JP2004240863A - Domain name server and its program, application server and its program, and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To distribute processing loads of a server and to efficiently perform a processing. <P>SOLUTION: Each of terminals 3 (3-1 to 3-n) is made to correspond to one of application servers 2 (2-1 to 2-m) and domain name correspondence information in which a terminal domain name and a server address are made to correspond by the correspondence relation is prepared. In the case that signals indicating the terminal address of the terminal 3 of a transmission destination are sent from the terminal 3 to the application server 2 made to correspond to the terminal 3, the application server 2 replaces the terminal address indicated by the signals with the terminal domain name and reports the terminal domain name to a domain name server 1. The terminal domain name server 1 acquires the server address made to correspond to the reported terminal domain by referring to the domain name correspondence information and returns it to the application server 2. The application server 2 transfers the signals transmitted from the terminal to the other application server 2 having the server address. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a domain name server for causing communication between terminals that are clients of an application server and a program thereof, an application server and a program thereof, and a communication system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a communication system of this type, a server that distributes contents to a client and a domain name server that owns a correspondence table that associates address information of one server per domain name for processing one application are used. The domain name server receives the additional information included in the inquiry packet transmitted from the client, and returns the server's IP address obtained from the correspondence table to the client in accordance with the additional information, thereby responding to the client. A server that can provide a server is known (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP 2001-53793 A
[Problems to be solved by the invention]
However, in the conventional communication system as described above, the domain name server owns a correspondence table in which the address information of one server is associated with each domain name for processing one application. Even if a plurality of servers are installed in a domain to be processed, a processing load is applied only to a specific server, and a problem remains that the processing load cannot be distributed to the plurality of servers to efficiently process signals. Was. For example, in recent years, as represented by services using SIP (Session Initiation Protocol), communication modes for establishing a session between terminals via a SIP server have become widespread. In the communication system of (1), as the number of terminals that send and receive signals to and from a SIP server in one domain increases, the processing load on the SIP server increases, and the processing load is distributed to a plurality of SIP servers in one domain to improve efficiency. Signal cannot be processed.
[0004]
The present invention has been made to solve such a conventional problem, and an object of the present invention is to enable processing to be efficiently performed by distributing a processing load to a plurality of servers.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a communication system including a domain name server, a first terminal serving as a client, and an application server capable of communicating with each of the domain name server and another application server. The access unit provided in the domain name server accesses a storage unit that stores domain name correspondence information that associates the address of the another application server with the domain name of a terminal that is a client of the application server. The signal receiving means provided in the application server receives a signal transmitted from the first terminal. Then, the domain name replacing means provided in the application server replaces the address information of the second terminal indicated as the transmission destination of the signal in the signal with the domain name of the second terminal. Further, the domain name information transmitting means provided in the application server transmits domain name information indicating the domain name to the domain name server. The domain name information receiving means provided in the domain name server receives the domain name information transmitted by the domain name information transmitting means. Then, the address acquisition control means provided in the domain name server sets the address associated with the domain name indicated by the domain name information received by the domain name information receiving means in the domain name correspondence information. The access means is controlled to acquire. Then, the address information transmitting means provided in the domain name server transmits address information indicating the address acquired by the access means to the application server under the control of the address acquisition control means. Address information receiving means provided in the application server receives the address information transmitted by the address information transmitting means. The signal transmitting means provided in the application server transmits the signal to the address indicated by the address information received by the address information receiving means as a destination.
[0006]
By taking such measures, a signal destined for a certain terminal is transmitted to an application having a server address associated with the terminal domain name assigned to the destination terminal in the domain name correspondence information. The data is transferred to the server and transmitted from the application server to the terminal. Therefore, it is possible to determine an application server that processes a signal having the terminal as a transmission destination for each terminal, and the processing can be distributed to a plurality of application servers.
