RU188004U1 - Information replication device in databases of independent computers - Google Patents

Abstract

The utility model relates to specialized computing devices and can be used to maintain in an identical state databases located on independent computers.

The required technical result consists in expanding the arsenal of technical means used in the replication of information in the distributed databases of independent computers and expanding their functionality.

This technical result is achieved in a device made in the form of a unit for providing a local network between the first and second computers containing synchronized databases, and a unit for synchronizing the operating modes of computers, while the first and second inputs and outputs of the unit for providing a local network between the first and second computers are connected with the first inputs and outputs of the first and second computers, respectively, and the first and second inputs and outputs of the synchronization block of the computer operation modes are connected to the second inputs and outputs the first and second computers, respectively, as well as a data comparison unit in mutable databases, the first and second inputs and outputs of which are connected to the third inputs and outputs of the first and second computers, respectively, and the third input-output is connected to the third input-output of the synchronization unit modes of operation of computers, a block for extracting mismatched fragments in mutable databases, the first input-output of which is connected to the third input-output of the data comparison unit in the mutable databases, as well as the application block changed into the mutable databases, the first input-output of which is connected to the second input-output of the block for separating mismatched fragments in the variable databases, and the second and third inputs and outputs are connected to the fourth inputs and outputs of the first and second computers, respectively. 1 ill.

Description

The utility model relates to specialized computing devices and can be used to maintain in an identical state databases (DB) located in independent computers.

A typical practical problem that arises for computer systems containing, for example, the main (main) stationary part (for example, a desktop desktop) and the mobile (peripheral) part (for example, a mobile laptop), the information in which can be changed without reference to the Internet, and work on a laptop is in off-site mode. In this case, there is a need to regularly perform full replication / synchronization of databases loaded on computers.

A technical solution is known [RU 2531572, A, G06F 17/30, 01/27/2013] containing an interface adapted to communicate with the network and a control system associated with the interface and adapted to determine that the first update command changed the data in the primary table in the primary database associated with the primary server, in response to determining that the first update command has changed data in the primary table in the primary database, determining the second update command based on the first update command and applying the second update command A data replication to a secondary table in the secondary database that is linked to a secondary server using the second integrated table related to the primary table.

The disadvantage of this technical solution is the relatively narrow functionality.

A device is also known in which a method for replicating information in distributed databases with competitive distribution of flows is implemented [RU 2510623, C2, G06F 12/00, 04/10/2014], and in which each of the nodes consists of a part of a distributed database, the control of which implements a distributed database management server and data flow distribution optimization block, which interacts with communication equipment and collects data on available network resources and calculates exchange data on the basis of x files and provided network resources, the option of distributing data streams over the network, which allows to increase the speed of replication, and the control signal containing information about the distribution of data streams is transmitted to communication equipment, where it is used to distribute incoming exchange files over the network.

The disadvantage of this technical solution is also the relatively narrow functionality.

Closest to the technical nature of the proposed device is a database interaction system of an automated control system [RU 66568, U1, G06F 17/00, 09/10/2007], which includes at least two input, registration, approval, processing and collection of information blocks remote users and the unit for input, registration, approval, processing and compilation of information in the central database, which are the first, second and third information entries in the system, as well as the unit for making changes to the central database and ok making changes to the local database, a data transfer unit between system levels connected by two-way connections with each of the above system units, a synchronization process control unit whose inputs are connected to the outputs of the unit for making changes to the central database and the unit for making changes to the local database data, and a unit for sharing access to communication channels, a unit for synchronizing databases of central and remote SQL servers, an input / output unit for exchanging database information with a file server a local database, each of which is connected by two-way communications with the synchronization process control unit and the interaction server of the main server and the replica server, connected by two-way connections to the central and remote SQL server database synchronization unit and the exchange database information input / output block with file -server local database.

