JP2002247062A - Network repeater and network management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a terminal connected to a network from being separated from the network when the terminal transfers to a sleep state. SOLUTION: When a packet to request communication with a terminal 10n arrives at a network repeating part 40 of a network repeater 1 from a terminal 101, the network repeating part 40 outputs the packet to a terminal operation managing part 10. A control circuit 11 extracts address information from the packet and outputs it to a terminal operation information managing circuit 12. The terminal operation information managing circuit 12 retrieves an operating state of the terminal 10n from an operation information list based on the address information. When the terminal 10n is in the sleep state, the terminal operation information managing circuit 12 outputs information to indicate that the terminal 10n is in the sleep state and a network address of the terminal 101 to a state information data generating circuit 13 and instructs generation of the state information packet to the terminal 101.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network relay device for relaying data transmitted and received between terminals connected to a communication network such as a LAN, and each terminal is connected via the network relay device. The present invention relates to a network management system applied to a system.

[0002]

2. Description of the Related Art When a network such as a LAN is constructed, a communication network (hereinafter, referred to as a network) is used.
In some cases, a network relay device (hereinafter, referred to as a relay device) such as a hub (HUB) that relays information transmitted and received between terminals within the network is used.

[0003] The HUB has a plurality of communication ports for connecting a plurality of terminals. In addition, the HUB receives data (packet) via a communication port to which a communication requesting terminal that makes a communication request is connected, and refers to the packet header to identify a communication destination terminal that is a target of the communication request. Some output the packet to a connected communication port. In other words, there is a switching HUB that has a switching function of transmitting a received packet to a corresponding communication port, in addition to a function as a relay device for performing communication between a plurality of terminals.

[0004]

However, the above-mentioned relay device does not have a configuration in which the power saving function of each connected terminal is taken into consideration. That is, the configuration takes into account a case where the operation state of each terminal shifts from a normal power consumption state (normal state) to a low power consumption state (sleep state) in which power is supplied only to main parts in the terminal. Not.

Generally, when a certain terminal is in a sleep state, it cannot respond to a communication request from another terminal.
Further, the relay device disconnects the terminal that does not return a response from the network, assuming that the terminal is in a power-off state. As a result, depending on the type of network OS (operating system) incorporated in the terminal, when the operation state of the terminal returns from the sleep state to the normal state, the user may need to reconnect to the network. There is a problem that there is.

Further, since the terminal does not respond to the communication request to the terminal in the sleep state, the terminal which has issued the communication request is in a state of waiting for a response, and as a result, the performance of the system, especially the responsiveness, Is reduced.

Therefore, the present invention eliminates the need to reconnect to the network when the terminal returns from the sleep state to the normal state, even if the terminal connected to the network has a function of shifting to the sleep state. It is an object of the present invention to provide a network relay device and a network management system that can improve the responsiveness and the responsiveness.

[0008]

SUMMARY OF THE INVENTION A network relay device according to the present invention is provided when one terminal in a communication network issues a communication request to another terminal and the other terminal is in a sleep state. A terminal operation management unit that transmits data indicating that another terminal cannot communicate with one terminal via a network relay unit is provided.

[0009] The network relay device may be configured such that the terminal operation management unit includes terminal operation information management means having information indicating operation states of all terminals in the communication network. With such a configuration,
The network relay device can determine whether or not the communication destination terminal is in a sleep state based on the information held by the terminal operation management unit.

[0010] The network relay device may be configured to update the information indicating the operation state of the terminal according to the notification data indicating the operation state received from each terminal by the terminal operation information management means. With such a configuration, the network relay device can always make the information indicating the operation state of each terminal in the communication network the latest information.

In the network relay device, when the terminal operation management unit recognizes that the terminal of the communication destination is in the sleep state based on the information held by the terminal operation information management means, the data is destined for the terminal that made the communication request. May be configured to include status notification data generating means for generating status notification data indicating that the terminal at the communication destination cannot perform communication.

