JP2002077155A - Communication apparatus monitoring and controlling method and association refresh system device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication apparatus monitoring and controlling method and an association refresh system by which the inoperable period of monitoring or controlling the communication apparatus by an operation system can be reduced. SOLUTION: The operation system 1 establishes two connections: a soft route 21 by which communication is performed with the communication apparatus 2 by using TCP/IP, and a hard route 22 by which communication is performed without using TCP/IP. The operation system 1 recognizes the disconnection of the soft route 21 between the communication apparatus 2 and the operation system 1 by a message transmitted from the hard route 22.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication device monitoring control method and an association refresh system device used in an operation system for remotely monitoring and controlling a plurality of communication devices collectively.

[0002]

2. Description of the Related Art A communication device and an operation system for remotely monitoring the communication device collectively are connected by a data line. Operations such as monitoring of autonomous messages issued autonomously from the communication device, remote control of the communication device by the operation system, and updating of operation files of the communication device are performed using the data line.

When the connection between the communication device and the operation system is disconnected, the operation system can newly establish a connection with the communication device upon receiving the disconnection signal.

For example, when DDX-P or the like is used for communication between a communication device and an operation system, a connection is always established between the communication device and the operation system. In addition, DDX-P (digital data excha)
nge-P) is a method of directly accessing a terminal and a packet switch by directly connecting them with a digital dedicated line in a packet communication system.

[0005] Therefore, when a failure or the like occurs in the communication device, the connection is disconnected, and a disconnection signal indicating that the connection is disconnected is transmitted to the operation system. In this case, the operation system continues monitoring the communication device by reestablishing the connection by itself.

[0006]

However, when a communication device and an operation system are connected by TCP / IP, the communication destination is in real time in some cases such as a hardware failure of a communication source or a network failure due to TCP specifications. Connection disconnection cannot be confirmed. Therefore, even if the connection is physically disconnected due to a failure of the communication device or a network failure, the operation system cannot detect the abnormality of the connection. It becomes virtually impossible.

That is, when TCP / IP is used for communication between a communication device and an operation system, a connection that is always established between the communication device and the operation system is only a connection between the communication device and the operation system. Make sure that In other words, the data line side does not know the existence of the connection, and the connection at the TCP level is disconnected only by exchanging between terminals.

This is based on the specification of TCP. Therefore, when a failure of the communication device or a data line failure occurs, the communication device or the data line side cannot perform the disconnection processing of the TCP level, so even if the connection is logically disconnected due to the failure or the like, There is no means for notifying the operating system that the connection has been disconnected. Therefore, the operation system cannot monitor the communication device after a failure of the communication device or a data line failure occurs.

The main objects to be solved by the present invention are as follows. That is, a first object of the present invention is to provide a communication device monitoring and control method and an association refresh system device capable of reducing a period during which a communication device cannot be monitored or controlled by an operation system. It is.

A second object of the present invention is to provide a communication device or a data line even when TCP / IP is used for communication between a communication device and an operation system, as in the case of using DDX-P. It is an object of the present invention to provide a communication device monitoring and control method and an association refresh system device that enable the operation system to continue monitoring and controlling the communication device even after a failure or the like occurs.

A third object of the present invention is to allow an operating system to establish two connections to a communication device and recognize that the other connection has been disconnected by a message transmitted from one connection. And a communication device monitoring and control method and an association refresh system device which enable the above.

Other objects of the present invention will become apparent from the description of the specification, the drawings, and particularly the description of each claim in the claims.

[0013]

According to the method of the present invention, in order to solve the above-mentioned problems, an operation system establishes two connections, a soft route and a hard route, to a communication device, and transmits a message based on a message transmitted from the hard route. The feature of the present invention is to adopt a configuration technique that recognizes that the soft route between the communication device and the operation system has been disconnected.