[0007]
Still another aspect of the present invention provides a first domain name server, a second domain name server capable of communicating with the first domain name server, a first terminal serving as a client, the first domain name server, In a communication system including an application server capable of communicating with each of the other application servers, the first access means provided in the first domain name server includes an address of an arbitrary application server and a client of the application server. Access the first storage means storing the first domain name correspondence information in which the first domain name correspondence information is associated with the domain name of the terminal. The second access means provided in the second domain name server stores second domain name correspondence information in which an address of an arbitrary application server is associated with a domain name of a terminal which is a client of the application server. The second storage means is accessed. Signal receiving means provided in the application server receives a signal transmitted from the first terminal. Then, the domain name replacing means provided in the application server replaces the address information of the second terminal indicated as the transmission destination of the signal in the signal with the domain name of the second terminal. Then, first domain name information transmitting means provided in the application server transmits domain name information indicating the domain name to the first domain name server. First domain name information receiving means provided in the first domain name server receives the domain name information transmitted by the first domain name information transmitting means. Then, the first address acquisition control means provided in the first domain name server, the first address acquisition control means responds to the domain name indicated in the domain name information received by the first domain name information receiving means, The first access unit is controlled so as to acquire an address associated with the domain name association information. The second domain name information transmitting means provided in the first domain name server is configured to associate an address associated with the domain name indicated in the domain name information by the first domain name correspondence information. When the first access means has not been able to acquire, the domain name information is transmitted to the second domain name server. Second domain name information receiving means provided in the second domain name server receives the domain name information transmitted by the second domain name information transmitting means. Then, the second address acquisition control means provided in the second domain name server is configured to execute the second address acquisition control means on the domain name indicated by the domain name information received by the second domain name information receiving means. The second access means is controlled so as to acquire an address associated with the domain name correspondence information. The first address information transmitting means provided in the second domain name server transmits the address information indicating the address acquired by the second access means under the control of the second address acquisition control means. Send to the first domain name server. Address information receiving means provided in the first domain name server receives the address information transmitted by the first address information transmitting means. The address information transmitting means provided in the first domain name server is configured to assign an address associated with the domain name indicated in the domain name information in the first domain name correspondence information to the first access. If the means can be obtained, the address information indicating the address obtained by the first access means is transmitted to the application server, and the first domain name is compared with the domain name indicated in the domain name information. If the first access means cannot acquire the address associated with the correspondence information, the address information received by the address information receiving means is transmitted to the application server. Address information receiving means provided in the application server receives the address information transmitted by the address information transmitting means. Then, the signal transmitting means provided in the application server transmits the signal to the address indicated by the address information received by the address information receiving means as a destination.
[0008]
By taking such measures, a signal destined for a certain terminal is transmitted to an application having a server address associated with the terminal domain name assigned to the destination terminal in the domain name correspondence information. The data is transferred to the server and transmitted from the application server to the terminal. Therefore, it is possible to determine an application server that processes a signal having the terminal as a transmission destination for each terminal, and the processing can be distributed to a plurality of application servers. Further, the process of determining the server address of the application server that is in charge of transmitting the signal to the destination terminal is distributed to the first domain name server and the second domain name server.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0010]
(1st Embodiment)
FIG. 1 is a system configuration diagram of the communication system according to the first embodiment.
As shown in FIG. 1, the communication system according to the first embodiment includes a domain name server 1, a plurality of application servers 2, and a plurality of terminals 3. The domain name server 1, the plurality of application servers 2, and the plurality of terminals 3 are communicably connected to each other via a network 4 conforming to an IP (Internet Protocol).
[0011]
For the sake of convenience of description, when it is necessary to distinguish each of the plurality of application servers 2, the application servers 2-1, 2-2,. , 3-n are denoted as terminals 3-1, 3-2,..., 3-n, respectively. Here, “m” and “n” are arbitrary natural numbers.
[0012]
FIG. 2 is a block diagram of the domain name server 1.
As shown in FIG. 2, the domain name server 1 includes a domain name correspondence information storage unit 11, an access unit 12, a terminal domain name information reception unit 13, an address acquisition control unit 14, and a server address information transmission unit 15.
[0013]
The domain name server 1 can use, for example, an existing server device as basic hardware. As the domain name correspondence information storage unit 11, a storage device such as a hard disk built in the server device can be used. In addition, the access unit 12, the terminal domain name information receiving unit 13, the address acquisition control unit 14, and the server address information transmitting unit 15 allow a computer provided in the server device to execute a program describing processing as each unit. Can be realized. The above program may be stored in a storage medium in the server device in advance, or may be stored in a storage medium such as a CD-ROM and distributed, or may be a program distributed through a network. It may be installed in the server device.
[0014]
The domain name correspondence information storage unit 11 stores a domain name corresponding to a server address assigned to one of the plurality of application servers 2 included in one domain and a terminal domain name assigned to each of the terminals 3. Stores information.
[0015]
The access unit 12 accesses the domain name correspondence information storage unit 11 under the control of the address acquisition control unit 14, and reads the server address corresponding to the specified domain name from the domain name correspondence information storage unit 11.
[0016]
The terminal domain name information receiving unit 13 receives the terminal domain name information transmitted from the application server 2 and outputs the received terminal domain name information to the address acquisition control unit 14.
[0017]
The address acquisition control unit 14 controls the access unit 12 to acquire server address information corresponding to the terminal domain name information output by the terminal domain name information receiving unit 13 from the domain name correspondence information, and performs access under this control. The server address information read by the unit 12 is obtained. The address acquisition control unit 14 outputs the acquired server address information to the server address information transmitting unit 15.
[0018]
The server address information transmitting unit 15 transmits the server address information output by the address acquisition control unit 14 to the application server 2.
[0019]
FIG. 3 is a block diagram of the application server 2.
