CN111984677B - Resource data checking method, device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a resource data checking method, a resource data checking device, computer equipment and a storage medium. The method comprises the following steps: acquiring resource transfer details of a target service in a preset checking period, carrying out resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail, acquiring real-time resource snapshot data corresponding to each resource transfer detail, carrying out data checking on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource checking result, acquiring periodic resource data corresponding to the checking period from a resource management system corresponding to the target service, carrying out data checking on the current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result, and thus obtaining a resource checking result of the target service. And a dark period for prohibiting resource transfer is not required to be set between the two checking periods, so that continuous resource transfer processing is realized, and the service processing efficiency is improved.

Description

Resource data checking method, device, computer equipment and storage medium

Technical Field

The present invention relates to the field of computer technologies, and in particular, to a method and apparatus for verifying resource data, a computer device, and a storage medium.

Background

With the development of information technology, the accuracy of data plays an important role in business, especially in business related to resource transfer, and it is required to ensure that the result of each resource transfer process is consistent in a business system and a resource management system. For this reason, for each service, it is necessary to perform resource collation at a set period. Because the business system is an online system, online resources of each resource transfer detail are changed in real time, and the current resource data corresponding to each period cannot be accurately counted when resource transfer occurs.

The traditional processing mode sets up a dark period after every cycle finishes, prevents to take place the resource transfer of next cycle through the dark period, and the resource transfer of next cycle is put out again after the resource check is accomplished, and this mode can influence user's use experience, leads to the user can not carry out the resource transfer processing in the dark period, and along with the high-speed growth of system scale, the longer the statistical time, the dark period can along with increasing, and this kind of resource check mode leads to the resource transfer unable continuous to go on, has seriously influenced business processing efficiency.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a resource data collation method, apparatus, computer device, and storage medium capable of supporting continuous execution of resource transfer.

A resource data collation method, the method comprising:

acquiring resource transfer details of a target service in a preset checking period, and carrying out resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail;

acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data check on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource check result;

acquiring periodic resource data corresponding to the checking period from a resource management system corresponding to the target service, and performing data checking on current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result;

and obtaining a resource check result of the target service according to the first resource check result and the second resource check result.

In one embodiment, acquiring periodic resource data corresponding to a checking period from a resource management system corresponding to a target service, performing data checking on current resource data corresponding to a resource transfer detail with the latest recording time and the periodic resource data, and obtaining a second resource checking result includes:

Synchronizing current resource data corresponding to the resource transfer detail with the latest recording time to a periodic resource data table corresponding to the target service;

acquiring periodic resource data corresponding to the check period from a resource management system corresponding to the target service;

and carrying out data checking on the periodic resource data according to the periodic resource data table to obtain a second resource checking result.

In one embodiment, the periodic resource data table includes a periodic resource data pull chain table;

synchronizing current resource data corresponding to the resource transfer detail with the latest recording time to a periodic resource data table corresponding to the target service comprises the following steps:

acquiring the last item of periodic resource data in the periodic resource data pull chain table;

when the current resource data corresponding to the resource transfer detail with the latest recording time is the same as the resource data of the last period, updating the statistical time of the resource data of the last period;

when the current resource data corresponding to the resource transfer detail with the latest recording time is different from the resource data of the last period, the current resource data corresponding to the resource transfer detail of the last period in the checking period is written into the period resource data pull chain table.

In one embodiment, the method further comprises:

Responding to the target service processing request, and generating a resource transfer detail corresponding to the target service and a real-time resource information snapshot corresponding to the resource transfer detail;

and sending the resource transfer details to a resource management system corresponding to the target service.

In one embodiment, the number of resource transfer details corresponding to the target service is a plurality of;

the resource management system for transmitting the resource transfer details to the corresponding target service comprises the following steps:

sequentially sending the generated resource transfer details to a resource management system corresponding to the target service through a message queue in real time;

generating a record file containing a plurality of resource transfer details, and sending the record file to a resource management system so that the resource management system performs data check according to the message queue and the record file.

In one embodiment, obtaining the resource transfer details of the target service in the checking period, and performing resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail includes:

acquiring a data scheduling task containing a target service check period;

executing a data scheduling task, and acquiring a resource transfer detail corresponding to the checking period;

And carrying out resource statistics on each resource transfer detail according to the recording time sequence of the resource transfer detail to obtain current resource data corresponding to each resource transfer detail.

In one embodiment, performing resource statistics on each resource transfer detail according to a recording time sequence of the resource transfer detail, and obtaining current resource data corresponding to each resource transfer detail includes:

for each resource transfer specification, the following steps are performed:

acquiring the number of resources of the resource transfer detail and a transfer category identifier, wherein the transfer category identifier comprises a resource transfer item and a resource transfer item;

and acquiring the latest resource statistical result, and acquiring current resource data corresponding to the resource transfer detail according to the number of resources, the transfer category identification and the latest resource statistical result.