The device of the present invention solves the above problems.
TCP between the operation system and communication equipment
Two connections, a first connection using / IP and a second connection not using TCP / IP, have been established, and the operation system is a message transmitted from the communication device, and
By the message transmitted from the connection, the first communication between the communication device and the operation system is performed.
It has the feature of taking a configuration means consisting of a mechanism for recognizing that the connection has been disconnected.

More specifically, in solving the problem, the present invention achieves the above object by adopting a novel characteristic configuration method or means ranging from a high-level concept to a low-level concept listed below. It is done as follows.

That is, a first feature of the method of the present invention is a communication device monitoring and control method in which a plurality of communication devices constituting a network communicate using a predetermined communication protocol and are managed by an operation system. Two connections including a first connection using the predetermined communication protocol and a second connection not using the predetermined communication protocol are established between the system and the communication device, and are transmitted from the communication device. Of a communication device monitoring control method for recognizing that the first connection between the communication device and the operation system has been disconnected by a message transmitted through the second connection. In hiring.

According to a second feature of the method of the present invention, the predetermined communication protocol in the first feature of the method of the present invention is as follows.
The present invention resides in adopting a configuration of a communication device monitoring and control method including TCP / IP.

According to a third feature of the method of the present invention, the first connection in the first or second feature of the method of the present invention is a message autonomously notified by the communication device using TCP / IP. The second connection is a logical connection that communicates the specific autonomous message and the specific control command of the communication device without using TCP / IP, which is a soft route that is a logical connection that communicates an autonomous message and a control command. The present invention resides in adopting a configuration of a communication device monitoring and control method including a hard route.

According to a fourth aspect of the method of the present invention, the message transmitted from the communication device in the third aspect of the method of the present invention is such that the soft route between the communication device and the operation system is disconnected. The present invention resides in adopting a configuration of a communication device monitoring and control method including a message transmitted via the hard route.

According to a fifth feature of the method of the present invention, the message transmitted from the communication device in the third feature of the method of the present invention is transmitted via the soft route which the communication device autonomously transmits to the operation system. Of the communication device monitoring and control method, which comprises a message indicating that the message has not been transmitted for a certain period or more.

According to a sixth aspect of the method of the present invention, the operation system according to the first, second, third, fourth or fifth aspect of the method of the present invention is characterized in that the operation system is provided between the communication device and the operation system. When the disconnection of the first connection is recognized, the first connection is reconnected and the configuration of a communication device monitoring and control method for continuously monitoring the communication device is adopted.

A seventh feature of the method of the present invention is a communication device monitoring control method for managing a plurality of communication devices constituting a network by communicating using TCP / IP. The communication device receives an autonomous message, which is a message autonomously notified,
Disconnection determination processing for determining from the content of the autonomous message that the connection with the communication device has been disconnected,
The autonomous message issued from the communication device is monitored, and a message judgment process of judging whether or not the autonomous message to be sent periodically is sent regularly, When it is determined that the autonomous message to be sent to the communication device is not sent periodically, a request for a health check is made to the communication device to determine whether the connection is normal or not. A reconnection process of forcibly disconnecting the connection to the communication device when it is determined that the connection is not normal by any of the disconnection determination process and the connection determination process, and , And the communication device monitoring and control method, which is implemented sequentially and consistently.

According to an eighth feature of the method of the present invention, the management of the communication device in the seventh feature of the method of the present invention is performed by an operation system, and the operation system includes a general-purpose computer. The present invention resides in adopting a configuration of a communication device monitoring control method.

A first feature of the present invention is that a plurality of communication devices constituting a network and a TC
An association refresh system apparatus comprising: an operation system that communicates and monitors and controls using P / IP, wherein a first connection using TCP / IP is provided between the operation system and the communication device. And a second connection that does not use TCP / IP, and the operation system uses a message transmitted from the communication device and a message transmitted from the second connection. The present invention resides in adopting a configuration of an association refresh system device having a function of recognizing that the first connection between the communication device and the operation system has been disconnected.

