CN117609073A - Standardized test flow of distributed multi-source heterogeneous financial data - Google Patents

Abstract

The invention provides a method and a system for realizing a standardized test flow. The system comprises a data input subsystem, a data grouping subsystem, a data simulation subsystem, a data remapping subsystem and a data output subsystem; the data input subsystem receives financial data generated by the distributed multi-source heterogeneous terminal; the data grouping subsystem groups financial data; the data simulation subsystem generates financial simulation data corresponding to each group of financial data based on the simulation operation; the data remapping subsystem performs remapping operation, and the data output subsystem outputs standardized test results for each group of financial data, including a generation trend and a security risk value for each group of financial data. The invention also provides a test method realized based on the system and a computer readable storage medium for realizing the method. The technical scheme of the invention can completely realize the standardized test of the multi-source heterogeneous financial data and ensure the comprehensive and complete test situation.

Description

Standardized test flow of distributed multi-source heterogeneous financial data

Technical Field

The invention belongs to the technical field of financial data testing and processing, and particularly relates to a standardized testing system and method for distributed multi-source heterogeneous financial data and a computer program instruction medium for realizing the method.

Background

With the rapid development and the gradual maturity of the financial market in China, the quantity, the scale and the profitability of financial companies and the innovative development speed of financial products and services are greatly improved. With the popularization of the mobile internet, mobile finance has gradually become a mainstream form of financial products.

Mobile internet finance is an emerging field where the traditional financial industry is combined with the mobile internet. The mobile internet finance is different from the medium adopted by the traditional financial service industry, and the mobile internet finance is characterized by various mobile devices represented by a smart phone, a tablet personal computer and a wireless POS machine, and the traditional financial service has a series of characteristics of stronger transparency, higher participation, better collaboration, lower middle cost, more convenient operation and the like through the tools such as the mobile internet. In theory, any internet application involving broad finance should be internet finance (ITFIN), including but not limited to modes of payment for third parties, sales of online financial products, credit evaluation auditing, financial intermediaries, financial electronic commerce, etc.

The data generation mode of mobile internet finance is completely different from that of a traditional counter machine or even a desktop terminal, so that the traditional testing system and the testing method for finance data in the prior art cannot accurately test and identify data generated in the mobile internet finance process, and therefore standardized testing cannot be completed, further system risks cannot be evaluated, and the risk of a large amount of finance data on the background processing capacity of the system cannot be predicted.

The Chinese patent No. 109544163B discloses a risk control method for payment behavior of a user, which comprises the following steps: acquiring a plurality of historical transaction result sample data corresponding to user payment behaviors; respectively taking transaction behavior characteristics and transaction behavior attributes in historical transaction result sample data as input and output of a semi-supervised clustering model, and constructing and training the semi-supervised clustering model to obtain a risk identification result; inputting transaction data to be identified corresponding to user payment behaviors into a trained risk identification model to obtain a risk identification result; and determining response operation for the transaction data to be identified according to the risk identification result and the service type corresponding to the transaction data to be identified. The risk identification can be carried out in millisecond-level time, and the identification speed and the accuracy are high. The method and the device can automatically intercept high-risk payment behaviors, improve the safety of the user payment behaviors and reduce the property loss of the user.

However, the related art has not reported how to implement standardized testing of financial data generated by distributed heterogeneous mobile terminals, and particularly related technical solutions including the influence of financial data generated by mobile terminals on standardized testing procedures of systems, and the related art has not presented an effective solution.

Disclosure of Invention

In order to solve the technical problems, the invention provides a method and a system for realizing a standardized test flow. The system comprises a data input subsystem, a data grouping subsystem, a data simulation subsystem, a data remapping subsystem and a data output subsystem; the data input subsystem receives financial data generated by the distributed multi-source heterogeneous terminal; the data grouping subsystem groups financial data; the data simulation subsystem generates financial simulation data corresponding to each group of financial data based on the simulation operation; the data remapping subsystem performs remapping operation, and the data output subsystem outputs standardized test results for each group of financial data, including a generation trend and a security risk value for each group of financial data. The invention also provides a test method realized based on the system and a computer readable storage medium for realizing the method.