In one embodiment, the target service includes a resource transfer specification generated over a time period, the time period including a plurality of time periods; the method further comprises the steps of:

acquiring a periodic resource data query request of a target service in a specified time period, and searching an existing resource transfer detail corresponding to the specified time period;

splitting the resource transfer details corresponding to the time period into resource transfer details corresponding to a plurality of time periods according to the time period in which the designated time period is located;

Screening out newly added resource transfer details corresponding to the designated time period from the resource transfer details corresponding to the time periods;

and obtaining a query result corresponding to the periodic resource data query request according to the existing resource transfer detail and the newly added resource transfer detail.

A resource data collation apparatus, the apparatus comprising:

the resource statistics module is used for acquiring resource transfer details of the target service in a preset check period, and carrying out resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail;

the first resource checking module is used for acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data checking on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource checking result;

the second resource checking module is used for acquiring periodic resource data corresponding to the checking period from a resource management system corresponding to the target service, and performing data checking on the current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result;

and the checking result obtaining module is used for obtaining the resource checking result of the target service according to the first resource checking result and the second resource checking result.

A computer device comprising a memory storing a computer program and a processor which when executing the computer program performs the steps of:

acquiring resource transfer details of a target service in a preset checking period, and carrying out resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail;

acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data check on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource check result;

acquiring periodic resource data corresponding to the checking period from a resource management system corresponding to the target service, and performing data checking on current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result;

and obtaining a resource check result of the target service according to the first resource check result and the second resource check result.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of:

acquiring resource transfer details of a target service in a preset checking period, and carrying out resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail;

Acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data check on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource check result;

acquiring periodic resource data corresponding to the checking period from a resource management system corresponding to the target service, and performing data checking on current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result;

and obtaining a resource check result of the target service according to the first resource check result and the second resource check result.

According to the resource data checking method, the device, the computer equipment and the storage medium, the current resource data obtained through resource statistics is checked based on the real-time resource snapshot data corresponding to the resource transfer details through the acquisition of the resource transfer details in the checking period of the target service, the checking of each item of resource transfer data is achieved, the checking of the periodic resource data of the whole checking period is achieved through the checking of the resource transfer details with the latest recording time and the periodic resource data corresponding to the checking period in the resource management system, on one hand, the asynchronous checking of each item of resource transfer details in the checking period is achieved through the separation of the real-time resources and the current resources obtained through statistics, on the other hand, the periodic resource data of the latest recording time and the periodic resource data corresponding to the checking period in the resource management system are checked, the accuracy of the resource data checking is guaranteed, the dark period for prohibiting the resource transfer is not required to be set between the two checking periods, and meanwhile, continuous transferring processing of the resources can be achieved, and service processing efficiency is improved.

Drawings

FIG. 1 is a diagram of an application environment for a resource data reconciliation method in one embodiment;

FIG. 2 is a flow chart of a method for verifying resource data in one embodiment;

FIG. 3 is a flowchart of a resource data checking method according to another embodiment;

FIG. 4 is a flow chart of a method for verifying resource data according to yet another embodiment;

FIG. 5 is a flowchart of a resource data collation method according to still another embodiment;

FIG. 6 is a flow chart of a method for verifying resource data according to yet another embodiment;

FIG. 7 is a system interaction diagram of a method for resource data reconciliation in an embodiment;

FIG. 8 is a block diagram showing the construction of a resource data collation apparatus in one embodiment;

fig. 9 is an internal structural diagram of a computer device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The resource data checking method provided by the application can be applied to an application environment shown in fig. 1. Wherein the terminal 102 communicates with the business system 104 via a network, and the business system 104 communicates with the resource management system 106 via a network. The business system 104 responds to the business operation of the terminal 102, generates a resource transfer specification, records an online real-time resource snapshot corresponding to the resource transfer specification, and sends the resource transfer specification to the resource management system 106. The service system 104 obtains the resource transfer details of the target service in a preset checking period, and performs resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail; acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data check on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource check result; acquiring periodic resource data corresponding to the checking period from the resource management system 106, and performing data checking on the current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result; and obtaining a resource check result of the target service according to the first resource check result and the second resource check result. The terminal 102 may be, but not limited to, various personal computers, notebook computers, smartphones, tablet computers, and portable wearable devices, and the service system 104 and the resource management system 106 may be implemented by a separate server or a server cluster formed by a plurality of servers.