As shown in FIG. 3, the application server 2 includes an inter-terminal transmission signal receiving unit 21, a domain name replacing unit 22, a terminal domain name information transmitting unit 23, a server address information receiving unit 24, and an inter-terminal transmission signal transmitting unit 25.
[0020]
The application server 2 can use an existing server device such as a well-known SIP server as basic hardware. The terminal-to-terminal transmission signal receiving unit 21, the domain name replacing unit 22, the terminal domain name information transmitting unit 23, the server address information receiving unit 24, and the terminal-to-terminal transmission signal transmitting unit 25 are connected to a computer provided in the server device. This can be realized by executing a program that describes the processing of each unit. The above program may be stored in a storage medium in the server device in advance, or may be stored in a storage medium such as a CD-ROM and distributed, or may be a program distributed through a network. It may be installed in the server device.
[0021]
The inter-terminal transmission signal receiving unit 21 receives an inter-terminal transmission signal transmitted from the first terminal 3 to the second terminal 3. The inter-terminal transmission signal receiving section 21 outputs the received inter-terminal transmission signal to the domain name replacing section 22. In this inter-terminal transmission signal, the terminal address assigned to the second terminal 3 is indicated as the destination address. The inter-terminal transmission signal includes, for example, a communication start signal for starting communication. The communication start signal includes a SIP message including an INVITE method defined in SIP. Further, the terminal address of the second terminal 3 is included in the To header or the like in the SIP message.
[0022]
The domain name replacing unit 22 outputs the inter-terminal transmission signal to the inter-terminal transmission signal transmitting unit 25. The domain name replacement unit 22 replaces a terminal address included in the inter-terminal transmission signal received by the inter-terminal transmission signal receiving unit 21 with a terminal domain name. The domain name replacing unit 22 outputs terminal domain name information indicating the terminal domain name obtained by the replacement to the terminal domain name information transmitting unit 23. For example, when the terminal address information indicates “taka@zzzz.xxx.com”, the domain name replacing unit 22 outputs the terminal domain name information indicating the domain name “taka.zzz.xxx.com”.
[0023]
The domain name replacement unit 22 checks whether or not the terminal address information needs to be replaced. When it is determined that the replacement is unnecessary, the replacement and the output of the terminal domain name information are not performed. Is also good. For example, when the terminal address information is an IP address, it is determined that the replacement is unnecessary, and the replacement and the output of the terminal domain name information are not performed.
[0024]
The terminal domain name information transmitting unit 23 transmits the terminal domain name information output by the domain name replacing unit 22 to the domain name server 1. Note that the terminal domain name information transmitting unit 23 may transmit the DNS message by including the terminal domain name information in the format of the DNS message specified in RFC1035.
[0025]
The server address information receiving unit 24 receives the server address information transmitted from the domain name server 1 and outputs the received server address information to the terminal-to-terminal transmission signal transmitting unit 25.
[0026]
The terminal-to-terminal transmission signal transmitting unit 25 transmits the terminal-to-terminal transmission signal output by the domain name replacing unit 22 to another application server 2. If the server address information is output from the server address information receiving unit 24, the terminal-to-terminal transmission signal transmitting unit 25 sends the application server 2 to which the server address indicated by the server address information is assigned to the transmission destination of the terminal-to-terminal transmission signal. And The inter-terminal transmission signal transmission unit 25 transmits the application server 2 or the terminal 3 determined based on the terminal address included in the inter-terminal transmission signal to the inter-terminal transmission when the domain name substitution unit 22 determines that the substitution is unnecessary. The destination of the signal.
[0027]
Note that the signal need not be the same as the signal when the inter-terminal transmission signal receiving unit 21 receives the signal.
[0028]
Next, the operation of the communication system according to the first embodiment configured as described above will be described.
[0029]
FIG. 4 is a diagram illustrating an example of a domain setting situation.
Here, as shown in FIG. 4, four application servers 2-1 to 2-4 and four terminals 3-1 to 3-4 are included, and these application servers 2-1 to 2-4 and terminal 3- It is assumed that the domain name server 1 and the domain name server 1 belong to the same domain D1. The domain name of the domain D1 is “xxx.com”.
[0030]
The domain D1 includes a domain D11 and a domain D12. The domain D11 includes the application servers 2-1 and 2-2 and the terminals 3-1 and 3-2. The domain D12 includes the application servers 2-3 and 2-4 and the terminals 3-3 and 3-4. Is included. The domain name of the domain D11 is “yyy.xxx.com”, and the domain name of the domain D12 is “zzz.xxx.com”. Further, the host name of the application server 2-1 is “apl1”, the host name of the application server 2-2 is “apl2”, the host name of the application server 2-3 is “apl3”, and the host name of the application server 2-4 is The host name is "apl4". Further, the address information of the terminal 3-1 is “one@yyy.xxx.com”, the address information of the terminal 3-2 is “two@yyy.xxx.com”, and the address information of the terminal 3-3 is “taro @ zzz.xxx.com "and the address information of the terminal 3-4 as" taka@zzzz.xxx.com ". The terminal 3-1 is a client of the application server 2-1, the terminal 3-2 is a client of the application server 2-2, the terminal 3-3 is a client of the application server 2-3, and the terminal 3-4 is an application. The client of the server 2-4.