[0012] When the network relay device receives from the terminal notification data indicating that it has returned from the sleep state to the normal state, the state notification data generating means sends a communication request to the terminal and suspends the communication. It may be configured to generate status notification data that is data destined for the terminal that has returned to the normal state and indicates that communication is possible.

[0013] In the network relay device, the terminal operation management unit includes connection terminal management means having information indicating a terminal to which a communication request is permitted, and the connection terminal management means determines that one terminal in the communication network is another terminal. When a communication request is made to the terminal, if the terminal is not a terminal included in the information held by the connected terminal management means, the communication request may not be permitted. With such a configuration, the network relay device can also prevent an unauthorized terminal from accessing the network.

[0014] A network management system according to the present invention is a network management system in a system in which a network relay device for relaying and transmitting data between terminals in a communication network is installed. Terminal operation information management means having information indicating the operation state of the terminal of the network relay device, when each terminal in the communication network transitions from the normal state to the sleep state and when returning from the sleep state to the normal state In response to the notification, the terminal operation information management means in the network relay device updates information indicating the operation state of the terminal according to the state notification data received from each terminal.

[0015] The network management system is configured such that when one terminal in the communication network issues a communication request to another terminal and the other terminal is in a sleep state, the network relay device transmits the request to one terminal. On the other hand, the terminal transmits status notification data indicating that the other terminal cannot communicate, and suspends the communication when the terminal that has made the communication request receives the status notification data indicating that the other terminal cannot communicate. It may be configured as follows. According to such a configuration, an unnecessary response waiting state is eliminated, so that responsiveness is improved.

[0016]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of a network relay device and a network management system according to the present invention. FIG. 1 is a block diagram showing a first embodiment of a network relay device and a network management system according to the present invention.

In the configuration shown in FIG. 1, terminals 101 to 10n
Is connected to the network relay unit 40 in the network relay device 1 via the network line 110. For example, they are connected by an interface such as 10BASE-T. The network relay unit 40 is a general HUB
Have the same function as the relay device such as
It relays transmission / reception data between n. Terminals 101 to 10n
For example, the TCP / IP protocol is used for information transmission between them.

The network relay unit 40 is connected to the terminal operation management unit 10 in the network relay device 1. The terminal operation management unit 10 includes a control circuit 11, a state notification data generation circuit 12, and a terminal operation information management circuit 13, and includes terminals 101 to 10 connected to a network.
n and manages the operating state of the n.

In the terminal operation management unit 10, the control circuit 1
1 has a function of extracting the network addresses of the communication request source terminal and the communication destination terminal from the packets that have reached the network relay unit 40. It also has a function of transmitting and receiving data for status notification, a function of discarding received data, and the like. The terminal operation information management circuit 12 includes terminals 101 to 101
An operation information list that records the operation state of the operation information 10n is provided, and a predetermined instruction is output based on the information output from the control circuit 11 and the contents of the operation information list. The state notification data generation circuit 13 generates predetermined information based on the information output from the terminal operation information management circuit 12, and outputs the generated information to the control circuit 11.

Next, the operation of the network relay device and the network management system shown in FIG. 1 will be described with reference to the flowchart shown in FIG.

Terminal 101 connected to the network
10n generate a sleep state transition notification packet as notification data indicating transition to the sleep state when transitioning from the normal state to the sleep state, and transmit the sleep state transition notification packet to the network relay device 1 I do. Further, when returning from the sleep state to the normal state, a return notification packet is generated as notification data indicating that the state has returned to the normal state, and the return notification packet is transmitted to the network relay device 1. In the network relay device 1, when a sleep state transition notification packet or a return notification packet arrives, the control circuit 11
Notifies the terminal operation state management circuit 12 of information indicating the operation state of the terminal. The terminal operation state management circuit 12
The content of the operation information list is updated based on the notified information.

Hereinafter, the communication request source terminal is referred to as a terminal 101,
The communication destination terminal is the terminal 10n, and the terminal 101
A case where a communication request is made to 0n will be described as an example.