In one embodiment, as shown in fig. 2, a resource data checking method is provided, and the method is applied to the service system in fig. 1 for illustration, and includes the following steps 202 to 210.

Step 202, obtaining the resource transfer details of the target service in a preset checking period, and carrying out resource statistics on each resource transfer detail to obtain the current resource data corresponding to each resource transfer detail.

The resource data checkups include a checkup for each resource transfer detail and a total resource data checkup for each checkup period.

In one service, multiple resource transfer processes may be included. For example, for a deposit transaction at a bank, the resource transfer may include a transaction occurrence amount, principal occurrence amount, interest occurrence amount, etc., and for a loan transaction, the resource transfer may include a transaction occurrence amount, principal occurrence amount, interest occurrence amount, fee occurrence amount, etc. Taking a borrowing service as an example, each borrowing service corresponds to a borrowing, and the borrowing refers to a debt certificate generated by a client borrowing on an internet financial platform, and each time the client borrows, a new borrowing is generated.

Every time the resource transfer processing is executed, the corresponding resource transfer details are recorded. Because the service system is online, the corresponding current resource amount changes in real time after the resource transfer processing is executed. After the resource transfer processing is executed, the real-time resource at the moment is recorded through the snapshot, and real-time resource snapshot data are obtained.

The collation cycle refers to a time interval of periodic collation by a platform providing a service as needed. For example, collation is performed by date, and the collation period is 0:00 to 24:00 of one day. Resource collation is performed by selecting a date to be collated, for example, 3 months 1 day, and then setting 0:00 of 3 months 1 day to 24:00 of 3 months 1 day as a collation period.

The resource transfer details refer to detail data recorded when the resource transfer processing is performed each time, including the resource transfer direction (such as a resource transfer in and a resource transfer out), the transferred resource amount, the occurrence time of the resource transfer, and the like, and the occurrence time of the resource transfer processing corresponds to the recording time of the resource transfer details.

In an embodiment, the resource transfer details in the verification period are recorded according to the time sequence of the resource transfer, and the obtained resource transfer details are also arranged according to the time sequence. Specifically, each resource transfer process is performed based on the amount of resources after the previous resource transfer process.

The current resource data refers to the corresponding resource quantity after the resource statistical processing is carried out on each resource transfer detail. Specifically, each node is used as a node in each resource transfer, each node corresponds to a resource transfer detail and a current resource data, and the resource transfer detail has a corresponding relation with the current resource data. The resource statistics on the resource transfer details refers to a process of carrying out statistics on the resource quantity after the resource transfer processing corresponding to the resource transfer details is executed according to the resource transfer direction and the resource transfer quantity, and the resource quantity obtained by the resource statistics is the current resource data corresponding to the resource transfer details. The resource statistics is independent of the occurrence time of the resource transfer processing, and the resource transfer detail can be scheduled according to the requirement. In one embodiment, taking financial data as an example, the process of resource statistics is the process of posting financial data.

And 204, acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data check on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource check result.

Each resource transfer detail has real-time resource snapshot data corresponding to the resource transfer detail, and the real-time resource snapshot data is used for recording the real-time resource quantity of the online record after the resource transfer detail occurs.

By the snapshot processing, real-time resources of the resource transfer processing occurring at any time point can be acquired. The current resource data obtained by carrying out statistical processing according to the resource transfer details and the real-time resource snapshot data are subjected to data verification, so that the verification of each resource transfer detail can be realized.

In an embodiment, when the current resource data is consistent with the corresponding real-time resource snapshot data, the method characterizes that the resource transfer details are accurate, and when the current resource data is inconsistent with the corresponding real-time resource snapshot data, warning information is generated, so that a worker rechecks the resource transfer details based on the warning information.

And 206, acquiring periodic resource data corresponding to the checking period from the resource management system corresponding to the target service, and performing data checking on the current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result.

The resource management system is a system for managing resource data. The resource management system corresponds to the business system and is different in data processing process, for example, the resource management system can be a financial system, an accounting system and the like, and only processes resource data, and specific business is not involved. The service system is responsible for recording various service data. For example, for a loan business, the business process is performed by a loan business system that processes the loan business, and the transfer of the loan amount is performed by a corresponding accounting system or financial system.

The periodic resource data is a result obtained by counting resources after the last resource transfer processing of each checking period is performed by a pointer and is used for representing the resource quantity corresponding to the ending moment of the period. The resource data in the resource management system is obtained from the service system, and periodic statistics can be performed according to the obtained resource transfer details to obtain periodic resource data of each check period.

The resource transfer detail with the latest recording time refers to the recording data of the resource transfer processing which is finally transmitted in the checking period, and the current resource data corresponding to the resource transfer detail can be used for representing the resource quantity of the checking period, namely the period resource data corresponding to the checking period.

