JP2004228725A - E-mail server - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an e-mail server capable of transmitting an e-mail surely in real time to an e-mail server of a final destination. <P>SOLUTION: The e-mail server 1 establishes connection with an opposite unit 18 specified by an IP telephone number according to a call control program, establishes connection by specifying the opposite unit 18 based on the IP telephone number upon receiving an e-mail being transferred, and transmits the e-mail on the established connection. When the destination mail address of a received e-mail is that of an e-mail server having a communication function according to the call control protocol, the e-mail can be transmitted directly in real time. Consequently, communication results can be acquired simultaneously with transmission of the e-mail. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic mail server.
[0002]
[Prior art]
2. Description of the Related Art In recent years, IP telephone communication for making a telephone call using an IP network and IP facsimile communication for performing a facsimile also using an IP network are becoming widespread. Multifunction devices have also been developed. For example, as disclosed in Patent Document 1, an IP telephone communication function and ITU-T Recommendation T. There is a communication terminal device equipped with an IP facsimile communication function conforming to J.38 and capable of simultaneously performing transmission and reception by IP telephone communication and IP facsimile communication.
[0003]
When performing IP telephone communication or IP facsimile communication, control corresponding to processing performed by a switch of a general public network, such as management of a call or a call of a partner, is performed by a call control protocol. The call control protocol includes H.264. H.323 and SIP (Session Initiation Protocol; RFC2543) are widely used. In particular, since SIP is a call control protocol that only establishes, changes, and terminates a session and does not care about the contents of the session, the SIP is not limited to the above-described IP telephone communication and IP facsimile communication, and may be SMTP (Simple Mail Transfer Protocol). And various communication procedures such as HTTP (Hypertext Transfer Protocol) can be executed on the connection established between the calling side and the called side. Therefore, according to the SIP, there is an advantage that the communication terminal device of the transmission source can directly exchange data with the transmission partner device in real time.
[0004]
[Patent Document 1]
JP-A-2002-101256 (page 3-5, FIG. 2)
[0005]
[Problems to be solved by the invention]
However, in the case of an e-mail server, as shown in FIG. 6, several e-mail servers 15 are interposed in order to deliver the e-mail received from the mail client 10 or the like to the e-mail server 16 as the final destination. Need to be done. Therefore, data transmission is not performed directly with the e-mail server 16 at the final destination, so that e-mail cannot be transmitted in real time. For this reason, it is not possible to determine whether the e-mail has arrived at the e-mail server at the final destination until the DSN or MDN is received, and various processes performed starting from the arrival of the transmitted e-mail, for example, transmission of communication history information There has been a problem that the start of displaying the result and notifying the operator of the delivery is delayed.
[0006]
The present invention has been made in view of such a problem, and an object of the present invention is to provide an e-mail server which enables real-time reliable transmission of an e-mail to an e-mail server at a final destination.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, an electronic mail server according to claim 1 comprises: a connection establishing means for establishing a connection with a partner device specified by an IP telephone number by a call control protocol; Means for specifying the partner device by an IP telephone number, establishing the connection, and transmitting the e-mail received on the established connection.
[0008]
An electronic mail server according to a second aspect is the electronic mail server according to the first aspect, wherein the IP telephone number is included in the received electronic mail.
[0009]
An electronic mail server according to a third aspect of the present invention is the electronic mail server according to the first aspect, further comprising a storage unit that stores a mail address and a telephone number in association with each other, wherein the storage unit stores the mail address and the received mail address. When the destination e-mail address of the e-mail matches, the telephone number stored in association with the e-mail address is applied as the IP telephone number.
[0010]
An electronic mail server according to a fourth aspect is the electronic mail server according to the first aspect, wherein the IP telephone number is determined based on communication information or electronic mail information of the received electronic mail. I have.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an e-mail server according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a configuration example of an e-mail server. That is, the e-mail server 1 includes a CPU (central processing unit) 2, a RAM (random access memory) 3, a ROM (read only memory) 4, a display unit 5, an input unit 6, and a LAN interface 7. The units 2 to 7 are communicably connected by a bus 8.
[0012]
The CPU 2 controls each unit constituting the electronic mail server 1 according to a predetermined program. The RAM 3 functions as a storage unit for storing various setting information, a table T described later, system information, and the like, and also as a storage unit for various data temporarily stored. The ROM 4 stores various programs for controlling the operation of each unit of the electronic mail server 1 by the CPU 2. The display unit 5 displays information on the state of the e-mail server 1, various screens, the contents of a table T described later, and the like. The input unit 6 includes a keyboard, a mouse, and the like, and is used when an operator sets and inputs various types of information, and is also used when editing the contents of a table T described later.
