JPH05298270A - Data transmission method - Google Patents

Abstract

PURPOSE:To make a data transmission without taking into account the state of the transmission destination in transmitting data from one data transmission system to the other system. CONSTITUTION:When a server computer 211 sets the data of the state pattern in service to '01', it stores the data. When a client computer 310 is required to store data in the database 221, it adds data '01' as the data of patterns specifying transmission destination to the transmission data at its transmission. The server computer 211 compares the contents of state pattern data with data sent from the client computer 310 transmitted from the client computer 310. At the time of coincidence, the data are stored in the database 221.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission method,
In particular, it relates to a data transmission method suitable for exchanging data between a plurality of server data transmission devices and a plurality of client data transmission devices, for example, a multi-computer system and a broadcast or multicast transmission network in a distributed network system. The present invention relates to a system that is effectively used for transmitting and receiving data to and from a client computer system that is connected via.

[0002]

2. Description of the Related Art A multi-computer system in a distributed network system has two main and sub-system server computers. The main-system server computer is used for online and the sub-system server computer is for backup. The configuration control used as is adopted. Each server computer accesses one of the databases according to the control content with respect to the pair of databases. When data is transmitted from the client computer side to such a server computer group, a method of inquiring the server computer group status from the client computer side to the server computer side before data transmission is performed, or by another means. A method of monitoring the status of the server computer group and transmitting data to the server computer group according to the monitoring result is adopted. Assuming that this type of transmission method is adopted,
For example, JP-A-63-209345 and JP-A-3-209345
The thing described in the 175561 gazette is mentioned.

[0003]

In the above-mentioned prior art, the client computer, which is the transmission source, inquires about the state of the destination multi-computer system and monitors the state of the destination multi-computer system in addition to the original data transmission. Data transmission was required. Moreover, the client computer side must always perform data transmission while being aware of the state of the multi-computer system side. That is, when the state of the multi-system computer side changes, for example, when one server computer fails and operation is performed only by the backup server computer, switching of the system on the multi-computer system side is performed. It is forced to interrupt the data transmission while it is taking place.

An object of the present invention is to provide a data transmission method capable of transmitting data from one data transmission system to another data transmission system without considering the state of the destination. Especially.

[0005]

To achieve the above object, the present invention provides, as a first method, a plurality of server data transmission devices and a plurality of client data transmission devices via a data transmission path. When connecting and exchanging data between the data transmission device for each server and the data transmission device for each client, the data transmission device for each server changes to the operating state of each data transmission device for each server according to its operating state. Stores the data of the corresponding status pattern sequentially, and when sending data from each client data transmission device to the specified server data transmission device, the destination specified pattern corresponding to the status pattern of the specified server data transmission device Data is added to the transmission data and transmitted, and each server data transmission device receives the transmission data from the client data transmission device. At this time, the data transmission method is characterized in that the data of the destination designation pattern added to this transmission data is compared with the data of the stored state pattern, and the reception data is processed from this comparison result. is there.

As a second method, a plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and each server data transmission device and each client data transmission device are connected. When exchanging data between servers, each server data transmission device sequentially stores the data of the state pattern corresponding to the operation state of each server data transmission device according to the operation state, and the data transmission device for each client transmits the data. When transmitting data to the designated server data transmission device, the data of the designated destination pattern corresponding to the status pattern of the designated server data transmission device is added to the transmission data and transmitted. When the client receives the transmission data from the client data transmission device, the destination designation pattern added to this transmission data Comparing the data with the data stored state pattern is obtained by employing a data transmission method for, characterized in that processing the data received only when both data coincide as valid data.

As a third method, a plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and each server data transmission device and each client data transmission device are connected. When exchanging data between servers, each server data transmission device sequentially stores the data of the state pattern corresponding to the operation state of each server data transmission device according to the operation state, and the data transmission device for each client transmits the data. When transmitting data to the specified server data transmission device, the data of the destination specified pattern corresponding to the status pattern of the specified server data transmission device is added to the transmission data for transmission and the added data is stored. , When each server data transmission device receives the transmission data from the client data transmission device, this transmission data The data of the added destination designation pattern is compared with the stored data of the destination designation pattern, and the received data is processed as valid data only when the both data match, and the stored destination is stored. The specified pattern data is added to the response data and transmitted to the client data transmission device side, and the client data transmission device that received the response data has the destination specified pattern data added to the response data and the stored status pattern. The data transmission method is characterized in that the delivery of the transmission data is determined from the comparison result.