In an embodiment, the statistics rule of the current resource data in the service system may be the same as the statistics rule of the resource management system, so as to ensure that the statistics result of the service system and the resource management system is the same in case that no problem occurs in the transmission process of the resource transfer details of the service system and the resource management system.

And carrying out data check on the current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data corresponding to the check period in the resource management system to obtain a second resource check result, thereby realizing the check on the final resource quantity of the check period.

And step 208, obtaining the resource checking result of the target service according to the first resource checking result and the second resource checking result.

Through the first resource checking result, whether each resource transfer detail has a problem or not can be determined, and through the second resource checking result, whether error data exists in the whole checking period or not can be determined, and the accuracy of the resource checking result is ensured in a multi-angle all-around mode.

According to the resource data checking method, the current resource data obtained through resource statistics is checked based on the real-time resource snapshot data corresponding to the resource transfer details, the checking of each item of resource transfer data is achieved, the period resource data corresponding to the checking period in the resource management system is checked through the resource transfer details with the latest recording time, the checking of the period resource data in the whole checking period is achieved, on one hand, the asynchronous checking of each item of resource transfer details in the checking period is achieved through the real-time resources separated from the current resource obtained through statistics, on the other hand, the period resource transfer details with the latest recording time are checked with the period resource data corresponding to the checking period in the resource management system, the accuracy of the checking of the resource data is guaranteed, the resource data checking method does not need to set a dark period for prohibiting the resource transfer between the two checking periods, continuous resource transfer processing can be achieved while the accuracy of the resource data checking is guaranteed, and service processing efficiency is improved.

In one embodiment, as shown in fig. 3, the resource transfer details of the target service in the verification period are obtained, and the resource statistics is performed on each resource transfer detail to obtain the current resource data corresponding to each resource transfer detail, that is, step 202 includes steps 302 to 306.

Step 302, a data scheduling task including a target service check period is acquired.

And 304, executing a data scheduling task, and acquiring a resource transfer detail corresponding to the checking period.

And 306, carrying out resource statistics on each item of resource transfer details according to the recording time sequence of the resource transfer details to obtain current resource data corresponding to each item of resource transfer details.

The resource transfer details are recorded when the resource transfer processing occurs, and the resource transfer details of the specified check period can be scheduled at any time by executing the data scheduling task, so that flexible scheduling of the resource transfer details is realized, and the time limit of the occurrence of the resource transfer processing is avoided.

In one embodiment, performing resource statistics on each resource transfer detail according to a recording time sequence of the resource transfer detail, and obtaining current resource data corresponding to each resource transfer detail includes: for each resource transfer specification, the following steps are performed: and acquiring the number of the resources of the resource transfer detail and a transfer category identifier, wherein the transfer category identifier comprises a resource transfer item and a resource transfer item. And acquiring the latest resource statistical result, and acquiring current resource data corresponding to the resource transfer detail according to the number of resources, the transfer category identification and the latest resource statistical result.

The resource transfer details are recorded in time sequence, so that the last resource statistics result can be conveniently obtained, and the current resource transfer details are subjected to resource statistics. In an embodiment, the resource statistics is based on the last resource statistics result, and whether the resource is shifted in or out is determined according to the shift category identification, if the resource is shifted in, the corresponding number of resources is accumulated based on the last resource statistics result, and if the resource is shifted out, the corresponding number of resources is subtracted based on the last resource statistics result, so that the current resource data corresponding to the resource shift detail is obtained.

In one embodiment, as shown in fig. 4, periodic resource data corresponding to the verification period is obtained from the resource management system corresponding to the target service, and the current resource data corresponding to the resource transfer detail with the latest recording time is subjected to data verification with the periodic resource data, so as to obtain a second resource verification result, that is, step 206 includes steps 402 to 406.

Step 402, synchronizing the current resource data corresponding to the resource transfer detail with the latest recording time to a periodic resource data table corresponding to the target service.

Step 404, periodic resource data corresponding to the check period is obtained from the resource management system corresponding to the target service.

And step 406, performing data check on the periodic resource data according to the periodic resource data table to obtain a second resource check result.

The periodic resource data table is a data table for recording the periodic resource data of each checking period, and by synchronizing the periodic resource data of each checking period into one data table, on the one hand, the checking of the resource amount of each checking period can be realized, and on the other hand, the subsequent searching and obtaining of the resource amount of each checking period can be facilitated.

In one embodiment, the periodic resource data table includes a periodic resource data pull chain table; as shown in fig. 5, the current resource data corresponding to the resource transfer detail with the latest recording time is synchronized to the periodic resource data pull list corresponding to the target service, that is, step 402 includes steps 502 to 506.