When a packet for requesting communication with the terminal 10n from the terminal 101 arrives at the network relay unit 40, the network relay unit 40 outputs the packet to the terminal operation management unit 10 (step S21).
In the terminal operation management unit 10, the control circuit 11 extracts address information (network addresses of the communication requesting terminal (terminal 101) and the communication destination terminal (terminal 10n)) from the packet (step S22), and extracts them from the terminal operation information. Output to the management circuit 12. The control circuit 11
Temporarily stores the received packet in an internal storage area (such as a register) until confirmation of the operation state of the terminal 10n is completed.

The terminal operation information management circuit 12 searches the operation information list for the operation state of the terminal 10n based on the address information (step S23). Here, the operation information list includes information indicating whether each terminal is in a sleep state or in a normal state. The terminal operation information management circuit 12 determines whether the operation state of the terminal 10n is in the sleep state or the normal state based on the search result in step S23 (step S23).
24).

When the terminal 10n is in the normal state, the terminal operation information management circuit 12 notifies the control circuit 11 that the terminal 10n is in the normal state. Control circuit 1
In response to the notification, 1 instructs the network relay unit 40 to transmit the packet transmitted from the terminal 101 to the terminal 10n (Step S25).

On the other hand, when the terminal 10n is in the sleep state, the terminal operation information management circuit 12 sends the information indicating that the terminal 10n is in the sleep state and the network address of the terminal 101 to the state notification data generation circuit 13. And an instruction to generate a status notification packet. The status notification data generation circuit 13 generates a status notification packet addressed to the terminal 101 based on the information indicating that the terminal 10n is in the sleep state and the network address of the terminal 101, and outputs the generated status notification packet to the control circuit 11 (step S26). The generated status notification packet is a packet for notifying that the terminal 10n cannot temporarily communicate. That is, it is a packet for notifying that the terminal 10n is in the sleep state.

The control circuit 11 outputs a status notification packet to the network relay unit 40. Further, the control circuit 11 discards the packet stored in the storage area (Step S27). Therefore, a packet requesting a response is not transmitted to the terminal 10n. The network relay unit 40 transmits the status notification packet to the terminal 101 (Step S28). The terminal 101 knows from the status notification packet that the terminal 10n that is the communication partner terminal is temporarily unable to communicate, and can temporarily suspend the communication.

With the above control, it is possible to avoid a situation where a packet for a communication request is transmitted to the terminal 10n in the sleep state and the terminal 10n does not respond. Therefore, the terminal 10n is prevented from being disconnected from the network due to the terminal 10n not responding.

When the terminal 10n shifts from the sleep state to the normal state, the terminal 10n generates a return notification packet indicating that the terminal has returned to the normal state, and transmits the return notification packet to the network relay device 1. . When receiving the return notification packet, the network relay unit 40 outputs the packet to the terminal operation management unit 10.
In the terminal operation management unit 10, the control circuit 11 extracts a network address (address of the terminal 10n) from the packet and notifies the terminal operation information management circuit 12 that the terminal 10n has returned to the normal state. The terminal operation information management circuit 12 changes the contents of the column related to the terminal 10n of the operation information list to the contents indicating the normal state based on the notified information.

Then, the terminal operation information management circuit 12 stores information indicating that the terminal 10n has returned to the normal state,
In addition to outputting the network address “01” to the status notification data generation circuit 13, it also outputs a status notification packet generation instruction. The state notification data generation circuit 13
Based on the information indicating that the terminal 10n has returned to the normal state and the network address of the terminal 101, the terminal 1
A status notification packet destined for 01 is generated and output to the control circuit 11. The generated status notification packet is transmitted to the terminal 10n.
Is a packet for notifying that it has returned to the communicable state. Terminal 101 can recognize the return of terminal 10n by receiving the status notification packet, and can resume communication. That is, terminal 101 again transmits a packet for requesting communication with terminal 10n. The fact that the terminal 101 has made a communication request to the terminal 10n in the sleep state but has temporarily suspended the communication is stored in, for example, the control circuit 11 or the terminal operation information management circuit 12.