[0013]
The LAN interface 7 is an interface with a LAN (local area network) 9 and connects the electronic mail server 1 to the LAN 9 so as to be able to communicate. In the LAN 9, in addition to the e-mail server 1, a mail client 10 composed of a personal computer or the like in which a mailer (e-mail sending / receiving client software) is incorporated, and a router 12 connecting the LAN 9 and the IP network 11 are installed. Have been.
[0014]
The table T formed in the RAM 3 can be freely edited by the operation of the operator from the input unit 6, and as shown in FIG. 2A, a "destination address" for storing a mail address or a domain name. , Domain "column, and" IP telephone number "column for storing IP telephone numbers. The information stored in both columns is stored in the same record so as to be associated with each other. For example, the mail address “abc@efg.com” stored in the “destination address, domain” column and the IP telephone number “050-1234-5678” stored in the “IP telephone number” column are stored in the table T. They are stored in association with each other.
[0015]
In a predetermined area of the RAM 3, system information (not shown) of an IP network telephone number (IP telephone number) is stored. If a telephone number starting with, for example, “050-” or “080-” is assigned as a telephone number for the IP network in the telephone number system of the telephone company or the intranet, the IP address is stored in a predetermined area of the RAM 3 by an input operation of an operator or the like. "050-" and "080-" are registered as system information of the network telephone number.
[0016]
The e-mail server 1 having the above-described configuration stores an e-mail addressed to the domain name of the e-mail server 1 in its own mailbox and implements an SMTP server function of transferring e-mail addressed to another domain name. In addition, UDP / IP (User Datagram Protocol / Internet Protocol) and SIP are implemented. Using these communication functions, the e-mail server 1 designates a partner device (partner e-mail server) 13 that similarly implements UDP / IP, SIP and SMTP by an IP telephone number and uses SIP to execute the communication, as shown in FIG. After establishing a connection (hereinafter, referred to as “SIP connection”), a function of directly transmitting an e-mail received from the mail client 10 or the like is realized by directly executing SMTP communication. FIG. 3A shows a case where the destination mail address is that of the partner electronic mail server 13, and FIG. 3B shows a case where the destination mail address is a POP (Post Office Protocol) client of the partner electronic mail server 13. 13a.
[0017]
In order to perform direct real-time e-mail transmission to the above-mentioned partner e-mail server 13 in real time, the e-mail server 1 specifies the partner e-mail server 13 by an IP telephone number as shown in FIG. A session is formed, a SIP connection is established, a media session is formed on the established SIP connection, and then a call control session for disconnecting communication is formed.
[0018]
More specifically, the e-mail server 1 determines that the e-mail received from the mail client 10 or the like is an e-mail to be transferred (the domain name of the destination e-mail address specified by the SMTP command "RCPT TO:" If it is different from the domain name of the e-mail server 1), it requests the SIP server 14 to call the other party by "INVITE" specifying the IP telephone number (T1). Upon receiving this, the SIP server 14 inquires the IP address of the IP telephone number specified by the e-mail server 1 to a location server (not shown) having the correspondence information between the IP telephone number and the IP address, and determines the IP address. A call is made by sending “INVITE” to the other party's electronic mail server 13 obtained from the IP address. At this time, a signal "RINGING" indicating that the other party's electronic mail server 13 is being called is sent from the SIP server 14 to the electronic mail server 1 (R1).
[0019]
When the partner e-mail server 13 called by the SIP server 14 responds to the call, the partner e-mail server 13 sends a success response code "200" to the SIP server 14, and the SIP server 14 receiving the response code Sends a success response code "200" to the electronic mail server 1 (R2). Next, the e-mail server 1 sends “ACK” indicating that the success response code has been received to the SIP server 14 (T2). Is transmitted to establish an SIP connection between the e-mail server 1 and the partner e-mail server 13 to form a communication state that enables execution of SMTP communication. Note that a call control session formed until the SIP connection is established as described above is hereinafter referred to as a “starting call control session”.
[0020]
The e-mail server 1 sends a predetermined command requesting presentation of a communication procedure that can be dealt with by the other party before executing the SMTP communication with the other party's e-mail server 13 on the established SIP connection. 13 (T3), and the other party's e-mail server 13 executes a processing operation of presenting information on the communication procedure that can be handled by the own device 13 to the e-mail server 1 in response to this (T3). (R3). In addition, the e-mail server 1 is configured to notify the partner e-mail server 13 in advance that a communication procedure to be used before executing the communication procedure, that is, communication by SMTP (T4). After prompting the receiving electronic mail server 13 to prepare for reception, the communication with the other electronic mail server 13 is executed by SMTP communication to transmit (transfer) the electronic mail (T5).