Step 502, obtaining the last item of periodic resource data in the periodic resource data pull chain table.

And step 504, updating the statistical time of the last periodic resource data when the current resource data corresponding to the resource transfer detail with the latest recording time is the same as the last periodic resource data.

And step 506, when the current resource data corresponding to the resource transfer detail with the latest recording time is different from the resource data of the last period, writing the current resource data corresponding to the resource transfer detail of the last period into the period resource data pull chain table.

The zipper table is a table for maintaining historical state and up-to-date state data, and the zipper table is actually equivalent to a snapshot according to different zipper granularity, but a part of unchanged records are removed, and client records at the time of the zipper can be conveniently restored through the zipper table. The periodic resource data of each checking period is recorded through the periodic resource data pull chain table, a plurality of continuous checking periods with unchanged resource quantity can be stored in the same piece of data, specifically, the current resource data corresponding to the resource quantity to be written, namely, the resource transfer detail with latest recording time, is compared with the last item of periodic resource data in the periodic resource data pull chain table, when two pieces of periodic resource data are different, one piece of data is recorded again, and when the two pieces of periodic resource data are the same, only the time range of the last piece of data is required to be modified, so that the quantity of stored data is simplified, and the occupation of a storage interval is reduced.

In an embodiment, the periodic resource data pull chain table may exist in a service system or may exist in a data warehouse system connected with the service system through a network.

In one embodiment, before the checking of the resource data, the method further comprises a recording process of the resource transfer detail data, and specifically comprises the following steps: and responding to the target service processing request, generating a resource transfer detail corresponding to the target service and a real-time resource information snapshot corresponding to the resource transfer detail, and sending the resource transfer detail to a resource management system corresponding to the target service.

Every time the resource transfer processing is executed, the corresponding resource transfer details are recorded. Because the service system is online, the corresponding resource amount changes in real time after the resource transfer processing is executed. After the resource transfer processing is executed, the real-time resource at the moment is recorded through snapshot, the real-time resource snapshot data is obtained, and the problem of difficult resource data check caused by the change of the online resource data which changes in real time can be solved through snapshot processing. By sending the resource transfer details to the resource management system corresponding to the target service, the multi-system recording of the resource transfer detail data is realized, and a basis is provided for the resource management of the resource management system.

In one embodiment, the number of resource transfer details corresponding to the target traffic is multiple. The resource management system for transmitting the resource transfer details to the corresponding target service comprises the following steps: and sequentially sending the generated resource transfer details to a resource management system corresponding to the target service through the message queue in real time. Generating a record file containing a plurality of resource transfer details, and sending the record file to a resource management system so that the resource management system performs data check according to the message queue and the record file.

The resource transfer details are sent to the resource management system in two different data transmission modes, so that the resource management system can conveniently check the received resource transfer details. The resource management system can obtain the resource transfer details in real time through the message queue transmission, but because the situation of repeated or missing data transmission possibly exists in the data transmission process of the message queue, the resource management system can avoid missing and repeating of data by transmitting all the resource transfer details to the resource management system in a record file mode, the resource management system can verify whether the data transmitted by the message queue are missing and repeating by utilizing the record file and the message queue, and through the processing, the timeliness of data acquisition of the resource management system is ensured, and the correctness of the acquired data can be verified.

In one embodiment, the target traffic includes a resource transfer specification generated over a time period, the time period including a plurality of time periods. As shown in fig. 6, the resource data collation method further includes steps 602 to 608.

Step 602, obtaining a periodic resource data query request of a target service in a specified time period, and searching for an existing resource transfer detail corresponding to the specified time period.

Step 604, splitting the resource transfer details corresponding to the time period into resource transfer details corresponding to a plurality of time periods according to the time period in which the specified time period is located.

Step 606, a new added resource transfer specification corresponding to the specified time period is selected from the resource transfer specifications corresponding to the time periods.

Step 608, obtaining a query result corresponding to the periodic resource data query request according to the existing resource transfer detail and the newly added resource transfer detail.

In an embodiment, the resource transfer details corresponding to the time periods may be obtained from a periodic resource data pull chain table. Taking borrowing or deposit business as an example, the business system generally calculates daily interest or daily fine and the like according to a period, for example, a month generates a resource transfer list of the interest. Taking the resource amount of 5 months and 12 days as an example, firstly, the existing resource transfer details of the day of 5 months and 12 days are acquired, the business system does not calculate interest on the day of 5 months and 1 day to 5 months and 31 days, the resource transfer details are divided into 31 parts by acquiring the resource transfer details corresponding to the interest of 5 months, and the cycle resource data of the day of 5 months and 12 days can be obtained by carrying out resource statistics on the resource transfer details after the former 12 parts are divided and the existing resource transfer details of the day of 5 months and 12 days. By the processing, the cycle resource data of any time cycle can be traced. Furthermore, by inquiring the periodic resource data of the time period, statistics and verification of the periodic resource data of each time period can be conveniently performed.