As a fourth method, a plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and each server data transmission device and each client data transmission device are connected. When exchanging data between servers, each server data transmission device sequentially stores the data of the state pattern corresponding to the operation state of each server data transmission device according to the operation state, and the data transmission device for each client transmits the data. When sending data to the specified server data transmission device, the data of the specified destination pattern corresponding to the status pattern of the specified server data transmission device is added to the transmission data and transmitted, and a response is sent from the time the transmission data is sent. The time until the data is received is measured, and when this time exceeds the set time, the data of the destination specified pattern is When the server data transmission device retransmits the transmission data added with, and when each server data transmission device receives the transmission data from the client data transmission device, it is stored as the data of the destination designation pattern added to this transmission data. Compare with the data of the state pattern, determine whether the data received only when both data match, is the data received again, and check the data received only when a negative determination result is obtained. The data transmission method is characterized in that it is processed as valid data.

As a fifth method, a plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and each server data transmission device and each client data transmission device are connected. When exchanging data between servers, each server data transmission device sequentially stores the data of the state pattern corresponding to the operation state of each server data transmission device according to the operation state, and the data transmission device for each client transmits the data. When sending data to the specified server data transmission device, the data of the specified destination pattern corresponding to the status pattern of the specified server data transmission device is added to the transmission data and transmitted, and a response is sent from the time the transmission data is sent. The time until the data is received is measured, and when this time exceeds the set time, the data of the destination specified pattern is When the server data transmission device retransmits the transmission data added with, and when each server data transmission device receives the transmission data from the client data transmission device, it is stored as the data of the destination designation pattern added to this transmission data. Compare with the data of the state pattern, determine whether the data received only when both data match, is the data received again, and check the data received only when a negative determination result is obtained. In addition to processing as valid data, the stored data of the specified destination pattern is added to the response data and transmitted to the client data transmission device side, and the client data transmission device that received the response data is added to the response data. The data of the specified transmission destination pattern is compared with the stored data of the specified transmission destination pattern, and the transmission data is It is obtained by employing the data transmission method of the pattern to judge us.

As a sixth method, a plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and each server data transmission device and each client data transmission device are connected. When exchanging data between servers, each server data transmission device sequentially stores the data of the state pattern corresponding to the operation state of each server data transmission device according to the operation state, and each client data transmission device Depending on the operating state, the data of the destination designation pattern corresponding to the operating state of each client data transmission device is sequentially stored, and when data is transmitted from each client data transmission device to the designated server data transmission device. , Add the data of the destination specified pattern corresponding to the status pattern of the specified server data transmission device to the transmission data When each server data transmission device receives the transmission data from the client data transmission device, the data of the destination designation pattern added to this transmission data is compared with the stored status pattern data. Then, the received data is processed from this comparison result, and when the data is transmitted from each server data transmission device to the designated client data transmission device, the destination designation pattern corresponding to the designated client data transmission device. When the client data transmission device receives the transmission data from the server data transmission device, the data is stored as the destination designation pattern data added to the transmission data. Data that is processed by comparing the data of the specified destination pattern and processing the received data from the comparison result. It is obtained by adopting the delivery method.

As a seventh method, a plurality of server computers that access at least one of the plurality of memories and a plurality of client computers are connected via a data transmission path, and each server computer is connected to the other computer. When exchanging data with each client computer, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer sends the data. When transmitting data to the specified server computer, the data of the destination specified pattern corresponding to the status pattern of the specified server computer is added to the transmission data and transmitted, and each server computer sends the data from the client computer. When the transmission data is received, the data of the destination designation pattern added to this transmission data and the stored status pattern Comparing the emissions data is obtained by employing the data transmission method of wherein the processing the received data from the comparison result.

As an eighth method, a plurality of server computers that access at least one of the plurality of memories and a plurality of client computers are connected via a data transmission path, and each server computer is connected to the other computer. When exchanging data with each client computer, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer sends the data. When transmitting data to the specified server computer, the data of the destination specified pattern corresponding to the status pattern of the specified server computer is added to the transmission data and transmitted, and each server computer sends the data from the client computer. When the transmission data is received, the data of the destination designation pattern added to this transmission data and the stored status pattern Comparing the emissions data is obtained by employing the data transmission method of wherein the processing the received data from the comparison result.

As a ninth method, a plurality of server computers that access at least one of the plurality of memories and a plurality of client computers are connected via a data transmission path, and each server computer is connected to the other computer. When exchanging data with each client computer, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer sends the data. When sending data to the specified server computer, the data of the destination specified pattern corresponding to the status pattern of the specified server computer is added to the transmission data and transmitted, and the added data is stored and stored for each server. When the computer receives the transmission data from the client computer, the destination designation pattern added to this transmission data And the stored status pattern data are compared, the received data is processed as valid data only when the both data match, and the stored destination specified pattern data is added to the response data. Then, the client computer that received the response data compares the data of the destination designation pattern added to the response data with the data of the stored destination designation pattern, and from this comparison result The data transmission method is characterized by determining the delivery of transmission data.