The disadvantage of the closest technical solution is the relatively narrower functionality, since replication in the known technical solution is performed in a distributed system consisting of a central database with a number of peripheral databases. Therefore, without significant changes in the replication procedure, it is impossible to use the well-known technical solution for the case when at least two computers are equivalent, and each of the computers acts as a destination computer or as a source computer, and at another moment they change roles and only in this case both databases will be fully synchronized.

The problem, which is solved in a utility model, is to create a device used to replicate information in distributed databases, in particular, with respect to two computers, each of which is loaded with the same structure database with an invariable knowledge base and independently changed and supplemented information in the customer and research database, and used to periodically synchronize the database on both computers. At the same time, the database consists of two parts - the knowledge base and the regularly updated database of clients and research, moreover, synchronization is performed only with respect to the client database and research, because changes to the knowledge base are made centrally and the knowledge base is considered the same in different replicas.

The required technical result is to expand the arsenal of technical means used in the replication of information in distributed databases, providing an extension of the system’s functionality to enable replication (synchronization) of the databases of two independent computers, each of which is loaded with the same database structure with the same knowledge base and independently changed in these computers and supplemented by information in the customer and research database.

The problem is solved, and the required technical result is achieved by the fact that, in the device, made in the form of a unit for providing a local network between the first and second computers containing synchronized databases, as well as a unit for synchronizing the operating modes of computers, the first and second inputs are the outputs of the local network provision unit between the first and second computers are connected to the first inputs and outputs of the first and second computers, respectively, and the first and second inputs and outputs of the operation mode synchronization unit you computers are connected to the second inputs and outputs of the first and second computers, respectively, according to a utility model, a data comparison unit in variable databases is introduced, the first and second inputs and outputs of which are connected to the third inputs and outputs of the first and second computers, respectively, and the third input-output - connected to the third input-output of the unit for synchronizing computer operating modes, a unit for allocating mismatched fragments in mutable databases, the first input-output of which is connected to the third input-output of the bl an eye for comparing data in mutable databases, as well as a unit for making changes to mutable databases, the first input-output of which is connected to the second input-output of the block for extracting mismatched fragments in mutable databases, and the second and third inputs and outputs are connected to the fourth inputs - outputs of the first and second computers, respectively.

The drawing shows a functional diagram of a device for replicating information in databases of independent computers in conjunction with the first and second computers;

The information replication device in the databases of independent computers contains a unit 1 for providing a local area network between the first 2 and second 3 computers containing synchronized databases and the first and second inputs and outputs of which are connected to the first inputs and outputs of the first 2 and second 3 computers, respectively.

In addition, the information replication device in the databases of independent computers contains a unit 4 for synchronizing the operating modes of computers, the first and second inputs and outputs of which are connected to the second inputs and outputs of the first 2 and second 3 computers, respectively, a unit 5 for comparing data in mutable databases, the first and second inputs and outputs of which are connected to the third inputs and outputs of the first 2 and second 3 computers, respectively, and the third input and output is connected to the third input and output of the computer operation mode synchronization unit 3 ter, block 6 allocation of mismatched fragments in mutable databases, the first input-output of which is connected to the third input-output of block 5 for comparing data in mutable databases, as well as block 7 for making changes to mutable databases, the first input-output of which is connected to the second input-output of the block 6 allocation of mismatched fragments in a variable database, and the second and third inputs and outputs are connected to the fourth inputs and outputs of the first 2 and second 3 computers, respectively.

The device contains elements and blocks, characterized at the functional level, and the described form of implementation involves the use of a programmable (customizable) multifunctional tool, therefore, when describing its work, information is presented confirming the possibility of such a tool performing the specific function prescribed to it as part of this system.

The device replicates information in the databases of independent computers as follows.

Consider his work on the example of replication of a medical database.

The medical research center uses two independent computers as a storage medium, one of which is used, for example, as a mobile version, which uses a modification of the local ORACLE DBMS installation. The task is to combine data from two computers and develop a mechanism that allows regular data synchronization between two ORACLE servers.

