JP2004030151A - Built-in device and network constructing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable communication with an administrative computer even for a LAN functional fault of a processor board in a system for incorporating a plurality of processors. <P>SOLUTION: A built-in device is provided with a plurality of processor boards 110, 120, and 130 equipped with LAN functions, a main LAN 150 for connecting the processor boards, the administrative computer 140 connected to the main LAN, and a shared memory 160 among the processor boards. In order to enable communication between the administrative computer and the processor boards even when the LAN functions fail, the processor boards are provided with backplane LAN functions 112, 122, and 132 for constructing constructing a backplane LAN 161 in the shared memory, proxy response functions 113, 123, and 133 for performing communication path control between the backplane LAN and the main LAN, and transferring functions of proxy response 114, 124, and 134 for controlling proxy response functions in accordance with requests from other processor boards. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an embedded device having a plurality of processors, and a technique which is effective when applied to a network configuration method incorporated in the device.
[0002]
[Prior art]
According to studies made by the present inventor, a system including a plurality of processors is disclosed in, for example, JP-A-2000-78175, JP-A-7-160601, and JP-A-9-149072. And the like.
[0003]
The technique disclosed in Japanese Patent Application Laid-Open No. 2000-78175 discloses a technique in which a pair of communication ports included in each information processing device are connected to respective networks independent of each other to form a duplicated network, If information transmission is performed via one of the networks and an error occurs in the information transmission via the corresponding network, the network communication method for transmitting the information via the other network diagnoses the network in which the abnormality has occurred. Then, if the diagnosis result can be communicated, it is restored.
[0004]
Also, in the Japanese Patent Application Laid-Open No. Hei 7-160601, when a failure occurs in a communication device, a substitute communication device is searched for, and the address of the failed communication device is changed to an address of a replacement destination. A technique for using an alternative communication device is described. In particular, a system in which a distributed processing computer is connected to one LAN and has a self-contained communication control device is disclosed.
[0005]
Japanese Patent Application Laid-Open No. 9-149072 discloses a technique for ensuring communication between two LAN lines by a LAN bridge system.
[0006]
[Problems to be solved by the invention]
By the way, as a result of the present inventor's study on a system including a plurality of processors as described above, the following has become clear.
[0007]
For example, in the technique disclosed in Japanese Patent Application Laid-Open No. 2000-78175, such a configuration cannot be realized in an embedded device in which a management computer is connected to only one network as in the present invention.
[0008]
Also, the technology disclosed in Japanese Patent Application Laid-Open No. Hei 7-160601 relates to a system in which a distributed processing computer is connected to one LAN and has a self-contained communication control device, such as an embedded device targeted by the present invention. In a system in which the backplane LAN is separately connected to the main LAN and has no independent communication control device, communication from the backplane LAN to the management computer connected to the main LAN cannot be realized.
[0009]
The technology disclosed in Japanese Patent Application Laid-Open No. 9-149072 guarantees communication between two LAN lines by a LAN bridge system, and is an embedded device composed only of a processor board and a management computer as an object of the present invention. Does not guarantee communication between the processor board and the management computer. Further, the technique disclosed in this publication relates to a LAN bridge system in which the system itself is duplicated, and cannot be realized in a system in which only a LAN interface is duplicated by a processor board in an embedded device. Furthermore, since this bridge system has four LAN interfaces, it cannot be realized with a processor board having only two LAN interfaces.
[0010]
Therefore, an object of the present invention is to provide a management system for managing a management computer even when a failure occurs in the LAN function of the processor board in an embedded device including a processor board group having only a LAN as an external interface and a management computer managing the processor board. An object of the present invention is to provide a network configuration technology that enables communication with a function.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a plurality of processor boards having an information notification function and a LAN function, a main LAN for network-connecting the plurality of processor boards, a main LAN connected to the main LAN, and a maintenance function. When a LAN function fails in an embedded device including a management computer having a management computer and a shared memory shared by a plurality of processor boards, notification of information from the processor board to the management computer and communication from the management computer to the processor board are performed. In order to enable a maintenance operation, the processor board is provided with a backplane LAN function for constructing a backplane LAN in a shared memory and a proxy response function for responding by proxy for communication between the main LAN and the backplane LAN.
[0012]
Further, when the LAN function of the processor board on which the proxy response function is activated fails, the processor board has a proxy response takeover function for controlling the proxy response function to activate the proxy response function of another processor board. It is. This proxy response takeover function includes a takeover request function for notifying another processor board of a takeover when the LAN function of the own processor board becomes unable to communicate due to a failure, and a notification from the other processor board to the own processor board. It has a takeover reception function for taking over a proxy response.