As a tenth method, a plurality of server computers that access at least one of the plurality of memories and a plurality of client computers are connected via a data transmission path, and each server computer is connected to the other computer. When exchanging data with each client computer, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer sends the data. When sending data to the specified server computer, the data of the specified destination pattern corresponding to the status pattern of the specified server computer is added to the send data for transmission and the response data is received from the time the send data is sent. Until the specified time is exceeded, the data of the destination specified pattern is added. When the server computer receives the transmission data from the client computer, it compares the destination specified pattern data added to this transmission data with the stored status pattern data. However, it is determined whether the received data is re-received data only when both data match, and the received data is processed as valid data only when a negative determination result is obtained. The data transmission method characterized by is adopted.

As an eleventh method, a plurality of server computers that access at least one of the plurality of memories and a plurality of client computers are connected via a data transmission path, and each server computer is connected to the other computer. When exchanging data with each client computer, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer The status pattern data corresponding to the operating status of each client computer is sequentially stored according to the operating status, and the status of the specified server computer is sent when each client computer sends the data to the specified server computer. The data of the destination specified pattern corresponding to the pattern is added to the transmission data and transmitted, and each server computer When the transmission data from the client computer is received, the data of the destination designation pattern added to this transmission data is compared with the data of the stored status pattern, and the reception data is processed from this comparison result. , When sending data from each server computer to the specified client computer, the data of the destination specified pattern corresponding to the status pattern of the specified client computer is added to the transmission data and transmitted. When the server receives the transmission data from the server computer,
The data transmission method is characterized in that the data of the destination designation pattern added to the transmission data is compared with the data of the stored state pattern, and the reception data is processed from the comparison result.

[0016]

According to the above-mentioned means, the data of the status pattern indicating the operating state of the server-side data transmission system and the client are used as an agreement when data is transferred between the server-side data transmission system and the client-side data transmission system. The data of the destination designation pattern added to the transmission data by the side data transmission system are set in association with each other. Then, the server-side data transmission system sequentially stores the data of the state pattern corresponding to this operating state according to the operating state, while the client-side data transmission system corresponds to the state pattern of the destination server-side data transmission system. The data of the destination designation pattern is added to the transmission data and transmitted. The data of the destination designation pattern is used to determine whether or not the data needs to be received by the server-side data transmission system. Further, even if the system is switched in the server-side data transmission system, the data of the state pattern in the server-side data transmission system is stored according to the operating state according to the switching state of the system. Therefore, data is transferred from the client-side data transmission system to the server-side data transmission system not only when the server-side data transmission system is in a normal state but also when the server-side data transmission system is being switched. At the time of transmission, the data can be transmitted without considering the state of the server side data transmission system. Then, the server-side data transmission system may process the data by judging whether or not the received data is data that specifies the server-side data transmission system of its own system. In the client-side data transmission system, which server-side data transmission system has sent the data by comparing the data added to the response data transmitted from the server-side data transmission system with the data at the time of transmission. Can be determined.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows a basic configuration when the present invention is applied to a client / server type network system using a dual load share / duplex computer system as a database server. In FIG. 1, the database server system 200 is configured as a server data transmission device.
0 is connected to a transmission network 1 having broadcast or multicast transmission means. A plurality of client computers 310, 320, ... 3n0 constituting a client data transmission device are connected to the transmission network 1. Each of the client computers 310 to 3n0 transmits data to the transmission network 1 to access the database server system 200. The database server system 200 includes two server computers 211 and 212 and databases 221 and 222 shared by the computers. In each of the server computers 211 and 212, normally, one computer serves the database 221 and the other computer serves the database 222. Then, when one of the two computers fails, the other takes over the service of the failed computer and employs configuration control in which the services of the two databases 221 and 222 are provided.

FIG. 2 shows a computer 22 based on this configuration control.
1 and 222, the transitions of the service states of the databases 221 and 222 are shown. That is, when the system is switched in the normal state A, the state is changed to the state B, and the database 22 of each computer is used.
The services for 1, 222 are switched. When the computer 212 fails in the state A, the server computer 211 serves both databases 221, 222 as shown in the state C. Further, when the server computer 211 fails in the state A, the server computer 212 serves both databases 221, 222 as shown in the state D. When a normal computer fails in the state C or the state D, the services for the databases 221 and 222 are disabled.

Here, in this embodiment, considering that the state of the database server system 200 changes to the state as shown in FIG. 2, each server computer 211,
Data of a state pattern corresponding to the state of 212 is preset and, as shown in the following Table 1, state patterns corresponding to the states of the respective server computers 211 and 212 are sequentially stored in the server computers 211 and 212. I am trying. Further, when the data is transmitted from the client computers 310 to 3n0 to the database server system 200 side, the data of the destination designation pattern to be added to the transmission data is added in association with the status pattern. An example of this destination designation pattern is shown in Table 2 below.

