JP3671803B2 - Client / server system and recording medium recording control program used therefor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a client / server system, and more particularly to a client / server system suitable when a large number of clients are connected to a server via a network, and a recording medium on which a program used therefor is recorded.
[0002]
[Prior art]
When the work to be processed is composed of a plurality of processing functions, the client / server system has a server that shares a part of the functions in the form of services, and requests predetermined services while requesting services from the servers. The system includes a client that processes work, and performs work separately. Servers include file servers, name servers, database servers, calculation servers, and the like. The client and the server are mounted on a computer configured with hardware suitable for each processing, and the processing proceeds while communicating via a network.
[0003]
In a conventional client / server system, when a failure occurs in a server or a network, reconnection attempts (that is, retries) are repeated based on individual communication methods assuming normal driving between the server and the client. The communication is resumed sequentially when the failure is recovered.
[0004]
[Problems to be solved by the invention]
However, the conventional client / server system has the following problems (i) and (ii).
(I) Even if the data required for recovery on each client side has the same content, the server must repeat the same data transmission for each client to all clients waiting for recovery. In this case, the processing becomes very redundant, an excessive load is generated on the server and the network, and the processing of the server and the client that are not directly related to the occurred failure may be adversely affected.
(Ii) On the server side, all clients are sequentially processed according to the capabilities of the server and the network. Therefore, the recovery of the client at the end of the recovery processing order is after a long time has elapsed.
[0005]
These problems are particularly serious in large networks where hundreds to tens of thousands of clients are connected. That is, in such a client / server system, the server capacity and the number of servers correspond to the number of clients having a low operation rate on the assumption of the normal running state. However, when a failure occurs, the number of clients waiting for recovery increases cumulatively, and the server must perform processing for clients that greatly exceed the number of smaller clients on the premise of a low operating rate. Also, when a failure occurs, the client needs to wait until other clients waiting for recovery that have increased in number are processed by the server one by one.
[0006]
The present invention has been made in view of the above-described circumstances, and provides a client / server system in which a recovery time is earlier than that in the case where a failure occurs in a server and a network, and a recording medium in which a control program used therefor is recorded. The purpose is to do.
[0008]
[Means for Solving the Problems]
In order to solve the above problem, the invention according to claim 1 is characterized in that one or a plurality of servers that provide a predetermined service to a plurality of clients, a plurality of clients that receive the predetermined service from the servers, A server unit for normal travel, the server providing a predetermined service to each of the clients during normal travel; A first timer that periodically outputs a first time measurement value, a nonvolatile storage device that stores the first time measurement value, and the first time stored in the nonvolatile storage device An activation device that inputs a measurement value and outputs an activation signal when the first time measurement value exceeds the first set value, and activates when the activation signal is output A failure occurrence server unit that simultaneously provides the predetermined service to all or a part of the clients, and each client individually receives the predetermined service from the server during the normal running. The individual inquiry client unit that outputs a service reception signal and stops operation when a given switching signal is input, and inputs the service reception signal, and the time from when the service reception signal is no longer input. A second timer for generating a second time measurement value, and outputting a failure occurrence detection signal when the second time measurement value exceeds a second set value; and the failure occurrence detection signal A switch that outputs the switching signal when it is output, and a server that is activated when the switching signal is output and receives the predetermined service all at once from the failure occurrence server unit. That it is characterized in that it comprises a fault occurrence client unit.
[0009]
According to the second aspect of the present invention, one or a plurality of servers that provide a predetermined service to a plurality of clients, a plurality of clients that receive the predetermined service from the servers, and the server and the client are connected. And a server unit for normal driving that provides the predetermined service individually to each client during normal driving and a time measurement value periodically. Timer, a nonvolatile storage device for storing the time measurement value, and the time measurement value stored in the nonvolatile storage device, and a start signal when the time measurement value exceeds a set value. And an activation device that outputs the predetermined service to all or a part of each of the clients when the activation signal is output. A fault occurrence server unit provided to the client, and each client individually receives the predetermined service from the server during the normal travel, and the fault occurrence server unit receives the predetermined server from the fault occurrence server unit. It is characterized by comprising a client unit for failure occurrence that receives services all at once.