[0031]
The domain name correspondence information storage unit 11 of the domain name server 1 stores domain name correspondence information describing the terminal domain name of the terminal 3 serving as a client of each application server 2 in association with each server address of the application server 2. Remember it.
[0032]
FIG. 5 is a diagram schematically showing the domain name correspondence information in this example.
As shown in FIG. 5, for example, the terminal address of the terminal 3-4 which is a client of the application server 2-4 is associated with "apl4.zzz.xxx.com" which is the domain name of the application server 2-4. A certain “taka.zzz.xxx.com” is described. The information described as the terminal domain name information and the server address information is not limited to the domain name, but may be an IP address or the like. It should be noted that the domain name correspondence information may be information using an SRV record that constitutes a resource record defined in RFC for DNS (Domain Name System).
[0033]
Subsequently, the operation of each unit will be described by taking as an example a case where the terminal 3-1 starts communication with the terminal 3-4.
FIG. 6 is a flowchart showing the processing of each of the domain name server 1 and the application servers 2-1 and 2-4 in this example.
[0034]
First, in the domain name server 1, the domain name correspondence information is stored in the domain name correspondence information storage unit 11 (step ST2-1).
Now, the terminal 3-1 transmits a communication start signal for starting communication to the application server 2-1. In this communication start signal, “taka@zzzz.xxx.com” which is the terminal address of the terminal 3-4 is indicated as the destination address. Then, in the application server 2-1, the inter-terminal transmission signal receiving unit 21 receives the above communication start signal (step ST1-1). Subsequently, in the application server 2-1, the domain name replacing unit 22 converts the terminal address “taka@zzzz.xxx.com” indicated in the communication start signal into a terminal domain “taka.zzz.xxx.com”. Replace (step ST1-2). Then, in the application server 2-1, the terminal domain name information transmitting unit 23 generates domain name information indicating the terminal domain “taka.zzz.xxx.com” that has been replaced, and converts the domain name information to the domain name. The data is transmitted to the server 1 (step ST1-3).
[0035]
The domain name information transmitted from the application server 2-1 is received by the terminal domain name information receiving unit 13 in the domain name server 1 (step ST2-2). Then, in the domain name server 1, the address acquisition control unit 14 controls the access unit 12, and “apl4” corresponding to “taka.zzz.xxx.com” from the domain name correspondence information stored in the domain name correspondence information storage unit 11. ..Zzzz.xxx.com "is obtained (step ST2-3). Then, in the domain name server 1, the server address information transmitting unit 15 generates server address information representing the obtained server address, and transmits the server address information to the application server 2-1 (step ST2-4). ).
[0036]
The server address information transmitted from the domain name server 1 is received by the server address information receiving unit 24 in the application server 2-1 (step ST1-4). Then, in the application server 2-1, the server address information indicates the communication start signal received by the terminal transmission signal receiving unit 21 and given through the domain name substitution unit 22 by the terminal transmission signal transmitting unit 25. The message is transmitted to the server address “apl4.zzz.xxx.com”. Since the server address “apl4.zzz.xxx.com” is assigned to the application server 2-4, the communication start signal is transmitted from the application server 2-1 to the application server 2-4. .
[0037]
The communication start signal transmitted from the application server 2-1 is received by the terminal-to-terminal transmission signal receiving unit 21 in the application server 2-4 (step ST3-1). The terminal address “taka@zzzz.xxx.com” indicated in the communication start signal is assigned to the terminal 3-4 which is a client of the application server 2-4. Therefore, the domain name replacement unit 22 in the application server 2-4 does not perform the replacement with the domain name. Then, the domain name replacing unit 22 outputs the communication start signal to the terminal-to-terminal transmission signal transmitting unit 25 and notifies the terminal-to-terminal transmission signal transmitting unit 25 that the replacement is unnecessary. Then, in the application server 2-4, the terminal-to-terminal transmission signal transmitting unit 25 transmits the terminal-to-terminal transmission signal to the terminal 3-4 to which the terminal address “taka@zzzz.xxx.com” indicated therein is assigned ( Step ST3-2). As a result, the communication start signal transmitted from the terminal 3-1 is transmitted to the terminal 3-4.
[0038]
Thereafter, by transmitting and receiving various inter-terminal transmission signals between the terminal 3-1 and the terminal 3-4 in a similar procedure, communication between the terminal 3-1 and the terminal 3-4 is realized.