A second feature of the device of the present invention is that the first connection according to the first feature of the device of the present invention is such that
Using P / IP, the communication device is composed of a soft route that is a logical connection for communicating an autonomous message and a control command, which are messages autonomously notified by the communication device, and the second connection is formed without using TCP / IP. The present invention resides in adopting a configuration of an association refresh system device including a hard route which is a logical connection for communicating the specific autonomous message and the specific control command of the communication device.

A third feature of the device of the present invention is that the message transmitted from the communication device in the second feature of the device of the present invention is such that the soft route between the communication device and the operation system is disconnected. Indicating that the first message transmitted via the hard route and the message via the soft route which the communication device autonomously transmits to the operation system have not been transmitted for a predetermined period or more. The second message and the configuration of the association refresh system device comprising at least one of the second message and the second message.

A fourth feature of the device of the present invention is that the operation system according to the first, second, or third feature of the device of the present invention recognizes that a connection between the communication device and the operation system has been disconnected. If you do
An object of the present invention is to adopt an association refresh system having a function of disconnecting a connection to the communication device, reconnecting the connection, and continuing to monitor the communication device.

A fifth feature of the device of the present invention is that the operation system according to the first, second, third or fourth feature of the above-mentioned device of the present invention is such that the operation device monitors the alarm status of the communication device. And a connection management unit that manages a connection state between the communication device and the operation system, and a communication device communication unit that establishes and disconnects a connection between the communication device and the operation system, The first connection and the second connection are established between the communication device and the communication device communication unit, and the communication device monitoring unit transmits the message received by the communication device monitoring unit to the hard route. And the message indicating that the soft route has been disconnected. And when the predetermined message has not been notified from the communication device via the soft route for a predetermined time or more, it is determined that the soft route has been disconnected when any one or more of the above is reached. Configuration refresh of an association refresh system device comprising:

A sixth feature of the device of the present invention resides in that, in the fifth feature of the above-described device of the present invention, the connection management unit determines that the soft route has been disconnected by the communication device monitoring unit. When a health check request is made to the communication device communication unit and a timeout notification is received from the communication device communication unit, or when a notification indicating that the result of the health check is a content indicating a connection error is received, the communication is performed. The present invention resides in adopting a configuration of an association refresh system apparatus having a mechanism for requesting a connection refresh to a device communication unit.

A seventh feature of the device of the present invention resides in that, when the communication device communication unit according to the fifth or sixth feature of the device of the present invention receives a request for health check from the connection management unit, A mechanism for transmitting a health check request to a device, receiving a health check result that is a response to the health check request from the communication device, and transmitting the health check result to the connection management unit. Also, when a connection refresh request issued from the connection management unit is received, an association refresh having a mechanism for disconnecting the connection to the communication device and re-establishing a connection to the communication device is also provided. The configuration of the system unit is adopted.

[0031]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
An embodiment of the present invention will be described with reference to an example of a system device and an example of a method.

It should be noted that the present invention provides a soft route and a hard route between the operation system and the communication device.
One connection is established, and the operating system recognizes that the soft route has been disconnected by the message transmitted from the hard route, reconnects the connection, and allows the communication device to continue monitoring. However, in the present embodiment, the communication device monitoring unit, the connection management unit, and the communication device communication unit will be described as the components of the operation system, but the present invention is not limited thereto.

(Example of System Apparatus) FIG. 1 is a conceptual block diagram schematically showing an example of the present system apparatus. In the figure,
Reference numeral 1 denotes an operation system for monitoring and controlling a communication device, and reference numeral 2 denotes a communication device to be monitored and controlled by the operation system 1.

The operation system 1 includes a communication device 2
The communication device monitoring unit 11 monitors the alarm status of the communication device 2, the connection management unit 12 manages the connection state between the communication device 2 and the operation system 1, and establishes and disconnects the connection between the communication device 2 and the operation system 1. And a communication device communication unit 13 for executing the communication.