[0010]
According to the third aspect of the present invention, one or a plurality of servers that provide a predetermined service to a plurality of clients, a plurality of clients that receive the predetermined service from the servers, and the server and the clients are connected. And a server unit for normal travel during which the server provides the predetermined service individually to each client during normal travel, and per unit time of a given inquiry. In response to a failure occurrence inquiry reception unit that measures the number of clients that need to provide the predetermined service among the clients, and activated when the number of clients exceeds a first set value An activation device that outputs a signal, and all of the clients that are activated when the activation signal is output Includes a failure occurrence server unit that simultaneously provides the predetermined service to a part, and each client individually receives the predetermined service from the server during the normal running and receives a service reception signal. An individual inquiry client unit that stops operation when a given switching signal is input, and the service reception signal is input, and the time is measured from when the service reception signal is not input. A timer for generating a value and outputting a failure detection signal when the time measurement value exceeds a second set value; and a switch for outputting the switching signal when the failure detection signal is output; , The failure occurrence client unit that receives the predetermined service from the failure occurrence server unit at the same time, and the failure activation unit that is activated when the switching signal is output. It is characterized by comprising a failure during inquiry unit that performs regular the inquiry to live upon the inquiry reception unit.
[0011]
In the invention according to claim 4, one or a plurality of servers that provide a predetermined service to a plurality of clients, a plurality of clients that receive the predetermined service from the servers, and the server and the client are connected. A number of times per unit time of communication requests that the server individually provides the predetermined service to each of the clients during normal driving and that is sent from the client A normal travel time server unit, an activation device that outputs an activation signal when the number of communication requests exceeds a first set value, and an activation device that activates when the activation signal is output A server unit for failure occurrence that simultaneously provides the predetermined service to all or a part of the clients, An ant sends the communication request to the server unit for normal driving, receives the predetermined service individually and outputs a service reception signal, and inputs the service reception signal, A timer that measures time from when the service reception signal is not input and generates a time measurement value, and outputs a failure detection signal when the time measurement value exceeds a second set value, and the failure occurrence A switch that outputs the switching signal when a detection signal is output, and a failure occurrence unit that is activated when the switching signal is output and receives the predetermined service all at once from the failure occurrence server unit And a client unit.
[0012]
According to the fifth aspect of the present invention, one or a plurality of servers that provide a predetermined service to a plurality of clients, a plurality of clients that receive the predetermined service from the servers, and the server and the clients are connected. A number of times per unit time of communication requests that the server individually provides the predetermined service to each of the clients during normal driving and that is sent from the client A normal travel time server unit, an activation device that outputs an activation signal when the number of communication requests exceeds a first set value, and an activation device that activates when the activation signal is output A server unit for failure occurrence that simultaneously provides the predetermined service to all or a part of the clients, An ant receives the predetermined service all at once from the individual inquiry client unit that sends the communication request to the server unit for normal driving and receives the predetermined service individually, and the server unit for failure occurrence And a client unit for failure occurrence.
[0015]
A sixth aspect of the present invention relates to a recording medium, and a control program for causing a computer to function as the normal running time server unit and the failure occurrence server unit according to the first, second, third, fourth, or fifth aspect. Is recorded.
A seventh aspect of the present invention relates to a recording medium, and a control program for causing a computer to function as the individual inquiry client unit and the failure occurrence client unit according to the first, second, third, fourth or fifth aspect. Is recorded.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
First embodiment
FIG. 1 is a block diagram showing an electrical configuration of a client / server system according to the first embodiment of the present invention.
In this form of client / server system, as shown in FIG. ₁ , 20 ₂ , ..., 20 _n And a network 30. The server 10 is a client 20 ₁ , 20 ₂ , ..., 20 _n A predetermined service is provided. Client 20 ₁ , 20 ₂ , ..., 20 _n Receives a predetermined service from the server 10. The network 30 includes a server 10 and a client 20 ₁ , 20 ₂ , ..., 20 _n Data corresponding to a predetermined service is transmitted between the two. The server 10 is connected to the client 20 during normal driving. ₁ , 20 ₂ , ..., 20 _n A predetermined service is individually provided to the client 20 ₁ , 20 ₂ , ..., 20 _n When a request for the same service is made from all or a part of the client 20, these clients 20 ₁ , 20 ₂ , ..., 20 _n It is the structure which provides a predetermined service to all or one part simultaneously.
