The invention relates to transmitting an electronic mail message securely to its re- cipient.

Transmitting an electronic mail message securely such that only the intended recipient may gain access to the message is problematic. Electronic mail was originally designed for an environment, in which it was possible to adequately rely on the ad- ministration of the servers as well as the security of the network itself. Later, encryption and handshaking have been added to electronic mail protocols to ensure information security. Thus, the security of a communications connection between a sending electronic mail server and a receiving electronic mail server is established such that outsiders cannot access the electronic mail traffic. However, this requires that all servers and the work stations or terminals of the sender and recipient use reliable encryption, and that there is no unreliable electronic mail server along the route. If a message must be sent to an electronic mail server managed by an unknown organization or, for example, to a cloud service, it is in no way possible to ensure the secure transmission of the message all the way to the correct recipient.

It is possible to encrypt the message itself, for example, using PGP or GPG encryption (="Pretty Good Privacy" and "Gnu Privacy Guard"). When used properly, these are highly secure. However, the sender and recipient are required to have software, and the sender must have the public key of the recipient for encryption of the mes- sage.

The object of the invention is to provide a method and a messaging server, by means of which an electronic mail can easily and securely be sent to a recipient without the recipient or sender needing to have any particular software or know- how. Further, according to the invention, it is possible to complicate or preclude the use of counterfeit sender information in the electronic mail.

In the following, the invention is described by means of the accompanying schematic illustration. Fig. 1 shows, in a schematic illustration, the parts of the system and the steps in the transmission of a message.

In this context, the word "secured mail" is used for internet communication, which is more secure than ordinary electronic mail. This invention relates to the secure transmission of a message such that only the intended recipient gains access to the message. The term "turvaposti (secured mail)" is also a part of the business name of the applicant, but, in this context, the word is used as a general term comprising also other services than the applicant's. The arrows show the steps of the method. The pipe-like arrows show the steps, in which the contents are secured, for example, by encryption. A single line shows a message or connection, which can also be non-encrypted or unsecured.

In Fig. 1, the message of the user of computer CI is delivered to the user of com- puter C2. The user of the electronic mail program of computer CI can guide the electronic mail he has sent via secured mail by adding a suitable identifier to the identifier information of the electronic mail. In step 1, the message is sent via the electronic mail server Ml used by computer CI to the secured mail server. The arrow of step 1 is drawn as pipe-like to show an encrypted connection. The server Ml should thus use some known encrypted electronic mail transmission protocol, in order that the message could securely be delivered to the secured mail server TP. It is generally easy for the organization of the user of CI to ensure the use of an encrypted protocol and, as needed, to introduce in the server a forced encrypted connection also between client computers and the sending server Ml. The connection between the servers can be, for example, SMTPS, i.e. SMTP Secure, which uses SSH or TLS tunnelling in the transport layer. In this case, in connection with the SSH tunnel, public key certificates can be used to verify the servers. As the certificates can be used PKI signed keys, which are granted by the certificate authorities. Preferably, the message is guided from the Ml server to the secured mail server TP simply by adding a domain identifier to the end of the electronic mail address of the electronic mail recipient. In this case, the electronic mail is sent as guided by the name service further to be sent to the secured mail server TP. There is no need to make any changes to the electronic mail programs or servers of the organization of the sender. The domain identifier added to the end of the electronic mail, for example, "tur- vaposti.fi" guides mail messages automatically to a secured mail server. In place of the domain of turvaposti.fi can naturally be any suitable domain name whatsoever. The secured mail server TP can identify the sender by the certificates used by the electronic mail server Ml. The server of the sender can identify the certificate of the secured mail server at least if the domain name of the secured mail server is verified by an extended identifier (Extended Validation certificate, EV), and both servers support this. Self-made identifiers can also be used.

An encrypted connection can be ensured continuous as long as at least one of the parties is able to inspect the certificate of the opposite party and to identify the encryption keys of the opposite party as genuine. Thus, it is enough if the secured mail server can identify the certificate of the electronic mail server of the sender. If identification is not successfully performed, it is possible to refuse to accept the message and send an error message by electronic mail to the sender and, at the same time, to request the following of a secure https link to transfer the message directly to a secured mail server. It is also possible to allow self-formed identifiers or an encrypted connection without identification in the future.

The secured mail server stores the message and ensures the correctness of the sender by a dispatch acknowledgment request message 2.1. It is possible to send this message without encryption, because there is no need to send in it information, which would be sensitive. However, as a countermeasure against man-in-the-middle attacks, it is recommended to also encrypt this dispatch acknowledgment request message. This way, the use of counterfeit sender information is more reliably prevented, because capturing the dispatch acknowledgment request message and replying to it is not successful without capturing the electronic mail account of the sender. The message 2.1 can be sent as an electronic mail to the original sender, or a secured mail server can use another route of communication for the acknowledgment request message, for example, an SMS message to a telephone number provided by the sender. To the message 2.1 is answered directly over the electronic mail server Ml using a message or a contact 2.2. If the electronic mail server Ml and the secured mail server allow electronic mail messages, whose From: field is unfamiliar, the sender of the message can change his from address such that the dispatch acknowledgment request message arrives in some other place than the address of the sender account of the Ml server. The dispatch acknowledgment request message can also be sent to a ReplyTo: address. However, the dispatch acknowledgment request message can be used to assure that the address of the dispatch acknowledgment request message is in the possession of the sender of the original message and is a functioning electronic mail address.

An answer to the dispatch acknowledgment request 2.1 can be made using an encrypted www connection or it is possible to answer by a text message or dispatch acknowledgment electronic mail, provided that dispatch acknowledgment mail is secure between C1-M1-TP. If the mobile telephone number of the recipient or other alternative contact information for electronic mail is not yet known, the information can be requested during an encrypted www connection, or requested that it be sent as an SMS reply or an electronic mail reply. Other contact information is required for sending the password P2 to the recipient in step 4. The secured mail server TP notifies of a message that has arrived by electronic mail to the recipient by electronic mail 3. This message does not contain information about the contents of the message itself. The sender information can possibly be included in some form, in order that the recipient would know, for example, the urgency of the message. This step is drawn in the figure as non-encrypted as a sin- gle line. The encryption of this step is not selectable by the secured mail server or the sender, thus it is not possible to rely on that the message could remain encrypted all the way to the recipient. It is also not possible to rely on the electronic mail server and its administrator. The user on computer C2 receives information regarding a secured mail that has arrived, and the message has a link and/or instructions to securely retrieve the message via an encrypted connection 5 from the secured mail server TP.

In the figure, the example message is sent to a modified electronic mail address Erkki@esimerkki.fi.turvaposti.fi. In this case, the address of the recipient is Erk- ki@esimerkki.fi, and as the identifier is used the addition of turvaposti.fi. This is a handy manner in that there is no need to make any changes to the electronic mail server used by the sender to guide the message to the secured mail server TP. A dispatch acknowledgment does not need to be requested if the secured mail server already knows the password delivery address of the recipient. The secured mail server can also send a reading acknowledgment to the electronic mail address of the sender, when the recipient retrieves or reads the message itself.