The database consists of two parts - a practically unchanged knowledge base and a regularly updated database of clients and research, made with the possibility of independent changes and additions on each of the two computers

The task involves synchronizing only the variable part of the database, since changes to the knowledge base are made centrally, and the knowledge base is considered the same in different replicas of the DBMS.

The central table of the database is the “Research” table (ANALYSIS), all other tables are associated with it by the research identification number (research ID) with a one-to-many relationship. The exception is the “Patients” table (CLIENTS), which is associated with the “Research” table by the patient's identification number in a one-to-one relationship. An example of the tables is presented below (tables 1-4).

The database does not provide both patient uniqueness and for each new study a new entry is made in the "Patients" table, as well as the uniqueness of the study data. This feature of the database makes it difficult to compare its two modifications on two independent computers.

It is proposed to use a set of patient ID fields + biosubstrate type ID + mineralogram ID + biosubstrate ID profile + biosubstrate sampling date + diabetes sign + evidence of obesity + sign of CVD + sign of alcohol restriction as unique data on the study within the local DBMS.

For the Patients table, the Patient ID field is an automatically incremented counter and cannot be used in a unique combination of fields to compare data between two servers. Instead, it is necessary to use a unique set of fields in the "Patients" table to uniquely identify patient data Card number + Last name + First name + Birthday + Gender.

Thus, the set of fields patient ID + biosubstrate type ID + mineralogram ID + study profile ID + biosubstrate sampling date + Sign of diabetes + Sign of obesity + Sign of CVD + Sign of alcohol restriction + Card number + Last name + First name + Birthday + Each study uniquely determines the gender and can be taken as an identification combination of fields.

The “Systematic research status” field contains values characterizing the completeness of processing the research results and can be used as a criterion for updating records matching in the identification set of fields.

Many studies in each of the compared databases are defined by a combination of fields that uniquely identify each study. The task is to combine these sets, while in the intersection of sets it is necessary to leave the studies whose processing is as complete as possible (the degree of "completeness" of the study is determined by the value in the System status of the study field). It is assumed that studies matching the combination of fields for identification and with the same value in the System status field of the study are identical and are not compared.

We denote many studies in the compared databases A and B.

To combine sets, you must do the following:

- find the difference of the sets A \ B;

- add the resulting difference to the set B;

найти записи, имеющие разное значение поля Системный статус исследования;- in the area of intersection of sets

find records with different values of the System status of the study field;

- update in the set B those records for which there are records with a “large completion” in the intersection area by the value in the System status field of the study and matching the rest of the fields for identifying the study;

- repeat the described actions, swapping the database A and B.

Since the “Research” table (ANALYSIS) is associated with a large

the number of other tables detailing the analyzes performed by the research identification number (research ID), and this number is internal for each Database, that is, the same value of the research ID field can indicate different studies on different databases, when transferring information from one database data to another, it is necessary to ensure the calculation of the corresponding value of the study ID, and use it in related tables.

A DATABASE LINK database object named MASTER is the connection of the local server to the remote database.

Configuring triggers on the Patients and Research tables. To do this, you need to change the auto-increase of the primary key of the table so that the calculation of the new key occurs only when the key is not filled. The calculation of new primary key values during the data merge task will not occur through a trigger, but inside the merge program, so that the primary key value can be used when adding data from related tables.

Queries to compare NEWDATA and UPDDATA tables.

NEWDATA - a query that calculates the difference between the sets of studies on the local server and the server connected via DBLink MASTER. The result is presented in pairs (ID_ANALYSIS, IDCLIENTS) that define studies that are not in the ANALYSIS @ MASTER table.

UPDDATA is a query that finds those studies on the local server, for which the value of the System research status (STATUS) field is greater than the value of the System research status (STATUS) field on a server connected via DBLink MASTER. “The result is presented as pairs (ID_ANALYSIS, IDCLIENTS).

