1)

		// Process command data
		for _, rsp := range cmd.Data {
			result := rsp.SearchResults()
			unseenMessages = append(unseenMessages, result...)
		}

		// Reset for next run
		cmd.Data = nil
		c.Data = nil
	}

	// Check command completion status
	if rsp, err := cmd.Result(imap.OK); err != nil {
		if err == imap.ErrAborted {
			fmt.Println("fetch command aborted")
		} else {
			fmt.Println("fetch error:", rsp.Info)
		}

		return
	}

	fmt.Printf("%d unseen\n", len(unseenMessages))

	// Find messages that the user hasn't been notified of
	// TODO: Make this optional/configurable
	newUnseen, _ := imap.NewSeqSet("")
	numNewUnseen := 0
	for _, uid := range unseenMessages {
		seen := false
		for _, olduid := range Unseen[name] {
			if olduid == uid {
				seen = true
				break
			}
		}

		if !seen {
			newUnseen.AddNum(uid)
			numNewUnseen++
		}
	}

	// If we do have new unseen messages, fetch and display them
	if numNewUnseen > 0 {
		messages := make([]string, numNewUnseen)
		i := 0

		// Fetch headers...
		cmd, _ = c.Fetch(newUnseen, "RFC822.HEADER")
		for cmd.InProgress() {
			c.Recv(-1)
			for _, rsp := range cmd.Data {
				header := imap.AsBytes(rsp.MessageInfo().Attrs["RFC822.HEADER"])
				if msg, _ := mail.ReadMessage(bytes.NewReader(header)); msg != nil {
					subject := msg.Header.Get("Subject")
					messages[i], err = new(mime.WordDecoder).DecodeHeader(subject)
					if err != nil {
						messages[i] = subject
					}
					i++
				}
			}

			cmd.Data = nil
			c.Data = nil
		}

		// Print them in reverse order to get newest first
		notification := ""
		for ; i > 0; i-- {
			notification += "> " + messages[i-1] + "\n"
		}
		notification = strings.TrimRight(notification, "\n")
		fmt.Println(notification)

		// And send them with notify-send!
		title := fmt.Sprintf("%s has new mail (%d unseen)", name, len(unseenMessages))
		sh := exec.Command("/usr/bin/notify-send",
			"-i", "notification-message-email",
			"-c", "email",
			title, notification)

		err := sh.Start()
		if err != nil {
			fmt.Println("Failed to notify user...")
			fmt.Println(err)
		}
		go func() {
			// collect exit code to avoid zombies
			sh.Wait()
		}()
	}

	Unseen[name] = unseenMessages

	// Let main process know something has changed
	notify <- true
}
Beispiel #5
0
func main() {
	token := flag.String("token", "", "The Telegram bot token")
	to := flag.String("to", "", "The mail recipient")
	from := flag.String("from", "", "The mail sender")
	server := flag.String("server", "", "The mail server")
	port := flag.Int("port", 587, "The mail server port")
	user := flag.String("user", "", "")
	pass := flag.String("pass", "", "")
	subject := flag.String("subject", "", "")

	flag.Parse()

	bot, err := telebot.NewBot(*token)
	if err != nil {
		return
	}

	// Fetching Mails and send as Telegram messages

	var (
		c   *imap.Client
		cmd *imap.Command
		rsp *imap.Response
	)

	c, _ = imap.Dial(*server)

	defer c.Logout(30 * time.Second)

	c.Data = nil

	if c.Caps["STARTTLS"] {
		c.StartTLS(nil)
	}

	if c.State() == imap.Login {
		c.Login(*user, *pass)
	}

	cmd, _ = imap.Wait(c.List("", "%"))

	c.Data = nil

	c.Select("INBOX", true)

	set, _ := imap.NewSeqSet("")
	set.Add("1:*")
	cmd, _ = c.Fetch(set, "RFC822.HEADER")

	for cmd.InProgress() {
		c.Recv(-1)

		for _, rsp = range cmd.Data {
			header := imap.AsBytes(rsp.MessageInfo().Attrs["RFC822.HEADER"])
			if msg, _ := mail.ReadMessage(bytes.NewReader(header)); msg != nil {
				fmt.Println("|--", msg.Header.Get("FROM"))
			}
		}
		cmd.Data = nil
		c.Data = nil
	}

	if rsp, err := cmd.Result(imap.OK); err != nil {
		if err == imap.ErrAborted {
			fmt.Println("Fetch command aborted")
		} else {
			fmt.Println("Fetch error:", rsp.Info)
		}
	}