[0017]
The server 10 includes a normal travel time server unit 11, a first timer 12, a non-volatile storage device 13, an activation device 14, a failure occurrence server unit 15, and a central processing unit (hereinafter referred to as “CPU”) 16. , And a recording medium (for example, read-only memory, hereinafter referred to as “ROM”) 17. The server unit 11 for normal driving is used by the client 20 during normal driving. ₁ , 20 ₂ , ..., 20 _n A predetermined service is provided individually for each. The timer 12 periodically outputs the first time measurement value S12. The nonvolatile storage device 13 stores the first time measurement value S12. The activation device 14 receives the first time measurement value S13 output from the nonvolatile memory device 13 and outputs the activation signal S14 when the first time measurement value S13 exceeds the first set value. To do. The first set value is estimated from experience values or statistical numerical values. . The failure occurrence server unit 15 is activated when the activation signal S14 is output, and the client 20 ₁ , 20 ₂ , ..., 20 _n A predetermined service is simultaneously provided to all or a part of the service. The CPU 16 controls the entire server 10. The ROM 17 stores a control program for operating the CPU 16.
[0018]
Client 20 ₁ Includes an individual inquiry client unit 21, a second timer 22, a switch 23, a failure occurrence client unit 24, a CPU 25, and a recording medium (for example, ROM) 26. The individual inquiry client unit 21 individually receives a predetermined service from the server 10 during normal driving, outputs a service reception signal S21, and stops operating when a given switching signal S23 is input. The timer 22 receives the service reception signal S21, measures the time from when the service reception signal S21 is no longer input, generates a second time measurement value, and the second time measurement value is the second time measurement value. When the set value is exceeded, a failure occurrence detection signal S22 is output. The switch 23 outputs the switching signal S23 when the failure occurrence detection signal S22 is output. The failure occurrence client unit 24 is activated when the switching signal S23 is output and receives predetermined services from the failure occurrence server unit 15 all at once. The CPU 25 is connected to the client 20 ₁ Control the whole. A control program for operating the CPU 25 is recorded in the ROM 26. Client 20 ₂ , ..., 20 _n Client 20 ₁ It is the same composition as.
[0019]
Next, operations (1) and (2) of the client / server system of this embodiment will be described.
(1) Operation during normal driving
During normal driving, the server 10 and the client 20 ₁ Then, the communication processing is performed by the normal traveling server unit 11 and the individual inquiry client unit 21, respectively. In this communication process, the client 20 ₁ Information required in accordance with the processing in is requested from the server 10 when it becomes necessary. In the server 10, the client 20 ₁ After the requested information is received from the client 20, the data of the content of the requested information is transferred to the client 20 by unicast communication. ₁ The operation of replying to is repeated. Further, during the normal running, the server 10 periodically outputs the first time measurement value S12 from the timer 12, and the first time measurement value S12 is recorded in the nonvolatile storage device 5. This recording is performed by checking the time recorded in the nonvolatile storage device 13 when the failure occurs, so that the client 20 ₁ This is done to know the time when the response to is disabled. By using the non-volatile storage device 13, processing is performed not only in an inoperable state due to a stop of some functions of the server 10 but also when the server 10 recovers from a failure and restarts, including the time required for recovery. You can know the impossible time.
[0020]
(2) Operation when a failure occurs
It is assumed that a failure occurs in the server 10 or the network 30 and a state in which a response cannot be obtained with respect to the inquiry from the individual inquiry client unit 21 to the normal running server unit 11 occurs. At this time, the client 20 ₁ Then, the individual inquiry client unit 21 is retried with respect to the server unit 11 for normal driving, and the time when the communication process with the server 10 is disabled by the timer 22 is measured, and a fixed time ( For example, when a failure occurrence of 60 seconds) or more is detected, a failure occurrence detection signal S22 is output and the switching signal S23 is output from the switch 23, and the failure occurrence client unit 24 is activated and a failure occurs. Can be switched to The failure occurrence client unit 24 waits for transmission of recovery data by the failure occurrence server unit 15 by broadcasting.
[0021]
In the server 10, the activation device 14 detects that the failure occurrence time has exceeded a certain time, and the failure occurrence server unit 15 is activated. Then, the recovery data is transmitted from the failure occurrence server unit 15 by broadcast according to a predetermined method. For example, when the Internet protocol is used, the predetermined method is a predetermined broadcast address, port, and data format to be transmitted. Client 20 ₁ Then, the restoration data transmitted from the failure occurrence server unit 15 is received by the failure occurrence client unit 24 and the restoration process is started. Client 20 ₂ , ..., 20 _n But client 20 ₁ The same processing is performed.