[0039]
By the way, when the terminal 3-2 and the terminal 3-3 communicate, the procedure for transmitting the inter-terminal transmission signal is the same as described above, but the transmission of the inter-terminal transmission signal is performed by the application server 2-2. , 2-3. That is, the case where the terminal 3-1 communicates with the terminal 3-4 and the case where the terminal 3-2 communicates with the terminal 3-3 are communication between the domain D11 and the domain D12. However, the application server 2 to be used is sorted according to the terminal 3 that performs communication.
[0040]
Therefore, according to the first embodiment, the processing load can be distributed to the plurality of application servers 2 included in one domain, so that signals can be efficiently processed.
[0041]
(Second embodiment)
FIG. 7 is a system configuration diagram of a communication system according to the second embodiment. The same parts as those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof will be omitted.
As shown in FIG. 7, the communication system according to the second embodiment includes a domain name server 1, a plurality of application servers 2, a plurality of terminals 3, and a plurality of domain name servers 5. The domain name server 1, the plurality of application servers 2, the plurality of terminals 3, and the plurality of domain name servers 5 are communicably connected to each other via a network 4 conforming to an IP (Internet Protocol).
[0042]
For convenience of description, when it is necessary to distinguish each of the plurality of domain name servers 5, they are described as domain name servers 5-1 to 5-p. Here, “p” is an arbitrary natural number.
[0043]
FIG. 8 is a block diagram of the domain name server 5.
As shown in FIG. 8, the domain name server 5 includes a domain name correspondence information storage unit 51, an access unit 52, a terminal domain name information reception unit 53, an address acquisition control unit 54, a terminal domain name information transmission unit 55, and server address information reception. Unit 56 and a server address information transmitting unit 57.
[0044]
The domain name server 5 can use, for example, an existing server device as basic hardware. As the domain name correspondence information storage unit 51, a storage device such as a hard disk built in the server device can be used. The access unit 52, the terminal domain name information receiving unit 53, the address acquisition control unit 54, the terminal domain name information transmitting unit 55, the server address information receiving unit 56, and the server address information transmitting unit 57 are provided in the above server device. This can be realized by causing a computer to execute a program describing processing as each of the above-described units. The above program may be stored in a storage medium in the server device in advance, or may be stored in a storage medium such as a CD-ROM and distributed, or may be a program distributed through a network. It may be installed in the server device.
[0045]
The domain name correspondence information storage unit 51 stores a domain name corresponding to a server address assigned to one of the plurality of application servers 2 included in one domain and a terminal domain name assigned to each of the terminals 3. Stores information.
[0046]
The access unit 52 accesses the domain name correspondence information storage unit 51 under the control of the address acquisition control unit 54, and reads the server address corresponding to the specified domain name from the domain name correspondence information storage unit 51.
[0047]
The terminal domain name information receiving unit 53 receives the terminal domain name information transmitted from the application server 2 and outputs the received terminal domain name information to the address acquisition control unit 54.
[0048]
The address acquisition control unit 54 controls the access unit 52 to acquire server address information corresponding to the terminal domain name information output by the terminal domain name information receiving unit 53 from the domain name correspondence information, and performs access under this control. The server address information read by the unit 52 is obtained. The address acquisition control unit 54 outputs the acquired server address information to the server address information transmitting unit 57. When the server address information cannot be acquired, the address acquisition control unit 54 outputs the terminal domain name information to the terminal domain name information transmitting unit 55.
[0049]
The terminal domain name information transmitting unit 55 transmits the terminal domain name information output by the address acquisition control unit 54 to a domain name server having an adjacent relationship. In the second embodiment, each domain name server 5 has an adjacent relationship with the domain name server 1. Accordingly, the terminal domain name information transmitting unit 55 transmits the terminal domain name information to the domain name server 1.
[0050]
The server address information receiving unit 56 receives server address information transmitted from the domain name server 1 based on the terminal domain name information transmitted by the terminal domain name information transmitting unit 55. Server address information receiving section 56 outputs the received server address information to server address information transmitting section 57.
[0051]
The server address information transmission unit 57 transmits the server address information output by the address acquisition control unit 54 or the server address information reception unit 56 to the application server 2.
[0052]
Next, the operation of the communication system according to the second embodiment configured as described above will be described.
[0053]
FIG. 9 is a diagram illustrating an example of a domain setting situation.
Here, as shown in FIG. 9, four application servers 2-1 to 2-4, four terminals 3-1 to 3-4, and two domain name servers 5-1 and 5-2 are included. It is assumed that the application servers 2-1 to 2-4, the terminals 3-1 to 3-4, and the domain name servers 5-1 and 5-2 and the domain name server 1 belong to the same domain D1. The domain name of the domain D1 is “xxx.com”.