[0021]
After terminating the SMTP communication (media session) (T6), the e-mail server 1 sends "BYE" requesting the disconnection of the SIP connection to the SIP server 14 (T7). “BYE” is sent to the partner electronic mail server 13. Then, when the SIP server 14 receives the success response code “200” from the partner electronic mail server 13, it also sends a success response code “200” to the electronic mail server 1 (R 4), and ends a series of sessions. (Disconnect communication). Note that the above-described call control session formed until the communication is disconnected after the media session is ended is hereinafter referred to as an “end call control session”.
[0022]
Next, an operation performed when the electronic mail server 1 having the above-described configuration and communication function receives an electronic mail from the mail client 10 or another electronic mail server will be described with reference to a flowchart shown in FIG. The operation of the e-mail server 1 described based on this flowchart is performed according to a command issued by the CPU 2 based on a control program stored in the ROM 4.
[0023]
When the e-mail server 1 receives an e-mail by SMTP (S1), if the destination e-mail address specified in the SMTP command "RCPT TO:" or the like does not include the domain name of itself 1, the e-mail to which the e-mail should be transferred Is determined (S2: YES). On the other hand, when the email server 1 includes the domain name of the email server 1 itself, it is determined that the email is addressed to the email server 1 itself (S2: NO), and the POP mailbox in the email server 1 (POP mailbox is, for example, RAM3 The received e-mail is stored in the predetermined area (S3).
[0024]
If the received e-mail is to be transferred (S2: YES), it is determined whether or not the e-mail server 1 itself has the IP telephone number of the destination e-mail server 13 corresponding to the destination e-mail address of the received e-mail. A judgment is made (S4).
[0025]
In making the determination in S4, first, before or after the delimiter "@" of the mail header, body, or destination mail address specified in the SMTP command "RCPT TO:" or the like of the received e-mail, It is determined whether or not a number in which the system information of the telephone number for the IP network such as “050-” or “080-” is described in the section. For example, when the destination mail address is “050-0000-9999”, it is determined that the system information “050-” is included. Then, together with the system information, a number having a predetermined number of digits that follows, for example, “0000-9999” is extracted as the IP telephone number of the partner electronic mail server 13, and the electronic mail server 1 itself uses the IP address of the partner electronic mail server 13. Judge that you have a phone number.
On the other hand, if it is not included, it is further determined whether or not any of the mail addresses stored in the “destination address, domain” column of the table T matches the destination mail address of the received electronic mail. At this time, the telephone number associated with the mail address is applied as the IP telephone number of the partner electronic mail server 13, and it is determined that the electronic mail server 1 itself has the IP telephone number of the partner electronic mail server 13. .
[0026]
Next, when it is determined that the e-mail server 1 has the IP telephone number of the partner e-mail server 13 corresponding to the destination e-mail address (S4: YES), the IP telephone number is designated and described above. A start call control session is formed to establish a SIP connection with the other party's e-mail server 13 (S5). Then, data is exchanged at T3, R3, and T4 on the established SIP connection, the SMTP communication procedure is executed, and the received e-mail is transmitted to the partner e-mail server 13 (S6). Finally, the above-mentioned termination call control session is formed, and the SIP connection is disconnected (S7).
[0027]
On the other hand, if it is determined in S4 that the e-mail server 1 itself does not have the IP telephone number of the destination e-mail server 13 corresponding to the destination e-mail address of the received e-mail (S4: NO), the normal SMTP is used. The e-mail received by the e-mail transmission is transmitted. That is, the e-mail is transmitted to the destination e-mail address via e-mail transfer processing between the respective SMTP servers without establishing the SIP connection (S8).
[0028]
As is apparent from the above description, according to the e-mail server according to the embodiment of the present invention, the destination e-mail server 13 of the destination e-mail address that is the final destination can deal with the SIP, and If the e-mail server 1 has the IP telephone number of the e-mail server 13, direct e-mail transmission can be performed in real time. As a result, for example, there is an advantage that the transmission result can be obtained at the same time when the electronic mail is transmitted.
[0029]
Also, when sending an e-mail using the e-mail server 1, the SIP is used for the e-mail server 1 by writing an IP telephone number in a predetermined place in the e-mail to be transmitted. Since it is possible to cause the e-mail transfer to be performed, it is possible to select whether the e-mail transfer using the SIP or the e-mail transfer using the normal SMTP is performed at the transmission source.
[0030]
Next, a modified example of the above-described embodiment will be described below. The e-mail server 1A according to the modification includes the SMTP command "RCPT TO:" which is the communication information of the e-mail or the e-mail header or the text which is the e-mail information, at the time of the determination in S4, the specific information is included. In this case, the IP telephone number of the destination electronic mail server 13 specified in S5 is determined based on the specific information.