As described above, according to the present embodiment, when the communication destination terminal is in the sleep state, terminal operation management section 10 transmits a state notification packet to the communication request source terminal. That is, the network relay device 1 makes a proxy response to the communication request from the communication request source terminal. Then, no packet is transmitted to the communication destination terminal in the sleep state, and the situation where the network relay unit 40 cannot receive a response from the communication destination terminal in the sleep state does not occur. Therefore, even if the network relay unit 40 is configured to disconnect the terminal that does not respond from the network, it is possible to prevent the communication destination terminal in the sleep state from being disconnected from the network. As a result, when the terminal shifts from the sleep state to the normal state, the user does not need to perform an operation to reconnect to the network. Therefore, the user can shift the operation state of the terminal to the sleep state without worrying about disconnection from the network.

Further, the communication request source terminal can recognize from the status notification packet that the communication destination terminal is temporarily unable to communicate, so that the communication to such a terminal can be temporarily stopped. . Therefore, useless communication in the network system can be reduced, and responsiveness of the system can be improved.

Next, a description will be given of a second embodiment of the network relay device and the network management system according to the present invention. FIG. 3 is a block diagram showing the configuration of the second embodiment of the network relay device and the network management system. FIG.

The network management system shown in FIG.
The network management system shown in FIG. 1 has a configuration in which a connection terminal management circuit 14 and a connection control circuit 15 are added in a terminal operation management unit 20 of the network relay device 2. The connection terminal management circuit 14 is connected to the terminal operation information management circuit 12 and the connection control circuit 15, and the connection control circuit 15 is connected to the network relay unit 40. The connection terminal management circuit 14 holds a list of terminals permitted to access the network (connection permission list), and checks the information output from the terminal operation information management circuit 12 against the contents of the connection permission list. The connection permission list is
It can be updated only from the administrator terminal.

When the network address of the communication requesting terminal is input via the terminal operation information management circuit 12, the connection terminal management circuit 14 checks the network address against the contents of the connection permission list, and the communication requesting terminal establishes the connection. It is determined whether the terminal is an authorized terminal. Note that the connection terminal management circuit 14 may directly input a network address from the control circuit 11. As a result of the comparison, if the communication requesting terminal is recognized to be a terminal for which connection is not permitted, the connection terminal management circuit 14 connects the communication requesting terminal in the network relay unit 40 to the connection control circuit 15. Command to stop the operation of the communication port being used.

The connection control circuit 15 stops the operation of the communication port in the network relay unit 40 according to the instruction. For example, the data input from the communication port is ignored. Therefore, it is possible to prevent an illegally connected terminal from accessing the network. The connection control circuit 14 notifies the administrator terminal of the unauthorized access. At this time, the network address of the illegally connected terminal may be notified to the administrator terminal.
When the communication requesting terminal is a terminal permitted to connect, the same operation as in the first embodiment is performed.

Next, a third embodiment of the network relay device and the network management system according to the present invention will be described. FIG. 4 is a block diagram illustrating a configuration of the network relay device and the network management system according to the third embodiment.

The network management system shown in FIG.
The configuration is such that the power control circuit 16 is added to the terminal operation management unit 30 of the network relay device 3 in the network management system shown in FIG. Power control circuit 16
Performs power supply control in the network relay unit 40 in accordance with an instruction from the terminal operation information management circuit 12.

The terminal operation information management circuit 12 checks the operation state of each terminal (terminals 101 to 10n) connected to the network relay unit 40 at regular intervals. For example, the content of the operation information list is checked at regular intervals. If it is confirmed that all the terminals have shifted to the sleep state, the terminal operation information management circuit 12
Notifies the power control circuit 16 of the fact. The power control circuit 16 responds to the notification, and
0 is instructed to shift to the sleep state. Therefore, when the network system is not used (for example, at night), power consumption of the entire system can be reduced, and heat generation from the network relay unit 40 can be prevented.