[0022]
As described above, the first embodiment has the following advantages.
(A) When a failure occurs in the server 10, the client 20 ₁ , 20 ₂ , ..., 20 _n By performing the data transmission process only once by broadcasting from the failure occurrence server unit 15 without individually responding to all the clients to be responded to, all the objects to be responded It is possible to perform a primary level recovery from a failure for a client. Therefore, when recovering from a failure, the load on the server 10 and the network 30 is reduced.
(B) When a failure occurs in the server 10, the client 20 ₁ , 20 ₂ , ..., 20 _n Of these, all the clients to be responded do not need to wait for individual recovery according to the capability of the server 10. Therefore, in each client, the recovery time from the failure state to the primary level is shortened.
(C) When a failure occurs in the server 10 for a certain time or longer, the client 20 ₁ , 20 ₂ , ..., 20 _n In this case, since the failure occurrence client unit 24 is activated and processing is performed, the individual inquiry client unit 21 does not retry the server 10. Therefore, the load on the network 30 in which a failure has occurred is reduced.
[0023]
Second embodiment
FIG. 2 is a block diagram showing an electrical configuration of a client / server system according to the second embodiment of the present invention. Elements common to the elements in FIG. 1 showing the first embodiment are denoted by common reference numerals. Is attached.
The client / server system of this embodiment is different from the first embodiment described above in the following points. That is, the client 20 in FIG. ₁ , 20 ₂ , ..., 20 _n Instead of the client 20A having a different configuration ₁ , ..., 20A _n Is provided. Client 20A ₁ Then, client 20 ₁ The internal timer 22 and the switch 23 are deleted, and the individual inquiry client unit 21 is individually configured to receive a predetermined service from the server 10 during normal traveling, but does not output the service reception signal S21. Further, the failure occurrence client unit 24 is configured to always receive a predetermined service from the failure occurrence server unit 15 all at once. Client 20A ₂ , ..., 20A _n Client 20A ₁ It is the same composition as. The other configuration is the same as that shown in FIG.
[0024]
The operation of the client / server system of this embodiment is different from that of the first embodiment in the following points. In other words, the failure occurrence client unit 24 always waits for a broadcast transmission from the failure occurrence server unit 15 when a failure occurs. In this case, however, there is no mechanism for controlling and stopping the processing in the individual inquiry client unit 21 when a failure occurs. Therefore, if the timeout process is not performed, the individual inquiry client unit 21 is recovered by unicast communication. Will continue to step on. Thereby, the load on the network 30 is not reduced until the server 10 is restored, but the client 20A ₁ 20A ₂ , ..., 20A _n May have a simple structure.
[0025]
As described above, in the second embodiment, the client 20 ₁ 20A ₂ , ..., 20A _n Since the internal timer 22 and switch 23 are eliminated, there is an advantage according to the first embodiment with a relatively simple configuration.
[0026]
Third embodiment
FIG. 3 is a block diagram showing an electrical configuration of a client / server system according to the third embodiment of the present invention. Elements common to the elements in FIG. 1 showing the first embodiment are denoted by common reference numerals. Is attached.
The client / server system of this embodiment is different from the first embodiment described above in the following points. That is, the server 10 and the client 20 in FIG. ₁ , 20 ₂ , ..., 20 _n Instead of the server 10B and the client 20B having different configurations ₁ 20B ₂ , ..., 20B _n Is provided.
[0027]
In the server 10B, the timer 12 and the non-volatile storage device 13 in the server 10 are deleted, and a failure occurrence inquiry reception unit 18 is provided. The inquiry reception unit 18 at the time of failure occurrence is based on the number of queries per unit time given to the client 20B. ₁ 20B ₂ , ..., 20B _n The number of clients S18 that need to provide a predetermined service is measured. The activation device 14 outputs an activation signal S14 when the number of clients S18 exceeds the first set value. Client 20B ₁ Then, client 20 ₁ A fault occurrence client unit 27 is provided. The failure occurrence client unit 27 is activated when the switching signal S23 is output, and receives a predetermined service from the failure occurrence server unit 15 all at once. Client 20B ₂ , ..., 20B _n Client 20B ₁ It is the same composition as. The other configuration is the same as that shown in FIG.
[0028]
The operation of the client / server system of this embodiment is different from that of the first embodiment in the following points.