In one application example, as shown in fig. 7, the resource data collation method described above is described taking a borrowing service as an example. The application example comprises interaction among a loan system, an accounting system and a data warehouse system. It will be appreciated that in other embodiments, the various data processing performed in the multi-bin system may also be implemented in the loan system.

Specifically, the loan system counts each transaction to the accounting system, the daily account balance value of the loan system is synchronized to the balance pulling list generated by the several warehouse system every day, and the balance checking is performed by the several warehouse system through the balance zipper list and the accounting balance of the accounting system every day.

It should be noted that borrowing refers to debt certificates generated by customers borrowing on the internet financial platform, and each time a customer borrows, a new borrow is generated. The posting balance refers to the borrowed balance obtained after posting the occurrence amount of the accounting transaction running water, and the posting process has positive and negative directions, for example, the borrowed principal balance of the money-paying transaction is increased, the borrowed principal interest balance of the money-counting transaction is increased, and the borrowed principal balance of the money-paying transaction is decreased. Online balance refers to real-time balance on borrowing, and changes in real time when transactions occur.

In the embodiment, the embodiment of generating and storing the borrowed balance according to days is provided, so that the statistics and verification problems caused by that only one online balance exists in one borrowed and the online balance is changed in real time are solved. The loan accounting system adopts a dispatcher to generate a posting balance for each day of accounting transaction running water posting, and after each accounting transaction running water posting, checking whether the posting balance is consistent with an online balance snapshot of the accounting transaction running water or not. The balance solidification of the current day is not changed after the accounting transaction flow of the current day is completed, at the moment, the dispatcher stops accounting, informs the number bin system to synchronize the balance and updates the balance to the balance pull chain table. After the synchronization data of the database system is completed, the loan accounting system starts the accounting transaction flow of the new day of the dispatcher posting again. By the method, each balance value borrowed on any date can be traced, and balance statistics and verification can be conveniently carried out. The account is posted according to the account posting occurrence amount in a unified way, the online balance is obtained after the account posting transaction record is taken, the account posting efficiency is integrally improved by separating the online balance from the account posting balance and asynchronously posting, a dark period is set (stopping after the account posting is completed in T-1 day) based on the account posting balance in a plurality of bins, the account posting period is not set based on the online balance in a client, the balance output caliber is unified, the daily balance is ensured to be completely accurate, the difference is tracked in a unified way, and the aim of automatically finding the difference every day is fulfilled.

Specifically, for the generation of a borrowed balance: and acquiring accounting transaction running water of a specified date through a scheduling task, and performing accounting processing on the accounting transaction running water to generate a borrowed accounting balance of a corresponding date. After all the accounting transactions in the date accounting transaction flow are finished, informing a data warehouse system to synchronously borrow accounting balances and generate a balance pull chain list. Before the synchronous data of the number warehouse system are completed, the dispatching task stops posting accounting transaction flow of the new day, so that the influence of real-time transaction of the new day on the daily posting balance is avoided. When the transaction processing is performed, the balance posting rules are mapped through transaction codes in the accounting transaction flow, a note transaction flow can be mapped with a plurality of balance posting rules, the posting processing is performed on transaction occurrence amount, principal occurrence amount, interest occurrence amount and expense occurrence amount, and after the processing of all balance posting rules of the transaction is completed, checking of posting balance and online balance after the transaction is started.

For synchronization of borrowed posting balances: the data warehouse system synchronously borrows the balance of the posting, stores the balance according to the date, does not change in the continuous date period, records the balance of the posting by using a start-stop date interval in a balance drawing linked list so as to save a storage interval, and finally generates a balance drawing linked list of the whole life period of the posting by the data warehouse system.

Checking the borrowed balance: the balance kept by the account-passing balance zipper table is fixed, so that balance statistics of each dimension and balance check of each system such as an accounting system can be performed in a number bin state, the problem of inaccurate statistical data caused by real-time variation cannot be solved, complex data calculation is not required, and the balance check work is simplified.

It should be noted that, the loan system keeps consistent with the accounting system posting rules through accounting transaction flow posting sent to the accounting system, so as to ensure zero difference between the balances of the loan system and the accounting system; checking the posting balance and the online balance after each transaction of the loan system is posted, and generating a checking difference by inconsistency; the data warehouse system synchronizes the borrowing and posting balance changed by the loan system to generate a borrowing and posting balance pulling chain table; the account balance checking system checks the total score through the account balance zipper table and the accounting system balance every day, and the inconsistent balance difference is generated; when the daily interest list is required to be output by borrowing, the data warehouse system can be generated by pulling the daily interest and daily penalty fields of the linked list by borrowing the balance of the posting.