The communication device 2 and the communication device communication unit 13 of the operation system 1 are connected by a soft route 21 (first connection) as a logical connection and a hard route 22 (second connection) as a logical connection. I have. The soft route 21 communicates an autonomous message or a control command of the communication device 2 using TCP / IP. The hard route 22 communicates a specific autonomous message or a specific control command of the communication device 2 without using TCP / IP. The hard route 22 is also called a console route.

(Example of Method) An example of the method will be described with reference to FIGS. 2 to 6 and FIG. FIG. 2 is a flowchart showing the operation of the communication device monitoring unit 11 in the operation system 1.

The message autonomously notified by the communication device 2 shown in FIG. 1 (referred to as “autonomous message”) is transmitted to the communication device monitoring unit 11 via the soft route 21 or the hard route 22 and the communication device communication unit 13. Is done. By receiving the autonomous message, the communication device monitoring unit 11 monitors the device state of the communication device 2.

When the communication device monitoring unit 11 receives an autonomous message from the communication device 2 via the soft route 21 (S
T1), the timer registered when the previous autonomous message was received is released (ST2). Thereafter, a time at which a new autonomous message is expected to be received is newly registered in the timer (S
T3).

Further, the autonomous message received by the communication device monitoring unit 11 is an autonomous message sent via the hard route 22 and indicates a failure that substantially causes the soft route 21 to be disconnected. The communication device monitoring unit 11 determines whether the message is a message (ST
4). That is, the communication device monitoring unit 11 transmits the hard route 22
By receiving the autonomous message sent through the, it is determined that the soft route 21 has been disconnected.

If it is determined in ST 4 that a message indicating a failure which is an event that the soft route 21 is substantially disconnected has been received, the communication device monitoring unit 11 requests the connection management unit 12 to perform a health check. (ST
5). The health check request is a request for the communication device 2 to check the connection status between the communication device 2 and the operation system 1.

FIG. 3 is a block diagram of the communication device monitoring unit 11 shown in FIG.
6 is a flowchart showing an operation other than the operation of FIG. When the autonomous message is not notified from the communication device 2 to the communication device monitoring unit 11 via the soft route 21 even at the time registered in the new timer registration of ST3 in FIG. 2, that is, when a timeout notification is received Is (ST1
1), similarly to ST5 in FIG. 2, the communication device monitoring unit 11 requests a health check from the connection management unit 12 (ST12).

That is, when the communication device 2 autonomously transmits a message to the operation system 1 and the message transmitted via the soft route 21 has not been received by the communication device monitoring unit 11 for a certain period or more. The communication device monitoring unit 11 determines that the soft route 21 has been disconnected.

FIG. 4 is a flowchart showing the operation of the connection management unit 12 in the operation system 1. The connection management unit 12 that has received the health check request issued from the communication device monitoring unit 11 in ST5 in FIG. 2 or ST12 in FIG. 3 (ST21) transmits a health check request to the communication device communication unit 13. (ST
22). Then, the connection management unit 12 performs timer registration (ST23).

After that, the connection management unit 12
23, a time-out notification regarding timer registration or a result of a health check issued from the communication device communication unit 13 is received (ST24). When a timeout notification is received in ST24 (ST25), or when the result of the health check is a content indicating a connection error (ST26)
Means that the connection management unit 12 transmits a connection refresh request to the communication device communication unit 13 (ST
27).

FIG. 5 is a flowchart showing the operation of the communication device communication unit 13 in the operation system 1. The communication device communication unit 13 that has received the health check request issued from the connection management unit 12 in ST22 of FIG. 4 (ST31) transmits a health check request to the communication device 2 (ST32). This health check request is made via the soft route 21. Thereafter, the communication device communication unit 13 receives from the communication device 2 a result of the health check which is a response to the request for the health check.
(ST33). Thereafter, the communication device communication unit 13 transmits the result of the health check to the connection management unit 12 (S
T34). FIG. 6 is a flowchart illustrating an operation other than the operation of FIG. 5 in the communication device communication unit 13. S in FIG.
The communication device communication unit 1 that has received the connection refresh request issued from the connection management unit 12 at T27.
3 (ST41), disconnects the connection to the communication device 2 (ST42), and re-establishes the connection to the communication device 2 (ST43). Accordingly, the communication device communication unit 13 refreshes the connection of the soft route 21 between the communication device 2 and the operation system 1.