The SYNCHRONIZE table is needed to prepare data for synchronization. Aggregates data from NEWDATA and UPDDATA queries. It contains new record identifiers that will be inserted into the corresponding tables of the MASTER server. It also marks the records to be inserted when manually selecting records.

The SYNCHRONIZEPARAMETERS table is a table with settings for automatically starting synchronization.

To implement the considered replication algorithm, the proposed device is used as follows.

Block 1 provides a local area network between the first 2 and second 3 computers containing synchronized databases and the first and second inputs and outputs of which are connected to the first inputs and outputs of the first 2 and second 3 computers, respectively.

Block 4 synchronization of the operating modes of computers, the first and second inputs and outputs of which are connected to the second inputs and outputs of the first 2 and second 3 computers, respectively, provides the translation of the first 2 and second 3 computers in turn into the computer mode of the receiver and the source computer. Unit 5 for comparing data in mutable databases, the first and second inputs and outputs of which are connected to the third inputs and outputs of the first 2 and second 3 computers, respectively, compares the data in mutable databases of the first 2 and second 3 computers, and block 6 for selecting mismatched fragments in mutable databases, the first input-output of which is connected to the third input-output of the data comparison unit 5 in mutable databases, selects fragments for replacing (updating) the mutable databases, which are entered into de change in the variable database.

After the replication procedure for both computers, the mutable parts of their databases become completely identical.

Thus, in the proposed device implements the following method of replicating databases hosted in the spirit of independent computers.

This method consists in the fact that, during replication, two computers are connected over a local network and exchange data between computer databases, moreover, each of the two computers with ORACLE servers installed in them preload the database with an unchanged knowledge base and a mutable database data on clients and studies performed with the possibility of independent changes and additions on each of the two computers, moreover, first one of the computers is transferred to the source computer by forming on its ORACLE server Re-accessing the ORACLE server of another computer, which is transferred to the receiving computer, compares the data in their mutable databases by the set of fields defining entries in the mutable databases, selects the data that is in the mutable database of the source computer and not in the mutable database data of the destination computer, and inserted into the database of the destination computer, and then another computer is transferred to the source computer by forming on its ORACLE server access to the ORACLE server of the first computer, which To translate a computer-receiver, and produce the above operations between the source computer and the receiver computer.

Thus, in the proposed device, the required technical result is achieved, which consists in expanding the arsenal of technical means used in the replication of information in distributed databases, and ensuring the expansion of the system’s functionality to enable replication (synchronization) of the databases of two independent computers to each of which are loaded with the same structured database with an unchanged knowledge base and independently modified in these computers and supplemented by information in the customer base and research. This improves the accuracy and responsiveness of the replication system.

Claims (1)

A device for replicating information in databases of independent computers, made in the form of a unit for providing a local network between the first and second computers containing synchronized databases, configured to connect its first and second inputs and outputs to the first inputs and outputs of the first and second computers, respectively, for performing the functions of providing a local network between them, as well as a synchronization unit for computers operating modes, configured to connect their first and second inputs odes-outputs with second inputs-outputs of the first and second computers, respectively, to perform the functions of synchronizing the modes of their operation, characterized in that a data comparison unit in variable databases is introduced, configured to connect the first and second inputs-outputs with third inputs - the outputs of the first and second computers, respectively, to perform the functions of comparing data in their mutable databases, and the third input-output is connected to the third input-output of the unit for synchronizing computer operating modes c, a block for extracting mismatched fragments in mutable databases, the first input-output of which is connected to the third input-output of the data comparison unit in mutable databases, as well as a block for making changes to mutable databases, the first input-output of which is connected to the second input - the output of the block for the selection of mismatched fragments in variable databases and configured to connect the second and third inputs and outputs to the fourth inputs and outputs of the first and second computers, respectively, to ensure Tools for making changes to mutable computer databases.

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