That is, the client 20B ₁ Then, when a state in which communication with the server 10 is disabled occurs, the client unit 24 is activated when a failure occurs and the inquiry unit 27 when a failure occurs is activated. Communication is performed regularly. Client 20B ₂ , ..., 20B _n But client 20B ₁ The same processing is performed. In the server 10B, the number of clients S18 that need to transmit the data for immediate recovery is measured based on the number of inquiries to the inquiry reception unit 18 at the time of failure occurrence per unit time. When the number of clients S18 is equal to or greater than the first set value, the failure recovery server unit 15 starts a quick recovery process by broadcast communication.
[0029]
The number of clients S18 is the client 20B ₁ 20B ₂ , ..., 20B _n This is based on the actual number of queries from, and is more accurate than that estimated from experience and statistical values. Therefore, the server 10B to the client 20B ₁ 20B ₂ , ..., 20B _n When performing communication for recovery to the client 20B from the normal travel time server unit 11 by unicast communication ₁ 20B ₂ , ..., 20B _n It can be accurately determined which is advantageous in terms of cost and effect between the case where it is performed individually and the case where it is performed all at once by broadcast from the failure occurrence server unit 15.
[0030]
As described above, in the third embodiment, the failure occurrence inquiry reception unit 18 and the failure occurrence inquiry unit 27 are provided so that the accurate client count S18 is output from the failure occurrence inquiry reception unit 18. Therefore, the server 10B to the client 20B ₁ 20B ₂ , ..., 20B _n It is possible to accurately determine which is advantageous in terms of cost and effectiveness in cases where communication for recovery is performed individually and in a case where communication is performed simultaneously.
[0031]
Fourth embodiment
FIG. 4 is a block diagram showing an electrical configuration of a client / server system according to the fourth embodiment of the present invention. Elements common to the elements in FIG. 1 showing the first embodiment are denoted by common reference numerals. Is attached.
The client / server system of this embodiment is different from the first embodiment described above in the following points. That is, instead of the server 10 in FIG. 1, a server 10C having a different configuration is provided. In the server 10C, the timer 12 and the non-volatile storage device 13 in the server 10 are deleted, and a normal travel server unit 11A having different functions is provided instead of the normal travel server unit 11. The server unit 11A for normal traveling is used by the client 20 during normal traveling. ₁ , 20 ₂ , ..., 20 _n A predetermined service individually for each client and the client 20 ₁ , 20 ₂ , ..., 20 _n The number of communication requests sent out from the unit is measured per unit time, and the measurement result S11A is output. The activation device 14 outputs an activation signal S14 when the measurement result S11A exceeds the first set value. The other configuration is the same as that shown in FIG.
[0032]
The operation of the client / server system of this embodiment is different from that of the first embodiment in the following points. In other words, when the individual inquiry client unit 21 becomes unable to communicate with the server 10C, the individual inquiry client unit 21 continues to retry periodically without timing out. In the server 10C, the communication request is received from the individual inquiry client unit 21 by the normal traveling server unit 11A, the number of communication requests per unit time is measured, and the measurement result S11A is output. The measurement result S11A is input to the activation device 14, and when the measurement result S11A exceeds the first set value, the activation signal S14 is output and the server unit 15 is activated when a failure occurs. Other operations are the same as those in the first embodiment.
[0033]
As described above, in the fourth embodiment, since the timer 12 and the nonvolatile storage device 13 in the server 10 are deleted in the server 10C, the configuration according to the first embodiment is relatively simple. There are advantages.
[0034]
Fifth embodiment
FIG. 5 is a block diagram showing an electrical configuration of a client / server system according to the fifth embodiment of the present invention. FIG. 5 shows the second embodiment, and FIG. 4 shows the fourth embodiment. Elements common to these elements are denoted by common reference numerals.
The client / server system of this form is different from the above-described fourth embodiment in the following points. That is, the client 20 in FIG. ₁ , 20 ₂ , ..., 20 _n Instead of the client 20A in FIG. ₁ , 20 ₂ , ..., 20A _n Is provided. The other configuration is the same as that of FIG.
[0035]
In the operation of the client server system in this form, the server 10C performs the same operation as in the fourth embodiment, and the client 20A ₁ , 20 ₂ , ..., 20A _n Then, the same operation as in the second embodiment is performed.
[0036]
As described above, in the fifth embodiment, like the second and fourth embodiments, there is an advantage according to the first embodiment with a relatively simple configuration.