Thus, according to the present method example, in the operation system 1 for remotely monitoring and controlling a plurality of communication devices 2 collectively, the communication devices 2 and the operation system 1 are connected using TCP / IP. However, since the disconnection between the communication device 2 and the operation system 1 can be detected at an early stage, the period during which the operation system 1 cannot monitor and control the communication device 2 is minimized. It becomes possible.

As described above, the representative example of the system apparatus and the example of the method of the present invention have been described, but the present invention is not necessarily limited to the above items. Modifications can be made as appropriate within the scope of achieving the object of the present invention and achieving the following effects. For example, the operation system 1 can be configured using a general-purpose computer.

[0048]

As described above, according to the present invention,
Two connections, a first connection (soft route) and a second connection (hard route), are established between the operating system and the communication device, and the first connection is disconnected by a message transmitted via the second connection. Since the connection is recognized, even when TCP / IP is used as the first connection, it is possible to recognize in real time that the first connection has been disconnected, and the operation system monitors the communication device. -It is possible to minimize the period during which control cannot be performed.

[Brief description of the drawings]

FIG. 1 is a conceptual configuration block diagram of an example of a system device according to an embodiment of the present invention.

FIG. 2 is a flowchart showing an operation of the communication device monitoring unit 11 according to the first embodiment.

FIG. 3 is a flowchart showing another operation in the communication device monitoring unit 11;

FIG. 4 is a flowchart illustrating an operation of the connection management unit 12 according to the first embodiment.

FIG. 5 is a flowchart illustrating an operation of the communication device communication unit 13 according to the first embodiment.

FIG. 6 is a flowchart showing another operation in the communication device communication unit 13;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Operation system 2 ... Communication equipment 11 ... Communication equipment monitoring part 12 ... Connection management part 13 ... Communication equipment communication part 21 ... Soft route 22 ... Hard route

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Takeshi Sunashishi 3-19-2 Nishishinjuku, Shinjuku-ku, Tokyo East Japan Nippon Telegraph and Telephone Corporation (72) Inventor Mitsuru Kimura 4 Kamikadanaka, Nakahara-ku, Kawasaki City, Kanagawa Prefecture 1-1 1-1 Fujitsu Limited (72) Inventor Masayuki Katakura 4-1-1 1-1 Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa F-term within Fujitsu Limited 5K030 HB06 JA10 LA08 LB02 LB19 LD18 MA04 MB01 MB09 MC09

Claims (15)