Based on the processing, the balance information of each borrowed data on any date can be counted conveniently and rapidly, complex calculation logic is not needed, a user transaction dark period is not needed to be set, the influence on user experience is avoided, daily balance difference can be found automatically, and unified management and tracking are facilitated.

It should be understood that, although the steps in the flowcharts of fig. 2-6 are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in fig. 2-6 may include multiple steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor does the order in which the steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the steps or stages in other steps or other steps.

In one embodiment, as shown in fig. 8, there is provided a resource data collation apparatus including: a resource statistics module 802, a first resource collation module 804, a second resource collation module 806 and a collation result obtaining module 808. Wherein:

the resource statistics module 802 is configured to obtain resource transfer details of the target service in a preset check period, and perform resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail;

A first resource checking module 804, configured to obtain real-time resource snapshot data corresponding to the resource transfer details, and perform data checking on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource checking result;

a second resource checking module 806, configured to obtain periodic resource data corresponding to a checking period from a resource management system corresponding to the target service, and perform data checking on current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result;

and the checking result obtaining module 808 is configured to obtain a resource checking result of the target service according to the first resource checking result and the second resource checking result.

In one embodiment, the second resource checking module is further configured to synchronize current resource data corresponding to the resource transfer details with the latest recording time to a periodic resource data table corresponding to the target service; acquiring periodic resource data corresponding to the check period from a resource management system corresponding to the target service; according to the periodic resource data table, performing data check on the periodic resource data to obtain a second resource check result;

in one embodiment, the periodic resource data table includes a periodic resource data pull chain table; the second resource checking module is also used for acquiring the last item of periodic resource data in the periodic resource data pull chain list; when the current resource data corresponding to the resource transfer detail with the latest recording time is the same as the resource data of the last period, updating the statistical time of the resource data of the last period; when the current resource data corresponding to the resource transfer detail with the latest recording time is different from the resource data of the last period, the current resource data corresponding to the resource transfer detail of the last period in the checking period is written into the period resource data pull chain table.

In one embodiment, the resource data checking device further includes a target service processing module, configured to generate a resource transfer detail corresponding to the target service and a real-time resource information snapshot corresponding to the resource transfer detail in response to the target service processing request; and sending the resource transfer details to a resource management system corresponding to the target service.

In one embodiment, the number of resource transfer details corresponding to the target service is a plurality of; the target service processing module is used for sequentially transmitting the generated resource transfer details to a resource management system corresponding to the target service through a message queue in real time; generating a record file containing a plurality of resource transfer details, and sending the record file to a resource management system so that the resource management system performs data check according to the message queue and the record file.

In one embodiment, the resource statistics module is further configured to obtain a data scheduling task including a target service check period; executing a data scheduling task, and acquiring a resource transfer detail corresponding to the checking period; and carrying out resource statistics on each resource transfer detail according to the recording time sequence of the resource transfer detail to obtain current resource data corresponding to each resource transfer detail.

In one embodiment, the target service includes a resource transfer specification generated over a time period, the time period including a plurality of time periods; the resource data checking device also comprises a periodic resource data query module which is used for acquiring a periodic resource data query request of a target service in a specified time period and searching the existing resource transfer detail corresponding to the specified time period; splitting the resource transfer details corresponding to the time period into resource transfer details corresponding to a plurality of time periods according to the time period in which the designated time period is located; screening out newly added resource transfer details corresponding to the designated time period from the resource transfer details corresponding to the time periods; and obtaining a query result corresponding to the periodic resource data query request according to the existing resource transfer detail and the newly added resource transfer detail.

In one embodiment, the resource statistics module is further configured to obtain a number of resources of the resource transfer details and a transfer category identifier, where the transfer category identifier includes a resource transfer-in item and a resource transfer-out item. And acquiring the latest resource statistical result, and acquiring current resource data corresponding to the resource transfer detail according to the number of resources, the transfer category identification and the latest resource statistical result.

The specific limitation regarding the resource data collation apparatus may be referred to the limitation of the resource data collation method hereinabove, and will not be described in detail here. The respective modules in the above-described resource data collating device may be realized in whole or in part by software, hardware, and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure of which may be as shown in fig. 9. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is used for storing resource data collation data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a resource data collation method.

It will be appreciated by those skilled in the art that the structure shown in fig. 9 is merely a block diagram of a portion of the structure associated with the present application and is not limiting of the computer device to which the present application applies, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having stored therein a computer program, the processor implementing the steps of the method embodiments described above when the computer program is executed.