[0037]
Sixth embodiment
In this embodiment, when multiple types of clients are connected to the server, or when different recovery data is required depending on the status of each client, the server can perform multiple types of recovery for each client. An example in the case where it is necessary to transmit business data will be described.
For example, in the first embodiment, the failure occurrence server unit 15 in FIG. ₁ , 20 ₂ , ..., 20 _n In the case of providing a plurality of types of services corresponding to the above, the data type identification code (for example, the data type ID) is added to each transmission data for providing these services, multiplexed, and transmitted simultaneously. ing. Client 20 ₁ , 20 ₂ , ..., 20 _n Is configured to identify and capture the necessary transmission data based on the data type ID.
[0038]
FIG. 6 is a configuration diagram illustrating an example of transmission data for providing a service.
With reference to this figure, the operation of the client / server system of this embodiment will be described.
When transmitting a plurality of types of recovery data, the failure occurrence server unit 15 sequentially transmits all the required types of recovery data through one communication channel for broadcast when a failure occurs. At this time, as shown in FIG. 6, by including the data type ID in the transmission data, the client unit 24 at the time of failure occurrence receives only the necessary data by identifying the data type based on the data type ID. Data that is processed and not needed is discarded. A predetermined data start identifier and a data length are added to the transmission data depending on the communication method used. When a data start identifier and data length are added to transmission data, it becomes possible to multiplex multiple types of data, and even for communication paths where data is handled as a stream instead of a packet, multiple types of data can be recovered. Data can be transmitted by broadcast. In this case, the client 20 ₁ , 20 ₂ , ..., 20 _n Correspondences between all types of recovery data and data type IDs required for recovery and the contents of transmitted data must be determined in advance.
[0039]
As described above, in the sixth embodiment, the failure occurrence server unit 15 adds the data type ID to each transmission data, and the client 20 ₁ , 20 ₂ , ..., 20 _n Since the transmission data is identified based on the data type ID, a plurality of types of recovery data can be transmitted smoothly.
[0040]
Seventh embodiment
In this embodiment, as in the sixth embodiment, another example in which the server needs to transmit a plurality of types of recovery data to each client will be described. For example, in the first embodiment, the failure occurrence server unit 15 in FIG. ₁ , 20 ₂ , ..., 20 _n When a plurality of types of services corresponding to the above are provided, different communication numbers are added to the transmission data for providing these services, and the data are transmitted all at once. Client 20 ₁ , 20 ₂ , ..., 20 _n The communication numbers are associated with each other, and the transmission data corresponding to the communication number is captured.
[0041]
In the client / server system of this embodiment, when the recovery data is transmitted, the broadcast or multicast address differs depending on the type of the recovery data. For example, by using different port numbers in UDP / IP (User Datagram Protocol / Internet Protocol), a plurality of types of recovery data can be handled. In this case, the client 20 ₁ , 20 ₂ , ..., 20 _n It is necessary to predetermine the correspondence between all types of recovery data required for recovery and broadcast addresses to be used and the contents of transmitted data.
[0042]
As described above, in the seventh embodiment, the failure occurrence server unit 15 adds different communication numbers to the transmission data, and the client 20 ₁ , 20 ₂ , ..., 20 _n Since the transmission data corresponding to these communication numbers is taken in, a plurality of types of recovery data can be transmitted smoothly.
[0043]
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and the present invention can be changed even if there is a design change or the like without departing from the gist of the present invention. include. For example, the broadcast communication in each embodiment may be any means as long as communication is performed simultaneously from a single server to a plurality of clients, such as multicast communication. In addition, each embodiment has been described on the assumption that a failure occurs. However, the embodiments can be applied to cases other than when a failure occurs. That is, when the same data is requested from a plurality of clients to the server, the data transmission process normally performed by individual communication is switched to simultaneous communication, and is redundant for the server and the network, that is, the same Data transmission is avoided. Further, the failure occurrence client unit 27 in FIG. 3 showing the third embodiment may receive a predetermined service from the failure occurrence server unit 15 all at once. In FIG. 3, the client unit 10 may be always activated when a failure occurs. In the sixth and seventh embodiments, the example of transmitting a plurality of types of recovery data is applied to the client / server system of the first embodiment. However, the present invention can be similarly applied to other embodiments.