[Claims] 1. A communication device monitoring and control method in which a plurality of communication devices constituting a network communicate with each other using a predetermined communication protocol and are managed by an operation system. Two connections, a first connection using the predetermined communication protocol and a second connection not using the predetermined communication protocol, have been established; and a message transmitted from the communication device, wherein the second connection Recognizing that the first connection between the communication device and the operation system has been disconnected by a message transmitted through the communication device. 2. The communication device monitoring and control method according to claim 1, wherein said predetermined communication protocol comprises TCP / IP. 3. The first connection comprises an autonomous message, which is a message autonomously notified by the communication device using TCP / IP, and a soft route, which is a logical connection for communicating a control command, and the second connection. The communication device monitoring device according to claim 1 or 2, comprising a hard route that is a logical connection for communicating the specific autonomous message and the specific control command of the communication device without using TCP / IP. Control method. 4. The message transmitted from the communication device indicates that the soft route between the communication device and the operation system has been disconnected, and is a message transmitted via the hard route. The communication device monitoring control method according to claim 3, wherein: 5. The message transmitted from the communication device is a message indicating that a message via the soft route which the communication device autonomously transmits to the operation system has not been transmitted for a certain period of time or more. The communication device monitoring and control method according to claim 3, wherein: 6. The operation system, when recognizing the disconnection of the first connection between the communication device and the operation system, reconnects the first connection and continues monitoring the communication device. The communication device monitoring and control method according to claim 1, 2, 3, 4, or 5. 7. A communication device monitoring and controlling method for communicating and managing a plurality of communication devices constituting a network by using TCP / IP, wherein said communication device autonomously notifies from a hard route of said communication device. Receiving an autonomous message that is a message to be sent, a disconnection determination process for determining that the connection with the communication device is disconnected from the content of the autonomous message, and monitoring the autonomous message issued from the communication device. A message judgment process for judging whether or not the autonomous message to be sent periodically is sent periodically; and the autonomous message to be sent periodically in the message judgment process is periodically If it is determined that the connection has not been sent, a request for a health check is made to the communication device, and whether the connection is normal If the connection is determined to be abnormal by one of the connection determination processing and the disconnection determination processing and the connection determination processing, the connection to the communication device is forcibly disconnected, and then reconnected. A communication device monitoring and control method, wherein the reconnection process is performed sequentially and sequentially. 8. The communication device monitoring control method according to claim 7, wherein the management of the communication device is performed by an operation system, and the operation system includes a general-purpose computer. 9. An association refresh system device comprising: a plurality of communication devices constituting a network; and an operation system for communicating and monitoring and controlling the communication devices using TCP / IP, wherein: A first connection using TCP / IP and a TCP / IP connection between the operation system and the communication device.
Two connections including a second connection that does not use IP are established, and the operation system uses a message transmitted from the communication device and a message transmitted from the second connection.
An association refresh system device having a function of recognizing that the first connection between the communication device and the operation system has been disconnected. 10. The first connection comprises an autonomous message, which is a message autonomously notified by the communication device, and a soft route, which is a logical connection for communicating a control command, using TCP / IP, The association refresh system according to claim 9, wherein the connection comprises a hard route that is a logical connection for communicating the specific autonomous message and the specific control command of the communication device without using TCP / IP. apparatus. 11. A message transmitted from the communication device, which indicates that the soft route between the communication device and the operation system has been disconnected, and is a first message transmitted via the hard route. And a second message indicating that the message via the soft route, which the communication device autonomously transmits to the operation system, has not been transmitted for a certain period of time, or more than one of the following. The association refresh system device according to claim 10, wherein 12. When the operation system recognizes that the connection between the communication device and the operation system has been disconnected, the operation system disconnects the connection to the communication device and reconnects the connection. The association refresh system device according to claim 9, wherein the association refresh system device has a function of continuing monitoring. 13. The communication system, comprising: a communication device monitoring unit that monitors an alarm status of the communication device; a connection management unit that manages a connection state between the communication device and the operation system; A communication device communication unit that establishes and disconnects a connection with a system, wherein the first connection and the second connection are established between the communication device and the communication device communication unit. And wherein the communication device monitoring unit is configured such that the message received by the communication device monitoring unit is a message transmitted via the hard route, and is a message indicating that the soft route is disconnected. And a predetermined message from the communication device via a soft route for a predetermined time or more. 12. The method according to claim 9, further comprising: judging that the soft route is disconnected when one of the message is not notified and when the message is one or more of the above. Or the association refresh system device according to 12. 14. The communication management unit, when the communication device monitoring unit determines that the soft route is disconnected, issues a health check request to the communication device communication unit. When a time-out notification is received from the communication unit or when a notification indicating that the result of the health check is a content indicating a connection error is received, a connection refresh request is issued to the communication device communication unit. An association refresh system according to claim 13, characterized in that: 15. The communication device communication unit, when receiving a health check request from the connection management unit, transmits a health check request to the communication device and responds to the health check request. The communication device receives the result of the health check from the communication device, and transmits the result of the health check to the connection management unit.If a request for a connection refresh issued from the connection management unit is received, 15. The association refresh system device according to claim 13, further comprising a mechanism for disconnecting a connection to the communication device and re-establishing a connection to the communication device.