[0013]
In the configuration of this embedded device, when the proxy response server is the first processor board and the other server is the second processor board, if the LAN function of the second processor board fails, the It is possible to configure a path for receiving internal information at the management computer via the first processor board, and when the LAN function of the first processor board fails, the first processor The proxy response is taken over from the board to the second processor board, and a path for receiving the internal information of the first processor board by the management computer can be configured.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In all the drawings for describing the embodiments, members having the same functions are denoted by the same reference numerals, and repeated description thereof will be omitted.
[0015]
An example of an embedded device according to an embodiment of the present invention and a configuration of a network incorporated in the device will be described with reference to FIGS. FIG. 1 is a configuration diagram of an embedded device and a network according to the present embodiment. FIG. 2 is an explanatory diagram of a network path setting of a processor board of a proxy response server. FIGS. 3 and 4 are network path settings of a processor board other than the proxy response server. Are respectively shown.
[0016]
The embedded device according to the present embodiment includes a plurality of processor boards 110, 120, and 130 equipped with a LAN function, a management computer 140 that manages the plurality of processor boards 110, 120, and 130, and the management computer 140 It comprises a main LAN 150 for communicating with the boards 110, 120 and 130, a shared memory 160 shared among the processor boards 110, 120 and 130, and the like.
[0017]
Each of the processor boards 110, 120, and 130 has a LAN function 111, 121, 131, a backplane LAN function 112, 122, 132, a proxy response function 113, 123, 133, a proxy response takeover function 114, 124, 134, respectively. Information notification functions 115, 125, and 135 are mounted.
[0018]
The LAN functions 111, 121, and 131 are respectively connected to the main LAN 150, and are assigned IP addresses of 10.0.1.2, 10.0.1.3, and 10.0.1.4, respectively. .
[0019]
The backplane LAN functions 112, 122, and 132 are functions for constructing a backplane LAN 161 as a virtual network via the shared memory 160, respectively. 10.0.0.2, 10.0.0.3, 10.0.0.4 are assigned to the respective backplane LAN functions 112, 122, 132 as IP addresses.
[0020]
The proxy response functions 113, 123, and 133 are functions for performing a proxy response for communication with the network node of the backplane LAN 161 at the network node of the main LAN 150.
[0021]
The proxy response takeover functions 114, 124, and 134 respectively control the proxy response function to activate the proxy response function of another processor board when the LAN function of the processor board on which the proxy response function is operating fails. Function.
[0022]
Each of the proxy response takeover functions 114, 124, and 134 has a handover function for notifying a handover to the proxy response takeover function of another processor board when the LAN function of the own processor board becomes incommunicable due to a failure. It is composed of request functions 114a, 124a, 134a and takeover accepting functions 114b, 124b, 134b for taking over a proxy response to the own processor board in response to a notification from the proxy response takeover function of another processor board.
[0023]
For example, when the LAN function 111 of the processor board 110 becomes inoperable due to a failure in the processor board 110 (the same applies to the processor boards 120 and 130), the proxy response takeover request is sent to each processor board 130, processor board The request is sequentially made to the IP addresses of the backplane LAN 161 of the H.120. First, if the response from the takeover accepting function 134b of the request destination processor board 130 can be taken over, the proxy response function 113 of the own processor board 110 is stopped. If the response from the takeover accepting function 134b of the request destination is impossible to take over, the request is transmitted to the IP address of the backplane LAN 161 of another processor board 120 next. At this time, when the own LAN function 111 is operating, the takeover accepting function 114b sets the proxy response function 113, returns a response indicating that takeover is possible to the requesting takeover request function 134a, and determines whether the own LAN function If it is not operating, it operates to return a takeover impossible response to the takeover request function 134a of the request source.
[0024]
The information notification functions 115, 125, and 135 are functions for notifying the management computer 140 of the internal information of each of the processor boards 110, 120, and 130, respectively.
[0025]
In the embedded device configured as described above, for example, the proxy response function 113 of the processor board 110 is set as an initial proxy response server, and the IP addresses of the processor boards 120 and 130 as proxy targets are set. Set the network path shown.
[0026]
In the proxy response function 113 of the processor board 110, No. 1 to No. 3 of the network path setting are the setting of the path of the IP address of the backplane LAN 161 of each processor board, and the address (10.0.0.2, 10.. 0.0.3, 10.0.0.4), FFFFFFFF in the netmask, and the IP address (10.0.0.2) of the own processor board in the gateway.
[0027]
Further, the entry of No. 4 is the setting of the route from the backplane LAN 161 to the main LAN 150, the destination is the subnet address (10.0.0.0), the netmask is FF000000 of the subnet mask, and the gateway is the IP address of the main LAN. Set the address (10.0.1.2).