[0044]
【The invention's effect】
As described above, according to the configuration of the first aspect of the present invention, the server is configured to provide a predetermined service to each client simultaneously when a request for the same service is generated from each client. Therefore, redundant processing and communication can be avoided.
[0045]
According to the configuration of the invention described in claim 2, when a failure occurs in the server, the failure occurrence server unit does not individually respond to all the clients to be responded among the clients. By performing the data transmission process only once by broadcasting, it is possible to perform a primary level recovery from a failure for all clients to be responded to. Therefore, when recovering from a failure, the load on the server and the network can be reduced. When a failure occurs in the server, all of the clients to be responded among the clients do not need to wait for individual recovery according to the server capabilities. Therefore, each client can reduce the recovery time from the failure state to the primary level. When the occurrence of a failure in the server exceeds a certain time, each client starts the failure occurrence client unit and performs processing, so that the individual inquiry client unit does not retry the server. Therefore, it is possible to reduce the load on the network in which a failure has occurred.
[0046]
According to the configuration of the invention described in claim 3, since the timer and the switch in each client are deleted, an effect similar to the effect of the invention described in claims 1 and 2 can be obtained with a relatively simple configuration. .
[0047]
According to the configuration of the invention described in claim 4, since the failure occurrence inquiry reception unit and the failure occurrence inquiry unit are provided, and the accurate number of clients is output from the failure occurrence inquiry reception unit. It is possible to accurately determine which is advantageous in terms of cost and effectiveness in cases where communications for recovery to the clients are performed individually and simultaneously.
[0048]
According to the configuration of the invention described in claim 5, since the timer and the non-volatile storage device in the server are deleted, an effect similar to the effect of the invention described in claims 1 and 2 is obtained with a relatively simple configuration. It is done.
[0049]
According to the configuration of the invention described in claim 6, as in the inventions described in claims 3 and 5, an effect similar to the effect of the invention described in claims 1 and 2 can be obtained with a relatively simple configuration.
[0050]
According to the configuration of the seventh aspect of the invention, the failure occurrence server unit adds the data type identification code to each transmission data, and each client identifies the transmission data based on the data type identification code. Therefore, multiple types of recovery data can be transmitted smoothly.
[0051]
According to the configuration of the eighth aspect of the invention, the server unit for failure occurrence adds a different communication number to each transmission data, and each client takes in the transmission data corresponding to these communication numbers. Multiple types of recovery data can be transmitted smoothly.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a client / server system according to a first embodiment of the present invention;
FIG. 2 is a block diagram showing an electrical configuration of a client / server system according to a second embodiment of the present invention;
FIG. 3 is a block diagram showing an electrical configuration of a client / server system according to a third embodiment of the present invention;
FIG. 4 is a block diagram showing an electrical configuration of a client / server system according to a fourth embodiment of the present invention;
FIG. 5 is a block diagram showing an electrical configuration of a client / server system according to a fifth embodiment of the present invention;
FIG. 6 is a block diagram showing an example of transmission data for providing a service according to a sixth embodiment of the present invention.
[Explanation of symbols]
10, 10B, 10C server
11 Server part for normal driving
12,22 timer
13 Nonvolatile storage device
14 Starter
15 Server part for failure
17, 26 Recording medium (ROM)
18 Inquiry reception department at the time of failure occurrence
20 ₁ , 20 ₂ , ..., 20 _n client
20A ₁ 20A ₂ , ..., 20A _n client
20B ₁ 20B ₂ , ..., 20B _n client
21 Individual inquiry client section
23 selector
24 Client part for failure
27 Client part for failure
30 network

Claims (7)

Client server comprising one or more servers for providing a predetermined service to a plurality of clients, a plurality of clients receiving the predetermined service from the server, and a network to which the server and the client are connected A system,
The server
A server unit for normal driving that provides the predetermined service individually to the clients during normal driving;
A first timer that periodically outputs a first time measurement value;
A nonvolatile storage device for storing the first time measurement value;
An activation device that inputs the first time measurement value stored in the nonvolatile storage device and outputs an activation signal when the first time measurement value exceeds a first set value;
A failure occurrence server unit that is activated when the activation signal is output and provides the predetermined service all at once to all or a part of the clients;
Each client is
An individual inquiry client unit that individually receives the predetermined service from the server during the normal driving and outputs a service reception signal, and stops operation when a given switching signal is input;
The service reception signal is input, the time is measured from when the service reception signal is not input, and a second time measurement value is generated, and the second time measurement value exceeds the second set value. A second timer that sometimes outputs a failure detection signal;
A switch that outputs the switching signal when the failure occurrence detection signal is output;