[0054]
The domain D1 includes a domain D11 and a domain D12. The domain D11 includes application servers 2-1 and 2-2, terminals 3-1 and 3-2, and a domain name server 5-1. The domain D12 includes application servers 2-3 and 2-4 and terminals 3-3 and 3-4 and a domain name server 5-2 are included. The domain name of the domain D11 is “yyy.xxx.com”, and the domain name of the domain D12 is “zzz.xxx.com”. Further, the host name of the application server 2-1 is “apl1”, the host name of the application server 2-2 is “apl2”, the host name of the application server 2-3 is “apl3”, and the host name of the application server 2-4 is The host name is "apl4". Further, the address information of the terminal 3-1 is “one@yyy.xxx.com”, the address information of the terminal 3-2 is “two@yyy.xxx.com”, and the address information of the terminal 3-3 is “taro @ zzz.xxx.com "and the address information of the terminal 3-4 as" taka@zzzz.xxx.com ". The terminal 3-1 is a client of the application server 2-1, the terminal 3-2 is a client of the application server 2-2, the terminal 3-3 is a client of the application server 2-3, and the terminal 3-4 is an application. The client of the server 2-4.
[0055]
The domain name correspondence information storage unit 51 of the domain name server 5 describes the terminal domain name of the terminal 3 serving as a client of each application server 2 in association with each server address of the application server 2 belonging to the same domain. The domain name correspondence information is stored.
[0056]
FIG. 10 is a diagram schematically showing the domain name correspondence information in this example. FIG. 10 shows the domain name correspondence information stored in the domain name correspondence information storage unit 51 of the domain name server 5-1.
Since the domain name server 5-1 belongs to the domain D11, "apl1.yyy.xxx.com" and "apl2.yyy.xxx.com" which are the domain names of the application servers 2-1 and 2-2 belonging to the same domain D11. "One.yyy.xxx.com" and "two.yyy.xxx.com", which are the terminal addresses of the terminals 3-1 and 3-2 serving as the clients, respectively.
[0057]
Subsequently, the operation will be described by taking as an example a case where the terminal 3-1 starts communication with the terminal 3-4. At this time, the operation is the same as that of the first embodiment except that the domain name server 5-1 is interposed between the application server 2-1 and the domain name server 1. This will be mainly described.
[0058]
FIG. 11 is a flowchart showing the processing of each of the domain name server 1, the application server 2-1, and the domain name server 5-1 in this example.
The application server 2-1 operates according to the same procedure as in the first embodiment. However, the transmission destination of the terminal domain name information in step ST1-3 and the transmission source of the server address information received in step ST1-4 are the domain name server 5-1. The domain name server 1 operates in the same procedure as in the first embodiment. However, the source of the terminal domain name information received in step ST2-2 and the destination of the server address information transmitted in step ST2-4 are the domain name server 5-1.
[0059]
In the domain name server 5-1, the domain name correspondence information is stored in the domain name correspondence information storage unit 51 (step ST4-1).
When the domain name information transmitted from the application server 2-1 arrives, the terminal domain name information receiving unit 53 of the domain name server 5 receives the above-described domain name information (step ST4-2). Then, in the domain name server 5-1, the address acquisition control unit 54 controls the access unit 52 to correspond to “taka.zzz.xxx.com” from the domain name correspondence information stored in the domain name correspondence information storage unit 51. Attempt to get server address. Then, the address acquisition control unit 54 confirms whether or not the corresponding server address has been acquired (step ST4-3).
[0060]
Since the domain name “taka.zzz.xxx.com” belongs to a different domain, it is not shown in the domain name correspondence information stored in the domain name correspondence information storage unit 51. Therefore, the address acquisition control unit 54 cannot acquire the corresponding server address. Therefore, in this case, the address acquisition control unit 54 outputs the domain name information to the terminal domain name information transmitting unit 55. Terminal domain name information transmitting section 55 transmits the domain name information output by address acquisition control section 54 to domain name server 1 (step ST4-4).
[0061]
The server address information transmitted from the domain name server 1 based on the domain name information transmitted in this way is received by the server address information receiving unit 56 in the domain name server 5-1 (step ST4-5). Server address information receiving section 56 outputs the received server address information to server address information transmitting section 57. Then, server address information transmitting section 57 transmits the server address information output from server address information receiving section 56 to application server 2-1 as it is (step ST4-6).
[0062]
By the way, assuming that the transmission destination of the communication start signal is the terminal 3-2, the terminal domain name “two.yyy.xxx.com” of the terminal 3-2 belongs to the same domain D11 as the domain name server 5-1. , Are included in the domain name correspondence information stored in the domain name correspondence information storage unit 51 of the domain name server 5-1. Therefore, the address acquisition control unit 54 of the domain name server 5-1 can acquire the corresponding server address. In this case, the address acquisition control unit 54 outputs the acquired server address to the server address information transmission unit 57. When the server address is output by the address acquisition control unit 54, the server address information transmitting unit 57 of the domain name server 5-1 generates server address information representing the server address, and transmits the server address information to the application. The data is transmitted to the server 2-1 (step ST4-6).