[0020]

[Table 1]

[0021]

[Table 2]

In Table 1, when the database server system 200 is in the state A, the server computer 211
Provides the database 221 and the server computer 21
2 is in the state of servicing the database 222, the computer 211 stores “01” as the state pattern, and the server computer 212 has “10” as the state pattern.
Memorize When the database server system 200 is in the state B, the server computer 211 services the database 222 and the server computer 212 services the database 221, so that the server computer 211 stores “10” as the state pattern and the server computer 21.
2 stores “01” as the state pattern. On the other hand, when the database server system 200 is in the state C,
The server computer 211 has both databases 221 and 22.
In order to perform the second service, the server computer 211 stores “11” as the status pattern. Further, when the database server system 200 is in the state D, the server computer 212 services both databases 221, 222, so that the server computer 212 stores “11” as the state pattern. On the other hand, when each of the client computers 310 to 3n0 transmits data, Table 2
As shown in, when designating the database 221 as the destination database to store the data,
“01” is added to the transmission data as the data of the destination designation pattern, and “10” is added to the transmission data as the data of the destination designation pattern when the database 222 is designated as the database of the destination. Further, when both databases 221 and 222 are used as the destination databases, “11” is selected as the data of the destination designation pattern to be added to the transmission data, and the data of this destination designation pattern is set to be added to the transmission data. ing.

Next, the client computers 310 to 3n0
A data transmission method for storing the data transmitted from one computer in one of the databases 221 and 222 will be described with reference to FIGS. 3 and 4.

When the data transmitted from the client computer 310 is stored in the database 221 when the database server system 200 is in the state A, the client computer 310 selects "01" as the data of the destination designation pattern, and this data Is added to the transmission data (step S1). Then, this transmission data is transmitted to the transmission network 1 by broadcast or multicast (step S2). This completes the transmission of the client computer 310.

On the other hand, the database server system 200
On the side, the transmission data from the transmission network 1 is received (step S3). At this time, the server computer 211 determines whether or not the state pattern “01” and the data “01” of the destination designation pattern added to the transmission data match (step S4). Store the received data in the database 221 (step S
5). Then, the reception process by the server computer 211 ends. On the other hand, the server computer 212 compares the data "10" of the status pattern with the data "01" of the destination designation pattern added to the received data (step S4), discards the received data because the contents of both data do not match. Then (step S6), the reception process ends.

As described above, according to this embodiment, the client computer 310 to the database server system 20 can be used.
When transmitting data to 0, the server computers 211 and 21
Server computers 211, 2 without monitoring the status of 2
The transmission data can be stored in a specific database only by adding the data of the destination designation pattern corresponding to the 12 status patterns to the transmission data.

Although the data transmitted from the client computer 310 is stored in the database 221 has been described, when it is necessary to store the data only in the database 222, "10" is selected as the data of the destination designation pattern, When transmission data needs to be stored in both databases 221, 222, the transmission data can be stored in the designated database by selecting "11" as the data of the destination designation pattern.

When determining whether or not the data reception is necessary in the server computers 211 and 212, a determination method as shown in FIG. 5 can be adopted.

That is, the data of the destination designation pattern added to the received data and the server computers 211 and 21.
The logical product with the data of the state pattern of 2 is obtained. If the result of the logical product is “true”, data reception is required, and if the result is “false”, data reception is unnecessary. A determination process can be performed.

Specifically, when the data of the destination designation pattern added to the transmission data transmitted from the client computer is "01", and when the state of the database server system 200 is the state A and the state C, the server computer. The logical product with the data of the state pattern 211 is “true”, and the server computer 211 stores the received data in the database 221. On the other hand, when the state of the database server system 200 is the state B and the state D, the logical product with the state pattern data of the server computer 212 is “true”, and the received data is the database 2
21 will be stored. Also database 221
If you want to store the data in both the and 222, select "11" as the data to be added to the transmission data.
The state of the database server system 200 is state A,
In each state of B, C, D, each server computer 211,
The logical product with the data of the state pattern 212 is “true”, and the data is stored in both of the two databases 221 and 222.

As described above, according to this embodiment, when data is transmitted from the client computers 310 to 3n0 to the database server system 200, the server computer 2
The data can be transmitted by adding the data of the destination designation pattern to the transmission data without monitoring the states of 11 and 212, and the data can be stored in the designated database. Further server computers 211, 212
Even if the status of changes, the data can be stored in the specified database.

Next, when the client computer transmits data for storing the data in a specific database, the data transmission procedure until the delivery confirmation response is obtained from the database server system 200 is shown in FIGS. 6 and 7.
Follow the instructions below.

In this case, the database server system 200 side uses the state pattern data shown in Table 1, and the client computer side uses the destination designation pattern data shown in Table 2.