[0031]
For this purpose, the mail server 1A according to the modified example stores a table T ′ in which specific information is stored in a predetermined area of the RAM 3, as shown in FIG. This table T 'can be freely edited by an operator's operation from the input unit 6, and includes a "specific information" column for storing specific information and an "IP telephone number" column for storing IP telephone numbers. . The information stored in both columns is stored in the same record so as to be associated with each other. For example, the specific information “KYOTOSITEN” stored in the “specific information” column and the IP telephone number “050-1234-5678” stored in the “IP telephone number” column are stored in association with each other using this table T. Have been.
[0032]
Then, at the time of the determination in S4, the e-mail server 1A stores the SMTP command “RCPT TO:” or any specific information stored in the “specific information” column of the table T ′ in the e-mail header or body. A search is performed to see if the telephone number is described. If the telephone number is described, the telephone number stored in association with the specific information is extracted as the IP telephone number of the destination electronic mail server 13. Accordingly, it is determined that the email server 1A itself has the IP telephone number of the partner email server corresponding to the destination email address (S4: YES), and a series of processing operations from S5 are executed.
[0033]
On the other hand, if the specific information stored in the “specific information” column of the table T ′ is not described in the SMTP command “RCPT TO:” or in any of the e-mail header or body, the e-mail server 1A itself transmits It is determined that it does not have the IP telephone number of the mail server 13 (S4: NO), and the processing operation of S8 is executed.
[0034]
According to the e-mail server 1A according to the modified example described above, the specific information to be described in the e-mail or the like is the information stored in the “specific information” column of the table T ′. Various forms of symbols and character information can be used without being limited to the description format of addresses and the like. For example, if “KYOTOSITEN” is registered as specific information in the table T ′ and the IP telephone number of the mail server in the Kyoto branch is registered and associated with this information, the e-mail sender can enter the information in the e-mail. Various conveniences are improved, for example, information to be easily associated with the other party can be described as the specific information to be provided.
[0035]
In the above-described embodiment, the SIP is used as the call control protocol. However, as long as the call control protocol is the same, a call control protocol other than the SIP may be employed.
[0036]
【The invention's effect】
According to the electronic mail server of the first aspect, when the destination mail address of the received electronic mail is an electronic mail server having a communication function based on the call control protocol, direct electronic mail can be performed in real time. For this reason, it is possible to acquire the communication result simultaneously with the transmission of the e-mail.
[0037]
According to the electronic mail server of the present invention, the destination of the e-mail is described with the destination IP telephone number in the e-mail, so that the e-mail server can quickly send the e-mail server using a call control protocol. In addition, it is possible to perform reliable e-mail transfer.
[0038]
According to the electronic mail server of the third aspect, by storing the mail address and the IP telephone number in association with each other, it is possible to automatically perform the electronic mail transfer (transmission) using the call control protocol.
[0039]
The e-mail server according to claim 4 determines the IP telephone number based on the communication information at the time of reception or the information included in the e-mail. By describing the information, it becomes possible for this electronic mail server to perform quick and reliable electronic mail transfer using the call control protocol.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration example of an electronic mail server according to an embodiment of the present invention.
FIG. 2 is a diagram showing an example of forming a table.
FIG. 3 is a diagram showing a transmission path of an e-mail.
FIG. 4 is a sequence diagram showing an example of a session in a case where communication with a partner electronic mail server is performed by SIP (call control protocol).
FIG. 5 is a flowchart showing a processing operation executed when the electronic mail server according to the embodiment of the present invention receives an electronic mail.
FIG. 6 is a diagram showing a transmission path of an electronic mail transferred by an electronic mail server according to a conventional example.
[Explanation of symbols]
T table 1 Email server 2 CPU
3 RAM
4 ROM
11 IP network

Claims (4)

A connection establishing means for establishing a connection with a partner device designated by an IP telephone number by a call control protocol, and when receiving an e-mail to be transferred, establishing a connection by designating a partner device by an IP telephone number. Means for transmitting the e-mail received on the connection. The electronic mail server according to claim 1, wherein the IP telephone number is included in the received electronic mail. A storage unit that stores the e-mail address and the telephone number in association with each other, and when the e-mail address stored in the storage unit matches the destination e-mail address of the received e-mail, the e-mail is stored in association with the e-mail address. 2. The e-mail server according to claim 1, wherein the telephone number is applied as the IP telephone number. The electronic mail server according to claim 1, wherein the IP telephone number is determined based on communication information of the received electronic mail or specific information included in the electronic mail information.

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