A client / server system comprising: a failure occurrence client unit that is activated when the switching signal is output and receives the predetermined service simultaneously from the failure occurrence server unit. Client server comprising one or more servers for providing a predetermined service to a plurality of clients, a plurality of clients receiving the predetermined service from the server, and a network to which the server and the client are connected A system,
The server
A server unit for normal driving that provides the predetermined service individually to the clients during normal driving;
A timer that periodically outputs time measurements,
A nonvolatile storage device for storing the time measurement value;
An activation device that inputs the time measurement value stored in the nonvolatile storage device and outputs an activation signal when the time measurement value exceeds a set value;
A failure occurrence server unit that is activated when the activation signal is output and provides the predetermined service all at once to all or a part of the clients;
Each client is
An individual inquiry client unit that individually receives the predetermined service from the server during the normal travel;
A client / server system comprising a failure occurrence client unit that constantly receives the predetermined service from the failure occurrence server unit all at once. Client server comprising one or more servers for providing a predetermined service to a plurality of clients, a plurality of clients receiving the predetermined service from the server, and a network to which the server and the client are connected A system,
The server
A server unit for normal driving that provides the predetermined service individually to the clients during normal driving;
A failure occurrence inquiry reception unit that measures the number of clients that need to provide the predetermined service among the clients, based on the number of times of a given inquiry per unit time;
An activation device that outputs an activation signal when the number of clients exceeds a first set value;
A failure occurrence server unit that is activated when the activation signal is output and provides the predetermined service all at once to all or a part of the clients;
Each client is
An individual inquiry client unit that individually receives the predetermined service from the server during the normal driving and outputs a service reception signal, and stops operation when a given switching signal is input;
The service reception signal is input, the time is measured from when the service reception signal is not input, and a time measurement value is generated. When the time measurement value exceeds the second set value, a failure occurrence detection signal A timer that outputs
A switch that outputs the switching signal when the failure occurrence detection signal is output;
A failure occurrence client unit that simultaneously receives the predetermined service from the failure occurrence server unit;
A client / server system comprising a failure occurrence inquiry unit that is activated when the switching signal is output and periodically makes an inquiry to the failure occurrence inquiry reception unit. Client server comprising one or more servers for providing a predetermined service to a plurality of clients, a plurality of clients receiving the predetermined service from the server, and a network to which the server and the client are connected A system,
The server
A server unit for normal driving that provides the predetermined service to each client individually during normal driving and measures the number of communication requests transmitted from the client per unit time;
An activation device that outputs an activation signal when the number of communication requests exceeds a first set value;
A failure occurrence server unit that is activated when the activation signal is output and provides the predetermined service all at once to all or a part of the clients;
Each client is
An individual inquiry client unit that sends the communication request to the server unit for normal running, receives the predetermined service individually, and outputs a service reception signal;
The service reception signal is input, the time is measured from when the service reception signal is not input, and a time measurement value is generated. When the time measurement value exceeds the second set value, a failure occurrence detection signal A timer that outputs
A switch that outputs the switching signal when the failure occurrence detection signal is output;
A client / server system comprising: a failure occurrence client unit that is activated when the switching signal is output and receives the predetermined service simultaneously from the failure occurrence server unit. Client server comprising one or more servers for providing a predetermined service to a plurality of clients, a plurality of clients receiving the predetermined service from the server, and a network to which the server and the client are connected A system,
The server
A server unit for normal driving that provides the predetermined service to each client individually during normal driving and measures the number of communication requests transmitted from the client per unit time;
An activation device that outputs an activation signal when the number of communication requests exceeds a first set value;
A failure occurrence server unit that is activated when the activation signal is output and provides the predetermined service all at once to all or a part of the clients;
Each client is
An individual inquiry client unit that sends the communication request to the server unit for normal running and receives the predetermined service individually;
A client / server system comprising: a client unit for failure occurrence that simultaneously receives the predetermined service from the server portion for failure occurrence.   6. A recording medium in which a control program for causing a computer to function as the server unit for normal running and the server unit for fault occurrence according to claim 1, is recorded.   6. A recording medium in which a control program for causing a computer to function as the individual inquiry client unit and the failure occurrence client unit according to claim 1, 2, 3, 4, or 5 is recorded.

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