[0028]
Also, the proxy response functions 123 and 133 of the processor boards 120 and 130 are not set with the IP addresses of the proxy targets, and the network paths shown in FIG. 3 for the processor board 120 and FIG. Set. That is, in the processor board 120, the IP address (10.0.0.3) is set to the gateway of the entry of No. 1 to 3, and the IP address (10.0.1.3) is set to the gateway of the entry of No. 4, respectively. In the processor board 130, the IP address (10.0.0.4) is set to the gateways of the entries No. 1 to 3, and the IP address (10.0.1.4) is set to the gateway of the entry No. 4.
[0029]
Next, a normal operation flow in the above network configuration will be described with reference to FIG. FIG. 5 shows a flowchart of the normal operation. Here, as an example, the case where the management computer 140 receives the notification of the internal information of the processor board 110 as the proxy response server and the processor board 130 other than the proxy response server is illustrated, but the same applies to the processor board 120. is there.
[0030]
When the internal information of the processor board 110, which is the proxy response server, is notified in the normal state, the information is transmitted from the information notification function 115 (step S11), and the maintenance function 141 of the management computer 140 is transmitted via the LAN function 111 and the main LAN 150. Is received (step S12).
[0031]
Similarly, when notifying the internal information of the processor board 130 other than the proxy response server, the information is transmitted from the information notification function 135 (step S13), and the maintenance function of the management computer 140 is transmitted via the LAN function 131 and the main LAN 150. 141 receives (step S14).
[0032]
Next, the configuration and operation when a failure occurs in the LAN function 131 of the processor board 130 other than the proxy response server will be described with reference to FIGS. FIG. 6 is a configuration diagram when a failure occurs in the LAN function 131 of the processor board 130, and FIG. 7 is a flowchart of the operation.
[0033]
When a failure occurs in the LAN function 131 of the processor board 130 other than the proxy response server (step S21), the information notification function 135 detects the failure of the LAN function 131 (step S22), and the information notification function 135 The route setting for passing through the main LAN 150 shown in No. 4 in FIG. 4 is deleted from the response function 133 (step S23), and the internal information is transmitted to the processor board 110 via the backplane LAN 161 (step S24). .
[0034]
Then, the proxy response function 113 of the processor board 110 that has received the internal information of the processor board 130 via the backplane LAN 161 relays the communication, and maintains the management computer 140 via the LAN function 111 of the processor board 110 and the main LAN 150. The internal information is transmitted to the function 141 (step S25).
[0035]
Through the above route, the maintenance function 141 of the management computer 140 can receive the internal information of the processor board 130 (Step S26).
[0036]
Next, a configuration and an operation when the LAN function 111 of the processor board 110 serving as the proxy response server has failed will be described with reference to FIGS. FIG. 8 is a configuration diagram when the LAN function 111 of the processor board 110 has failed, and FIG. 9 is a flowchart of the operation.
[0037]
When the LAN function 111 of the processor board 110 serving as the proxy response server fails (step S31), the information notification function 115 detects the failure of the LAN function 111 of the processor board 110 (step S32), and the information notification function 115 Notify the proxy response takeover function 114 of the failure.
[0038]
Upon receiving this notification, the proxy response takeover function 114 deletes all the registration of the proxy target IP address of the proxy response function 113, and deletes the route setting for passing through the main LAN 150 shown in No. 4 in FIG. (S33) After stopping the proxy response function 113 (step S34), it notifies the proxy response takeover function 134 of the other operating processor board 130 (step S35).
[0039]
The proxy response takeover function 134 of the processor board 130 that has received the notification (step S36) sets the IP addresses of the processor boards 110 and 120 as the proxy target IP addresses for the proxy response function 133. Accordingly, the proxy response function by the processor board 130 starts (step S37), and the information notification function 135 notifies the processor board 110 of the start of the proxy response function via the backplane LAN 161 (step S38).
[0040]
Further, the proxy response function 113 of the processor board 110 which has received the notification of the start of the proxy response function from the processor board 130 via the backplane LAN 161 (step S39) transmits the internal information to the processor board 130 via the backplane LAN 161. (Step S40).
[0041]
Then, the proxy response function 133 of the processor board 130 that has received the internal information of the processor board 110 via the backplane LAN 161 relays the communication (step S41), and manages the information via the LAN function 131 of the processor board 130 and the main LAN 150. The internal information is transmitted to the maintenance function 141 of the computer 140.
[0042]
Through the above route, the maintenance function 141 of the management computer 140 can receive the internal information of the processor board 110 (Step S42).
[0043]
As described above, even if a failure occurs in the LAN functions of the processor boards 120 and 130 other than the proxy response server and the processor board 110 serving as the proxy response server, the proxy response function and the proxy response takeover function are activated, so that each processor board is activated. The internal information of 120, 130, and 110 can be transmitted to the management computer 140, and a dialog such as remote login can be performed.