[0063]
As described above, according to the second embodiment, the domain name server 1 is used only when the server address cannot be obtained by the domain name server 5. Therefore, the processing load can be distributed to the domain name server 1 and the domain name server 5, so that signals can be efficiently processed.
[0064]
Further, since the domain name correspondence information is stored and managed by the plurality of domain name servers, system design and system management in a communication system having a plurality of domains can be facilitated.
[0065]
Note that the present invention is not limited to the above embodiments. For example, the domain name correspondence information storage units 11 and 51 need not be built in the domain name servers 1 and 5. For example, the domain name correspondence information storage units 11 and 51 may be provided in a storage device provided in a file server communicable via a network or a hard disk drive external to the domain name server 1.
In addition, various modifications can be made without departing from the spirit of the present invention.
[0066]
【The invention's effect】
According to the present invention, the process of transmitting a signal to a terminal can be distributed to a plurality of application servers, so that the processing load on the application server can be distributed and the processing can be performed efficiently.
[0067]
According to another aspect of the present invention, the process of determining an application server that should perform a process of transmitting a signal to a terminal can be distributed to a plurality of domain name servers. Processing can be performed efficiently.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of a communication system according to a first embodiment of the present invention.
FIG. 2 is a block diagram of a domain name server 1 in FIG. 1;
FIG. 3 is a block diagram of an application server 2 in FIG. 1;
FIG. 4 is a view showing an example of a domain setting status according to the first embodiment;
FIG. 5 is a diagram schematically illustrating an example of domain name correspondence information according to the first embodiment.
FIG. 6 is a flowchart showing the processing of each of a domain name server 1 and application servers 2-1 and 2-4 in the first embodiment.
FIG. 7 is a system configuration diagram of a communication system according to a second embodiment of the present invention.
FIG. 8 is a block diagram of the domain name server 5 in FIG. 7;
FIG. 9 is a diagram illustrating an example of a domain setting status according to the second embodiment;
FIG. 10 is a diagram schematically illustrating an example of domain name correspondence information according to the second embodiment.
FIG. 11 is a flowchart showing processing of each of a domain name server 1, an application server 2-1 and a domain name server 5-1 according to the second embodiment.
[Explanation of symbols]
1, 5 (5-1 to 5-p) ... domain name server, 2 (2-1 to 2-m) ... application server, 3 (3-1 to 3-n) ... terminal, 4 ... network, 11, 51: Domain name correspondence information storage unit, 12, 52: Access unit, 13, 53: Terminal domain name information reception unit, 14, 54: Address acquisition control unit, 15, 57: Server address information transmission unit, 21: Between terminals Transmission signal receiving unit, 22: Domain name replacement unit, 23: Terminal domain name information transmitting unit, 24: Server address information receiving unit, 25: Inter-terminal transmission signal transmitting unit, 55: Terminal domain name information transmitting unit, 56: Server Address information receiving unit.

Claims (8)

In a domain name server that can communicate with a predetermined server,
An access unit that accesses a storage unit that stores domain name correspondence information that associates an address of an application server different from the predetermined server with a domain name of a terminal that is a client of the application server;
Domain name information receiving means for receiving domain name information transmitted from the predetermined server,
Address acquisition control means for controlling the access means to acquire an address associated with the domain name corresponding information for the domain name indicated in the domain name information,
A domain name server comprising: address information transmitting means for transmitting, to the predetermined server, address information indicating the address obtained by the access means under the control of the address obtaining control means. When the access unit cannot acquire an address associated with the domain name indicated in the domain name information in the domain name correspondence information, a predetermined domain name server different from the predetermined server is used. Domain name information transmitting means for transmitting the domain name information,
Address information receiving means for receiving address information transmitted from the predetermined domain name server based on the transmitted domain name information,
And the address acquisition control means, if the access means cannot acquire an address associated with the domain name indicated by the domain name information in the domain name correspondence information, the address information reception means The domain name server according to claim 1, wherein the received address information is transmitted to the predetermined server. The domain name server according to claim 1 or 2, wherein the storage unit is incorporated. An access unit capable of communicating with a predetermined server and accessing a storage unit storing domain name correspondence information in which an address of an application server different from the predetermined server is associated with a domain name of a terminal serving as a client of the application server; Computer with
Domain name information receiving means for receiving domain name information transmitted from the predetermined server,
Address acquisition control means for controlling the access means to acquire an address associated with the domain name corresponding information for the domain name indicated in the domain name information,
A program for functioning as address information transmitting means for transmitting address information indicating an address acquired by the access means to the predetermined server under the control of the address acquisition control means. Said computer,
When the access unit cannot acquire an address associated with the domain name indicated in the domain name information in the domain name correspondence information, a predetermined domain name server different from the predetermined server is used. Domain name information transmitting means for transmitting the domain name information,
While further functioning as address information receiving means for receiving address information transmitted from the predetermined domain name server based on the transmitted domain name information,
And the address acquisition control means, if the access means cannot acquire an address associated with the domain name indicated in the domain name information in the domain name correspondence information, the address information reception means The program according to claim 4, wherein the received address information is transmitted to the predetermined server. In an application server capable of communicating with each of a first terminal, a domain name server, and another application server that are clients,