The following describes the technical scheme of the present application from three aspects:

in a first aspect, the present invention provides a standardized testing system for distributed multi-source heterogeneous financial data, the testing system comprising a data input subsystem, a data grouping subsystem, a data simulation subsystem, a data remapping subsystem, and a data output subsystem;

the data input subsystem is used for receiving financial data generated by the distributed multi-source heterogeneous terminal;

the data grouping subsystem is connected with the data input subsystem and groups the financial data received by the data input module subsystem according to the generation mode;

the data simulation subsystem performs a simulation operation on the financial data in each group, and generates financial simulation data corresponding to each group of financial data based on the simulation operation;

the data remapping subsystem performs remapping operation on each grouping of financial data and corresponding financial simulation data;

based on the remapping operation, the data output subsystem outputs a standardized test result of each group of financial data, wherein the standardized test result comprises a generation trend of each group of financial data and a security risk value, and the security risk value represents the risk of the group of financial data for the processing capacity of a background processing system;

the system comprises a testing system, a plurality of heterogeneous terminals, a plurality of wireless communication terminals and a plurality of wireless communication terminals, wherein the heterogeneous terminals are communicated with the testing system through a distributed wireless network, and each heterogeneous terminal is provided with at least one financial application; the financial data is generated in response to the financial application being in an active state.

In the invention, the generation mode of the financial data comprises a common operation and a payment operation, wherein the common operation comprises a browsing operation, a sliding operation or a clicking operation; the payment operation is initiated based on a password entry operation and/or an identification operation.

The standardized test results include a trend of generation for each set of financial data and a security risk value representing a risk size of the set of financial data for a processing capability of the background processing system.

In a second aspect of the present invention, based on the system of the first aspect, there is provided a standardized test method of distributed multi-source heterogeneous financial data, which performs a standardized test after acquiring financial data from a plurality of heterogeneous terminals.

Specifically, the method comprises the following steps:

s701: acquiring a plurality of financial data from a plurality of heterogeneous terminals according to a first preset period, wherein the plurality of heterogeneous terminals comprise a mobile terminal and a desktop terminal;

s702: grouping the financial data according to the generation mode of the financial data to obtain a plurality of groups of financial data, wherein the generation mode of the financial data in each group is the same;

s703: for packets containing only consumption data or payment data, generating corresponding simulated financial data;

s704: performing data remapping operation on a packet containing analog financial data to obtain first test data;

s705: and based on the first data, obtaining standardized test results of a plurality of financial data acquired for the first preset period.

The standardized test results include a trend of generation for each set of financial data and a security risk value representing a risk size of the set of financial data for a processing capability of the background processing system.

If the security risk value is greater than a preset value, the first preset period is reduced, and the step S701 is returned; otherwise, the process returns to step S701.

The method of the second aspect may be performed automatically by program instructions by a terminal device, in particular an image processing terminal device, comprising a mobile terminal, a desktop terminal, a server cluster, etc., comprising a processor and a memory, and thus, in a third aspect of the invention, a computer readable storage medium is also provided, on which computer program instructions are stored; the program instructions are executed by an image terminal processing device comprising a processor and a memory for carrying out all or part of the steps of the method. The processor and the memory are connected through a bus to form internal communication of the terminal equipment.

The technical scheme of the invention can completely realize the standardized test of the multi-source heterogeneous financial data and ensure the comprehensive and complete test situation.

Further advantages of the invention will be further elaborated in the description section of the embodiments in connection with the drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of subsystem connections of a standardized testing system for distributed multi-source heterogeneous financial data according to one embodiment of the present invention

FIG. 2 is a schematic diagram of the type of financial data received by the system of FIG. 1

FIG. 3 is a schematic diagram of a simulation operation of the system of FIG. 1 on grouped financial data

FIG. 4 is a schematic diagram of the system of FIG. 2 outputting standardized test results

FIG. 5 is a flow chart of a standardized testing method for distributed multi-source heterogeneous financial data based on the system implementation of FIG. 1

FIG. 6 is a flow chart of an implementation of a further preferred embodiment of the method depicted in FIG. 5

Fig. 7 is a schematic diagram of a terminal device implementing the method of fig. 5 or 6

Detailed Description

The invention will be further described with reference to the drawings and detailed description.