[0044]
【The invention's effect】
According to the present invention, even if a failure occurs in the LAN function of the processor board, it is possible to notify the management computer of the failure and enable dialogue such as remote login.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an embedded device and a network according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram showing a network path setting of a processor board of a proxy response server in the embedded device according to the embodiment of the present invention;
FIG. 3 is an explanatory diagram showing a network path setting of a processor board other than the proxy response server in the embedded device according to the embodiment of the present invention;
FIG. 4 is an explanatory diagram showing a setting of a network path of another processor board other than the proxy response server in the embedded device according to the embodiment of the present invention;
FIG. 5 is a flowchart showing an operation in a normal state in the embedded device according to the embodiment of the present invention;
FIG. 6 is a configuration diagram illustrating a case where a failure occurs in a LAN function of a processor board other than the proxy response server in the embedded device according to the embodiment of the present invention;
FIG. 7 is a flowchart illustrating an operation when a failure occurs in a LAN function of a processor board other than the proxy response server in the embedded device according to the embodiment of the present invention;
FIG. 8 is a configuration diagram illustrating a case where a LAN function of a processor board as a proxy response server has failed in the embedded device according to the embodiment of the present invention;
FIG. 9 is a flowchart showing an operation of the embedded device according to the embodiment of the present invention when a LAN function of a processor board serving as a proxy response server has failed.
[Explanation of symbols]
100 embedded device, 110, 120, 130 processor board, 111, 121, 131 LAN function, 112, 122, 132 backplane LAN function, 113, 123, 133 proxy response function, 114, 124, 134 Proxy response takeover function, 114a, 124a, 134a ... takeover request function, 114b, 124b, 134b ... takeover reception function, 115, 125, 135 ... information notification function, 140 ... management computer, 141 ... maintenance function, 150 ... main LAN, 160 ... shared memory, 161 ... backplane LAN.

Claims (5)

A plurality of processor boards having an information notification function and a LAN function,
A main LAN for network-connecting the plurality of processor boards;
A management computer connected to the main LAN and having a maintenance function;
A shared memory shared between the plurality of processor boards,
At least one of the plurality of processor boards has a backplane LAN function of constructing a backplane LAN in the shared memory, and a proxy response function of responding by proxy for communication between the main LAN and the backplane LAN. Embedded device. The embedded device according to claim 1,
One or more of the plurality of processor boards control the proxy response function to activate the proxy response function of another processor board when the LAN function of the processor board on which the proxy response function is activated fails. An embedded device having a proxy response takeover function. The embedded device according to claim 2,
The proxy response takeover function includes a takeover request function for notifying another processor board of a takeover when the LAN function of the own processor board becomes unable to communicate due to a failure, and a proxy request to the own processor board based on a notification from the other processor board. An embedded device, comprising: a takeover reception function for taking over a response. A plurality of processor boards, a main LAN for network-connecting the plurality of processor boards, a management computer connected to the main LAN, and a shared memory shared between the plurality of processor boards;
When the proxy function server is the first processor board and the other processor boards are the second processor boards among the plurality of processor boards, when a failure occurs in the LAN function of the second processor board,
In the second processor board, a failure of a LAN function is detected by an information notification function, and the information notification function deletes a path setting for passing through the main LAN to a proxy response function, and shares the internal information. Transmitting to the first processor board via the backplane LAN constructed in the memory,
In the first processor board receiving the internal information of the second processor board, the proxy response function transmits the internal information to the maintenance function of the management computer via the LAN function and the main LAN,
A network configuration method, wherein a route for receiving the internal information of the second processor board via the first processor board and receiving the information at the management computer is configured. A plurality of processor boards, a main LAN for network-connecting the plurality of processor boards, a management computer connected to the main LAN, and a shared memory shared between the plurality of processor boards;
When a proxy response server among the plurality of processor boards is a first processor board and the other is a second processor board, when a failure occurs in a LAN function of the first processor board,
In the first processor board, the information notification function detects a failure of the LAN function, and the information notification function notifies the failure to the proxy response takeover function. After deleting the target IP address, deleting the route setting for passing through the main LAN, and stopping the proxy response function, a notification is sent to the proxy response takeover function of the second processor board,
In the second processor board having received the proxy response takeover notification from the first processor board, the proxy response takeover function sets a proxy target IP address for the proxy response function and starts the proxy response function, Notifying the first processor board of the start of the proxy response function from the notification function to the first processor board via the backplane LAN constructed in the shared memory;
In the first processor board receiving the start notification of the proxy response function from the second processor board, the proxy response function transmits internal information to the second processor board via the backplane LAN,
In the second processor board receiving the internal information of the first processor board, the proxy response function transmits the internal information to a maintenance function of the management computer via a LAN function and the main LAN,
A network configuration method, wherein a proxy response is taken over from the first processor board to the second processor board, and a path for receiving internal information of the first processor board by the management computer is configured.

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