Signal receiving means for receiving a signal transmitted from the first terminal;
Domain name replacing means for replacing address information of a second terminal indicated as a transmission destination of the signal in the signal with a domain name of the second terminal;
Domain name information transmitting means for transmitting domain name information indicating the domain name to the domain name server,
Address information receiving means for receiving address information transmitted from the domain name server based on the transmitted domain name information,
An application server, comprising: signal transmission means for transmitting the signal to an address indicated by the address information as a destination. In a communication system including a domain name server and a first terminal serving as a client, an application server capable of communicating with each of the domain name server and another application server,
An access unit provided in the domain name server to access a storage unit storing domain name correspondence information in which an address of the another application server is associated with a domain name of a terminal that is a client of the application server;
A signal receiving unit provided in the application server and receiving a signal transmitted from the first terminal;
A domain name replacement unit provided in the application server, for replacing address information of a second terminal indicated as a transmission destination of the signal in the signal with a domain name of the second terminal;
Domain name information transmission means provided in the application server, for transmitting domain name information indicating the domain name to the domain name server,
A domain name information receiving unit provided in the domain name server and receiving the domain name information transmitted by the domain name information transmitting unit;
The access unit is provided in the domain name server, and the access unit is configured to acquire an address associated with the domain name indicated by the domain name information in the domain name information received by the domain name information receiving unit. Address acquisition control means for controlling;
Address information transmission means provided in the domain name server and transmitting to the application server address information indicating the address acquired by the access means under the control of the address acquisition control means,
Address information receiving means provided in the application server for receiving the address information transmitted by the address information transmitting means;
A communication system, comprising: a signal transmission unit provided in the application server and transmitting the signal to a destination indicated by the address information received by the address information reception unit. A first domain name server, a second domain name server capable of communicating with the first domain name server, a first terminal serving as a client, each of the first domain name server and another application server In a communication system including a communicable application server,
The first storage means provided in the first domain name server and storing first domain name correspondence information in which an address of an arbitrary application server is associated with a domain name of a terminal which is a client of the application server. First access means for accessing;
A second storage unit provided in the second domain name server and storing second domain name correspondence information in which an address of an arbitrary application server is associated with a domain name of a terminal serving as a client of the application server; Second access means for accessing;
A signal receiving unit provided in the application server and receiving a signal transmitted from the first terminal;
A domain name replacement unit provided in the application server, for replacing address information of a second terminal indicated as a transmission destination of the signal in the signal with a domain name of the second terminal;
First domain name information transmitting means provided in the application server and transmitting domain name information indicating the domain name to the first domain name server;
First domain name information receiving means provided in the first domain name server and receiving the domain name information transmitted by the first domain name information transmitting means;
The first domain name server is provided, and is associated with the domain name indicated by the domain name information received by the first domain name information receiving means in the first domain name correspondence information. First address acquisition control means for controlling the first access means to acquire an address;
The first access unit is provided in the first domain name server, and the first access unit cannot acquire an address associated with the domain name indicated in the domain name information in the first domain name correspondence information. In this case, a second domain name information transmitting means for transmitting the domain name information to the second domain name server;
Second domain name information receiving means provided in the second domain name server and receiving the domain name information transmitted by the second domain name information transmitting means;
The second domain name server is provided in the second domain name server and associated with the domain name indicated in the domain name information received by the second domain name information receiving means in the second domain name correspondence information. Second address acquisition control means for controlling the second access means to acquire an address;
Address information provided in the second domain name server and indicating the address acquired by the second access means under the control of the second address acquisition control means is transmitted to the first domain name server. First address information transmitting means for performing
Address information receiving means provided in the first domain name server and receiving the address information transmitted by the first address information transmitting means;
When the first access unit is provided in the first domain name server and can acquire an address associated with the domain name indicated in the domain name information in the first domain name correspondence information Sends address information indicating the address obtained by the first access means to the application server, and associates the domain name indicated by the domain name information with the first domain name correspondence information Address information transmitting means for transmitting the address information received by the address information receiving means to the application server when the first access means cannot obtain the given address;
Address information receiving means provided in the application server for receiving the address information transmitted by the address information transmitting means;
A communication system, comprising: a signal transmission unit provided in the application server and transmitting the signal to a destination indicated by the address information received by the address information reception unit.

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