In order for the client computer 310 to store data in the database 221 when the database server system 200 is in the state A, the response pattern storage area in the memory of the client computer 310 is initialized (step S10). Next, the data of "01" is added to the transmission data as the data of the destination designation pattern corresponding to the state pattern "01" of the server computer 211 (step S11). Further, the status pattern data “01” of the destination computer is stored in the confirmation pattern storage area of the memory (step S12). After these processes are completed, the transmission data is broadcasted to the transmission network 1 (step S13). At the same time, the response monitoring timer of the client computer 310 is started (step S14).

By starting the response monitoring timer, the time from the transmission of the transmission data to the transmission of the data in response to the transmission data from the database server system 200 side is counted (step S15). On the other hand, at this time, the database server system 200 side receives data from the transmission network 1 as shown in FIG. 7 (step S20). It is compared whether or not the data of the destination designation pattern added to the received data and the data of the status pattern of the own computer match (step S2).
1). At this time, the server computer 211 stores the received data in the database 221, assuming that the data contents match. On the other hand, the server computer 212 discards the received data because the received data has different contents (step S2).
5). And the server computer 211 is the server computer 211
The response data is created by using the data "01" of the state pattern of "1" as the data of the destination designation pattern (step S2).
3). Then, this response data is returned to the client computer 310 side via the transmission network 1 (step S24).
This completes the reception process on the database server system 200 side.

On the other hand, on the client computer 310 side,
The time until the response data is received is measured, and when the response data is received before the measured time reaches the set time, the response data is stored in the response pattern storage area (step S16). Then, the state pattern data “01” stored in the response pattern storage area is compared with the destination designation pattern data “01” stored in the confirmation pattern storage area, and it is determined whether or not the contents of both match. Is performed (step S17). When the contents of both match, the response monitoring timer is stopped (step S18),
When the two contents are different, the process proceeds to step S15, and the process in this routine ends. If the time until the response data is received exceeds the set time in step S15, a transmission error process is executed (step S19). For example, the processing to the effect that there is a failure in the transmission network 1 or the like is performed, and the processing in this routine ends. When the response data is returned from the database server system 200 side, the response data may be transmitted to the transmission network 1 by broadcast or may be transmitted to a designated client computer by point-to-point transmission. ..

When storing the status pattern data in the response pattern storage area in step S16, as shown in FIG. 8, the status pattern data of the computer added to the response data and the response pattern storage area are stored in the response pattern storage area. It suffices to take the logical sum of the data of the response pattern and store the data according to this logical sum in the response pattern storage area. Further, in the determination processing of whether the reception of the response data is completed in step S17, as shown in FIG. 9, the data stored in the response pattern storage area and the data stored in the confirmation pattern storage area are exclusive. Logically or
The logical product of the data obtained by the exclusive OR and the data stored in the response pattern storage area is taken. If the result of the logical product is "false", the transmission is completed, and if the result is "true", it should be received. It can be judged that all the responses have been received. For example, when data is stored in the database 221, it is sufficient if the data of the response data received by the client computer 310 is a logical sum of “01”, and when data is stored in both the databases 221, 222, The logical sum of the data received by the client computer 310 should be "11". This process is the same regardless of which of the states A to D the database server system 200 is in. Therefore, the client computer 310 can send data for storing data to an arbitrary database without monitoring which server computer of the database server system 200 is serving which database, and It is possible to confirm delivery whether or not the transmitted data is stored in the designated database. Further, since the processing on the server computer 211, 212 side only needs to compare the data of the status pattern of its own computer and the data of the destination designation pattern added to the received data, the status of each server computer 211, 212 is Even if it changes, there is no need to change the process at all.

Next, a data transmission method including a process of recovering a transmission error due to data retransmission when the client computer transmits data for storing data in a specific database will be described with reference to FIGS. 10 and 11.

In this embodiment, a process for initializing the retry counter is added before the data transmission process on the client computer side, and when the time-out of the response monitoring timer is detected while waiting for the response data, the retry counter is detected. +1
It is updated by determining whether or not the count value of the counter has exceeded the number of retries. When the number of retries has not been exceeded, the data is retransmitted to the transmission network 1, and when the number of retries is exceeded, a transmission error is added. is there. Further, as reception processing on the server side, when data is received, processing to determine whether or not the received data is already received data is added to prevent double reception of the same data due to retransmission. In the case of data, the received data is not stored in the database, but only in the case of unreceived data, the received data is stored in the database. Specific processing will be described below.

When the state of the database server system 200 is A, the response pattern storage area is initialized when the transmission processing for storing from the client computer 310 to the database 221 is performed (step S3).
0), "01" is selected as the data of the state pattern when the data is stored in the database 221, and this data is added to the transmission data (step S31). Further, of the transmission data, the data "01" of the transmission designated pattern is stored in the confirmation pattern storage area (step S32).
After that, the retry counter is initialized (step S3).
3). After these processes are completed, the transmission data is transmitted to the transmission network 1 by broadcasting (step S34).
At this time, the response monitoring timer is activated (step S3).
5). By starting the response monitoring timer, the time from the transmission of the transmission data to the reception of the response data is measured (step S36).