	/*
	 * Listen to Telegram messages and send as mail
	 */

	messages := make(chan telebot.Message)
	bot.Listen(messages, 1*time.Second)

	for message := range messages {

		m := gomail.NewMessage()
		m.SetHeader("From", *from)
		m.SetHeader("To", *to)
		m.SetHeader("Subject", *subject)
		m.SetBody("text/html", message.Text)

		d := gomail.NewPlainDialer(*server, *port, *user, *pass)
		d.TLSConfig = &tls.Config{InsecureSkipVerify: true}

		if err := d.DialAndSend(m); err != nil {
			panic(err)
		}
	}
}
Beispiel #6
0
func ExampleClient() {
	//
	// Note: most of error handling code is omitted for brevity
	//
	var (
		c   *imap.Client
		cmd *imap.Command
		rsp *imap.Response
	)

	// Connect to the server
	c, _ = imap.Dial("imap.example.com")

	// Remember to log out and close the connection when finished
	defer c.Logout(30 * time.Second)

	// Print server greeting (first response in the unilateral server data queue)
	fmt.Println("Server says hello:", c.Data[0].Info)
	c.Data = nil

	// Enable encryption, if supported by the server
	if c.Caps["STARTTLS"] {
		c.StartTLS(nil)
	}

	// Authenticate
	if c.State() == imap.Login {
		c.Login("*****@*****.**", "mysupersecretpassword")
	}

	// List all top-level mailboxes, wait for the command to finish
	cmd, _ = imap.Wait(c.List("", "%"))

	// Print mailbox information
	fmt.Println("\nTop-level mailboxes:")
	for _, rsp = range cmd.Data {
		fmt.Println("|--", rsp.MailboxInfo())
	}

	// Check for new unilateral server data responses
	for _, rsp = range c.Data {
		fmt.Println("Server data:", rsp)
	}
	c.Data = nil

	// Open a mailbox (synchronous command - no need for imap.Wait)
	c.Select("INBOX", true)
	fmt.Print("\nMailbox status:\n", c.Mailbox)

	// Fetch the headers of the 10 most recent messages
	set, _ := imap.NewSeqSet("")
	if c.Mailbox.Messages >= 10 {
		set.AddRange(c.Mailbox.Messages-9, c.Mailbox.Messages)
	} else {
		set.Add("1:*")
	}
	cmd, _ = c.Fetch(set, "RFC822.HEADER")

	// Process responses while the command is running
	fmt.Println("\nMost recent messages:")
	for cmd.InProgress() {
		// Wait for the next response (no timeout)
		c.Recv(-1)

		// Process command data
		for _, rsp = range cmd.Data {
			header := imap.AsBytes(rsp.MessageInfo().Attrs["RFC822.HEADER"])
			if msg, _ := mail.ReadMessage(bytes.NewReader(header)); msg != nil {
				fmt.Println("|--", msg.Header.Get("Subject"))
			}
		}
		cmd.Data = nil

		// Process unilateral server data
		for _, rsp = range c.Data {
			fmt.Println("Server data:", rsp)
		}
		c.Data = nil
	}

	// Check command completion status
	if rsp, err := cmd.Result(imap.OK); err != nil {
		if err == imap.ErrAborted {
			fmt.Println("Fetch command aborted")
		} else {
			fmt.Println("Fetch error:", rsp.Info)
		}
	}
}