In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when executed by a processor, implements the steps of the method embodiments described above.

Those skilled in the art will appreciate that implementing all or part of the above-described methods in accordance with the embodiments may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, or the like. Volatile memory can include random access memory (Random Access Memory, RAM) or external cache memory. By way of illustration, and not limitation, RAM can be in the form of a variety of forms, such as static random access memory (Static Random Access Memory, SRAM) or dynamic random access memory (Dynamic Random Access Memory, DRAM), and the like.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples represent only a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (10)

1. A resource data collation method, characterized by comprising:

acquiring resource transfer details of a target service in a preset checking period, and carrying out resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail;

acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data check on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource check result;

Acquiring periodic resource data corresponding to the checking period from a resource management system corresponding to the target service, and performing data checking on current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result;

and obtaining the resource check result of the target service according to the first resource check result and the second resource check result.

2. The method of claim 1, wherein the obtaining periodic resource data corresponding to the check period from the resource management system corresponding to the target service, and the performing data check on the current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data, to obtain a second resource check result includes:

synchronizing current resource data corresponding to the resource transfer detail with the latest recording time to a periodic resource data table corresponding to the target service;

acquiring periodic resource data corresponding to the check period from a resource management system corresponding to the target service;

and according to the periodic resource data table, performing data check on the periodic resource data to obtain a second resource check result.

3. The method of claim 1, wherein the periodic resource data table comprises a periodic resource data pull chain table;

the step of synchronizing the current resource data corresponding to the resource transfer detail with the latest recording time to the periodic resource data table corresponding to the target service comprises the following steps:

acquiring the last item of periodic resource data in the periodic resource data pull chain table;

when the current resource data corresponding to the resource transfer detail with the latest recording time is the same as the resource data of the last period, updating the statistical time of the resource data of the last period;

and when the current resource data corresponding to the resource transfer detail with the latest recording time is different from the last period resource data, writing the current resource data corresponding to the last resource transfer detail in the checking period into the period resource data pull chain table.

4. The method according to claim 1, wherein the method further comprises:

responding to a target service processing request, and generating a resource transfer detail corresponding to the target service and a real-time resource information snapshot corresponding to the resource transfer detail;

and sending the resource transfer details to a resource management system corresponding to the target service.

5. The method of claim 4, wherein the number of resource transfer details corresponding to the target service is a plurality of;

the sending the resource transfer details to the resource management system corresponding to the target service comprises the following steps:

sequentially sending the generated resource transfer details to a resource management system corresponding to the target service through a message queue in real time;

generating a record file containing a plurality of resource transfer details, and sending the record file to the resource management system so that the resource management system performs data check according to the message queue and the record file.

6. The method of claim 1, wherein the obtaining the resource transfer details of the target service in the checking period, performing resource statistics on each resource transfer detail, and obtaining current resource data corresponding to each resource transfer detail comprises:

acquiring a data scheduling task containing a target service check period;

executing the data scheduling task, and acquiring a resource transfer detail corresponding to the checking period;

and carrying out resource statistics on each resource transfer detail according to the recording time sequence of the resource transfer detail to obtain current resource data corresponding to each resource transfer detail.

7. The method of claim 1, wherein the target traffic comprises a resource transfer specification generated over a time period, the time period comprising a plurality of time periods; the method further comprises the steps of:

acquiring a periodic resource data query request of a target service in a specified time period, and searching an existing resource transfer detail corresponding to the specified time period;

splitting the resource transfer details corresponding to the time period into resource transfer details corresponding to a plurality of time periods according to the time period in which the designated time period is located;

screening out newly added resource transfer details corresponding to the appointed time period from the resource transfer details corresponding to a plurality of time periods;

and obtaining a query result corresponding to the periodic resource data query request according to the existing resource transfer detail and the newly added resource transfer detail.

8. A resource data collating apparatus, characterized by comprising:

the resource statistics module is used for acquiring resource transfer details of the target service in a preset check period, and carrying out resource statistics on each resource transfer detail to obtain current resource data corresponding to each resource transfer detail;

The first resource checking module is used for acquiring real-time resource snapshot data corresponding to the resource transfer details, and performing data checking on the current resource data and the corresponding real-time resource snapshot data to obtain a first resource checking result;

the second resource checking module is used for acquiring periodic resource data corresponding to the checking period from the resource management system corresponding to the target service, and performing data checking on the current resource data corresponding to the resource transfer detail with the latest recording time and the periodic resource data to obtain a second resource checking result;

and the checking result obtaining module is used for obtaining the resource checking result of the target service according to the first resource checking result and the second resource checking result.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 7 when the computer program is executed.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 7.

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