On the other hand, the database server system 200
When the data is received from the transmission network 1 on the side (step S43), it is determined whether or not the data "01" of the destination designation pattern added to the received data and the data of the status pattern of the own computer match (step S43). Step S44). That is, the server computer 211 determines whether or not the data "01" of the destination designation pattern added to the received data and the data "01" of the status pattern match. At this time, the server computer 211 determines that the two data match each other, and proceeds to the processing of step S45. In step S45, it is determined whether the received data is already received data. At this time, if the received data is not the received data, the received data is stored in the database 221 (step S46). On the other hand, if the received data is already received, the received data is stored in the database 22.
The process proceeds to the process of step S47 without storing in 1. In step S47, the server computer 211 creates data for adding the state pattern data “01” of the own computer to the response data. Then, this response data is transmitted to the transmission network 1
It is returned to the client computer 310 side via (step S48). This completes the reception process of the server computer 211. Also, the server computer 212 executes step S4.
It is determined that the data "01" of the destination designation pattern added to the received data in 4 does not match the data "10" of the status pattern of the own computer, and the received data is discarded (step S49). And server computer 2
12 discards the received data and ends the receiving process in this routine.

On the other hand, when the response data from the database server system 200 side is returned within the set time, the client computer 310 returns to the server computer 211.
The state pattern data "01" is stored in the response pattern storage area (step S37). Then, it is compared whether or not the data stored in the response pattern storage area and the data stored in the confirmation pattern storage area match (step S38). At this time, if the two data do not match, the process returns to step S36, and if the two data contents match, the response monitoring timer is stopped because the reception process of the response data is completed (step S36).
39). The transmission process in this routine ends.

If the response data is not returned by the set time in step S36, the retry counter is updated by +1 (step S40), and it is determined whether the count value of the retry counter exceeds the number of retries (step S41). ). When the count value of the retry counter does not exceed the number of retries, step S34
Returning to the processing of 1, the transmission data is again broadcasted to the transmission network 1. On the other hand, when the count value of the retry counter exceeds the number of retries, a transmission error is processed as an abnormality in the transmission system (step S42), and the transmission processing in this routine is finished.

In the above embodiment, the state A was described as the state of the database server system 200, but the same can be applied to the states B, C and D.

As described above, according to this embodiment, the client computer can store data in a designated database regardless of which database 221 or 222 is served by the server computer 211 or 212. When the transmission data is transmitted, if it is not stored in the database, the same transmission data can be transmitted again and stored in the designated database. Further, it is possible to prevent the same transmission data from being redundantly stored in the designated database.

In each of the above-described embodiments, the processing for the client computer to store the data in the specific database in the client / server type distributed network system using the multi-computer system as the server has been described. It can be applied to data transmission for data acquisition, such as database search, data reading, and communication, and also when the service executed by the multi-computer system is a business other than a database or a combination of multiple businesses. Can be applied.

Further, in each of the above-mentioned embodiments, two server computers 211 and 212 have two databases 221 and 222.
Although the multi-computer which services the above has been described, each of the above-described embodiments can be applied even when the number of computers or the number of databases is three or more. Especially for a multi-computer system that performs more complicated configuration control such as a dual system in which two computers execute the same processing or an N-to-1 backup system consisting of N computers performing online work and one standby system. The present invention can also be applied. Further, by adding the data regarding the status pattern of the transmission source computer to the transmission data and adding the data regarding the status pattern of the transmission source computer within the reception data to the response data, the present invention is also applied to the data transmission between the multi-computer systems. be able to.

[0048]

As described above, according to the present invention,
The server data transmission system stores status pattern data according to its operating state, and the client data transmission system stores the transmission data with the destination specified pattern data corresponding to the server data transmission system status pattern as the transmission data. Since it is added to the server, the data transmission system for the server can be transferred from the data transmission system for the client without monitoring the operating status of the data transmission system for the server and without monitoring the system switching of the data transmission system for the server. Data can be transmitted.

[Brief description of drawings]

FIG. 1 is a basic configuration diagram when the present invention is applied to a client / server type distributed network system.

FIG. 2 is a state transition diagram of the dual multi-computer system shown in FIG.

FIG. 3 is a flowchart for explaining a processing method when a client computer transmits data.

FIG. 4 is a flowchart for explaining a receiving process when the server computer receives data.

FIG. 5 is a diagram for explaining a processing method for the server computer to determine the necessity of data reception.

FIG. 6 is a flowchart for explaining a transmission process for confirming delivery of data when a client computer transmits data to a server computer.

FIG. 7 is a flowchart for explaining a processing method when the server computer returns the response data to the client computer side.

FIG. 8 is a diagram illustrating a process in which a client computer stores response data in a response pattern storage area.