Further, while the network relay unit 40 is in the sleep state, the power control circuit 16 determines whether there is a communication request from the terminals 101 to 10n instead of the network relay unit 40. For example, the power control circuit 16
Analyzes the packets transmitted from the terminals 101 to 10n to recognize that there is a communication request from any of the terminals. When a communication request is received from any terminal, the power control circuit 16
The operation state of the network relay unit 40 can be returned to the normal state by notifying the network relay unit to the normal state.

[0041]

According to the present invention, when the communication destination terminal is in the sleep state, the terminal operation management unit transmits a status notification packet indicating that the communication destination terminal cannot communicate via the relay device. Since transmission is performed to the request source terminal, it is possible to prevent the communication destination terminal in the sleep state from being disconnected from the network even if the network relay device is configured to disconnect the terminal that does not respond from the network. That is, the terminal is not disconnected from the network even in the sleep state. Therefore, when the terminal returns from the sleep state to the normal state, it is not necessary for the user to perform an operation to connect to the network again.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of a network management system according to the present invention.

FIG. 2 is a flowchart illustrating the operation of the network management system according to the present invention.

FIG. 3 is a block diagram showing a second embodiment of the network management system according to the present invention.

FIG. 4 is a block diagram showing a third embodiment of the network management system according to the present invention.

[Explanation of symbols]

 1, 2, 3 Network relay device 10, 20, 30 Terminal operation management unit 11 Control circuit 12 Terminal operation information management circuit 13 State notification data generation circuit 14 Connected terminal management circuit 15 Connection control circuit 16 Power control circuit 40 Network relay unit 101 -10n terminal

Claims (8)

[Claims] 1. A network relay device comprising a network relay unit having a plurality of communication ports for connecting terminals in a communication network and relaying and transmitting data between terminals connected to the communication ports, If one terminal in the communication network makes a communication request to another terminal and the other terminal is in a sleep state, the other terminal cannot communicate with the one terminal. A network relay device, comprising: a terminal operation management unit that transmits data indicating that the above is the case via the network relay unit. 2. The network relay device according to claim 1, wherein the terminal operation management unit includes terminal operation information management means having information indicating operation states of all terminals in the communication network. 3. The network relay device according to claim 2, wherein the terminal operation information management means updates the information indicating the operation state of the terminal according to the notification data indicating the operation state of the terminal received from each terminal. 4. When the terminal operation management unit recognizes that the terminal at the communication destination is in the sleep state based on the information held by the terminal operation information management unit, the terminal operation management unit transmits the data addressed to the terminal that made the communication request, The network relay device according to claim 2 or 3, further comprising status notification data generating means for generating status notification data indicating that the previous terminal cannot communicate. 5. The state notification data generating means, when receiving notification data from the terminal indicating that it has returned from the sleep state to the normal state, sends data to the terminal that made a communication request to the terminal and interrupted communication. The network relay device according to claim 4, wherein the network relay device generates status notification data indicating that the terminal that has returned to the normal state has become communicable. 6. The terminal operation management unit includes a connection terminal management unit having information indicating a terminal to which a communication request is permitted, wherein the connection terminal management unit is configured so that one terminal in a communication network is connected to another terminal. 6. The network relay device according to claim 1, wherein, when a communication request is made by the terminal, if the terminal is not a terminal included in the information, the communication request is not permitted. 7. A network management system in a system in which a network relay device that relays and transmits data between terminals in a communication network is installed, wherein the network relay device is an operating state of all terminals in the communication network. Including terminal operation information management means having information indicating, when each terminal in the communication network transitions from the normal state to the sleep state, and when returning from the sleep state to the normal state, the network relay device And transmitting notification data indicating a change in the operation state of the network relay device, wherein the terminal operation information management means in the network relay device updates information indicating the operation state of the terminal according to the notification data received from each terminal. system. 8. The network relay device, when one terminal in the communication network issues a communication request to another terminal, and the other terminal is in a sleep state, Transmitting state notification data indicating that the other terminal cannot communicate, and the terminal that has made a communication request performs communication when receiving the state notification data indicating that the other terminal cannot communicate. 8. The network management system according to claim 7, wherein the network management system is suspended.