FIG. 9 is a diagram for explaining a processing method for the client computer to determine the completion of reception of response data.

FIG. 10 is a flowchart for explaining a process in which a transmission error is recovered when a client computer retransmits data.

FIG. 11 is a flowchart for explaining a process for preventing the server computer from receiving retransmitted data twice.

[Explanation of symbols]

 200 database server system 211, 212 server computer 221, 222 database 310 ... 3n0 client computer

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Internal reference number FI technical display location H04L 12/28

Claims (11)

[Claims] 1. A plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and data is transmitted between each server data transmission device and each client data transmission device. When transmitting and receiving, each server data transmission device sequentially stores the data of the state pattern corresponding to the operating state of each server data transmission device according to its operating state, and each client data transmission device transmits to the designated server When sending data to a data transmission device, each server data transmission device adds the data of the destination specified pattern corresponding to the status pattern of the specified server data transmission device to the transmission data, and each server data transmission device transmits the client data. When the transmission data from the transmission device is received, it is stored as the data of the destination designation pattern added to this transmission data. The data transmission method is characterized in that the received data is processed based on the comparison result with the data of the state pattern. 2. A plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and data is transmitted between each server data transmission device and each client data transmission device. When transmitting and receiving, each server data transmission device sequentially stores the data of the state pattern corresponding to the operating state of each server data transmission device according to its operating state, and each client data transmission device transmits to the designated server When sending data to a data transmission device, each server data transmission device adds the data of the destination specified pattern corresponding to the status pattern of the specified server data transmission device to the transmission data, and each server data transmission device transmits the client data. When the transmission data from the transmission device is received, it is stored as the data of the destination designation pattern added to this transmission data. The data transmission method is characterized in that the received data is processed as valid data only when the data of the state pattern is compared with the data of the state pattern. 3. A plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission line, and data is transmitted between each server data transmission device and each client data transmission device. When transmitting and receiving, each server data transmission device sequentially stores the data of the state pattern corresponding to the operating state of each server data transmission device according to its operating state, and each client data transmission device transmits to the designated server When sending data to the data transmission device, the data of the destination specified pattern corresponding to the status pattern of the specified server data transmission device is added to the transmission data and transmitted, and the added data is stored and stored for each server. When the data transmission device receives the transmission data from the client data transmission device, the destination added to this transmission data The data of the specified destination pattern is compared with the data of the specified destination pattern, and the received data is processed as valid data only when the two data match. The data is added to the response data and transmitted to the client data transmission device side, and the client data transmission device that received the response data compares the data of the destination designation pattern added to the response data with the stored status pattern data. Then, the data transmission method is characterized in that the delivery of the transmission data is determined from the comparison result. 4. A data transmission device for a plurality of servers and a data transmission device for a plurality of clients are connected via a data transmission path, and data is transmitted between each server data transmission device and each client data transmission device. When transmitting and receiving, each server data transmission device sequentially stores the data of the state pattern corresponding to the operating state of each server data transmission device according to its operating state, and each client data transmission device transmits to the designated server When transmitting data to the data transmission device, the data of the destination specified pattern corresponding to the status pattern of the specified server data transmission device is added to the transmission data and transmitted, and the response data is received from the time the transmission data is transmitted. Until the specified time is exceeded and the data with the specified destination pattern is added When data is transmitted again and each server data transmission device receives the transmission data from the client data transmission device, the data of the destination designation pattern added to this transmission data and the stored state pattern data And determines whether the data received only when the two data match is the data received again, and treats the received data as valid data only when a negative determination result is obtained. A data transmission method comprising: 5. A plurality of server data transmission devices and a plurality of client data transmission devices are connected via a data transmission path, and data is transmitted between each server data transmission device and each client data transmission device. When transmitting and receiving, each server data transmission device sequentially stores the data of the state pattern corresponding to the operating state of each server data transmission device according to its operating state, and each client data transmission device transmits to the designated server When transmitting data to the data transmission device, the data of the destination specified pattern corresponding to the status pattern of the specified server data transmission device is added to the transmission data and transmitted, and the response data is received from the time the transmission data is transmitted. Until the specified time is exceeded and the data with the specified destination pattern is added When data is transmitted again and each server data transmission device receives the transmission data from the client data transmission device, the data of the destination designation pattern added to this transmission data and the stored state pattern data And determines whether the data received only when the two data match is the data received again, and treats the received data as valid data only when a negative determination result is obtained. At the same time, the stored destination designation pattern data is added to the response data and transmitted to the client data transmission device side, and the client data transmission device that receives the response data adds the destination designation pattern to the response data. And the stored data of the designated destination pattern are compared, and the delivery of the transmission data is determined from the comparison result. Data transmission method features. 6. A data transmission device for a plurality of servers and a data transmission device for a plurality of clients are connected via a data transmission path, and data is transmitted between each server data transmission device and each client data transmission device. When sending and receiving, each server data transmission device sequentially stores the data of the state pattern corresponding to the operating state of each server data transmission device according to its operating state, and each client data transmission device is set to that operating state. Accordingly, the data of the destination designation pattern corresponding to the operating state of each client data transmission device is sequentially stored, and when the data is transmitted from each client data transmission device to the designated server data transmission device, the designated server Data of the destination specification pattern corresponding to the status pattern of the data transmission device for transmission is added to the transmission data and transmitted. When the data transmission device for receiver receives the transmission data from the data transmission device for client,
The data of the destination specified pattern added to this transmission data is compared with the data of the stored status pattern, and the reception data is processed from the comparison result, while the data for the client specified by the data transmission device for each server is processed. When transmitting data to the transmission device, the data of the destination specification pattern corresponding to the specified client data transmission device is added to the transmission data and transmitted, and each client data transmission device transmits the data from the server data transmission device. Data which, when receiving the transmission data, compares the data of the destination designation pattern added to this transmission data with the data of the stored destination designation pattern, and processes the received data from this comparison result. Transmission method. 7. A server computer for accessing at least one of the plurality of memories and a plurality of client computers for accessing the memory via a data transmission path, and each server computer and each client computer are connected. When exchanging data with each other, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer uses the specified server When sending data to a computer, the data of the destination specified pattern corresponding to the status pattern of the specified server computer is added to the transmitted data and transmitted, and each server computer receives the transmitted data from the client computer. When this is done, the data of the destination designation pattern added to this transmission data and the data of the stored status pattern are compared. A data transmission method characterized in that the received data is processed based on the comparison result. 8. A computer for each server and a computer for each client, wherein a plurality of server computers for accessing at least one of the plurality of memories and a plurality of client computers are connected via a data transmission path. When exchanging data with each other, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer uses the specified server When sending data to a computer, the data of the destination specified pattern corresponding to the status pattern of the specified server computer is added to the transmitted data and transmitted, and each server computer receives the transmitted data from the client computer. When this is done, the data of the destination designation pattern added to this transmission data and the data of the stored status pattern are compared. A data transmission method characterized in that the received data is processed based on the comparison result. 9. A plurality of server computers that access at least one of the plurality of memories and a plurality of client computers are connected via a data transmission path, and each server computer and each client computer are connected. When exchanging data with each other, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer uses the specified server When sending data to the computer, the data of the destination specified pattern corresponding to the status pattern of the specified server computer is added to the transmission data and transmitted, and the added data is stored, and each server computer is used for the client When the transmission data from the computer is received, the data of the destination designation pattern added to this transmission data and the stored data are stored. The data for the client is processed by comparing the data of the stored status pattern with the data of the specified pattern and processing the received data as valid data only when both data match. The client computer, which transmitted the data to the computer and received the response data, compares the data of the destination designation pattern added to the response data with the stored data of the destination designation pattern, and delivers the transmission data from this comparison result. A method for transmitting data, comprising: 10. A plurality of server computers for accessing at least one of the plurality of memories and a plurality of client computers are connected via a data transmission line, and each server computer and each client computer are connected. When exchanging data with each other, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer uses the specified server When sending data to the computer, add the data of the destination specified pattern corresponding to the status pattern of the specified server computer to the send data and transmit it, and the time from when the send data is received until the response data is received. When the measured time exceeds the set time, the transmission data to which the data of the destination specified pattern is added is restarted. When each server computer receives the transmission data from the client computer, it compares the data of the destination designation pattern added to this transmission data with the data of the stored status pattern, and Data characterized by determining whether the received data is re-received data only when the data match and processing the received data as valid data only when a negative determination result is obtained Transmission method. 11. A server computer for accessing at least one of the plurality of memories and a plurality of client computers for accessing the memory via a data transmission path, and each server computer and each client computer. When exchanging data with the server, each server computer sequentially stores the data of the state pattern corresponding to the operating state of each server computer according to its operating state, and each client computer enters the operating state. Correspondingly, the status pattern data corresponding to the operating status of each client computer is sequentially stored, and when the data is sent from each client computer to the specified server computer, it corresponds to the specified server computer status pattern. The data of the destination specified pattern is added to the transmission data and transmitted, and each server computer is a client computer. When receiving the transmission data from
The data of the specified destination pattern added to this transmission data is compared with the data of the stored status pattern, and the received data is processed from this comparison result, while the data for each server computer is transferred to the designated client computer. When sending, the data of the destination specified pattern corresponding to the status pattern of the specified client computer is added to the transmission data and transmitted, and when each client computer receives the transmission data from the server computer, A data transmission method comprising: comparing data of a destination designation pattern added to the transmission data with data of a stored state pattern, and processing the reception data from the comparison result.