Referring to fig. 1, a subsystem connection diagram of a standardized testing system for distributed multi-source heterogeneous financial data according to an embodiment of the present invention is shown.

In fig. 1, the standardized test system includes a data input subsystem, a data packet subsystem, a data simulation subsystem, a data remapping subsystem, and a data output subsystem.

Specifically, the data input subsystem is connected with a plurality of heterogeneous terminals and is used for receiving financial data generated by the heterogeneous terminals.

In the invention, at least two heterogeneous terminals respectively have different structures, including different software structures and/or hardware structures;

as an illustrative example, the plurality of heterogeneous terminals includes a mobile terminal and a desktop terminal.

The mobile terminal and the desktop terminal have different hardware parameters and/or different operating system versions;

however, as a common aspect, the heterogeneous terminals are each in accordance with at least one financial class APP, or referred to as a financial class application.

In various embodiments of the present invention, the financial class APP has a consumption function and a payment function; thus, without loss of generality, it is believed that in the present invention, financial class APP includes shopping APP and payment class APP; the shopping APP can comprise a shopping class APP such as Taobao, beijing Dong, jian Duoduo and the like, and a user can generate shopping data through browsing operation, sliding operation or clicking operation, or the shopping data is called consumption data; the payment APP comprises payment APP such as payment treasures, weChat, cloud flash payment and the like, and generally, after the consumption data are generated, a user usually triggers the payment APP to complete payment, and the payment data are generated, so that a complete shopping-consumption process is completed;

of course, some APP may support both shopping and payment itself, such as cloud flash with mall and payment functions; the Beijing east mall integrates Beijing east payment and the like, and does not need to jump operation or trigger operation to payment APP. However, this situation does not affect the generation of consumption data and payment data, and therefore does not affect the understanding of the technical solution of the invention.

In the present invention, an operation accompanied by generation of payment-type data is referred to as a payment operation or a security operation, and an operation accompanied by generation of consumer-type data is referred to as a normal operation;

in particular, the payment operation or the security operation includes various password input operations and/or identification operations; common operations include operations that do not involve secure input, such as browsing operations, sliding operations, or clicking operations.

Of course, it will be appreciated that in the prior art there are also (micropayment) free payment arrangements, i.e. the payment operation or the security operation itself does not involve various password entry operations and/or identification operations. However, it is understood that even in the case of the pay-by-pay mode, the corresponding authentication operation (e.g., analysis of user login habit, login time, etc.) may actually be performed in the background of the system, and thus, in the present invention, the payment operation or security operation may still be understood to include various password input operations and/or identification operations.

The plurality of mobile terminals or desktop terminals provided with the financial APP are communicated with the testing system through a distributed network after generating financial data, and are called as distributed multi-source heterogeneous terminals in the invention due to different structures.

The data input subsystem is used for receiving financial data generated by the distributed multi-source heterogeneous terminal;

referring next to fig. 2, the types of financial data in the present invention are shown in fig. 2.

According to the description of the foregoing scenario, in the present invention, financial data generated by each terminal is divided into consumption data, payment data, and consumption-payment data.

The data grouping subsystem is connected with the data input subsystem, and groups the financial data received by the data input module subsystem according to the generation mode.

Referring to fig. 1, the data grouping subsystem is connected to the data input subsystem, and groups the financial data received by the data input module subsystem according to the generation mode thereof;

the financial data generation mode comprises common operation and payment operation, wherein the common operation comprises browsing operation, sliding operation or clicking operation; the payment operation is initiated based on a password entry operation and/or an identification operation.

The data grouping subsystem groups the financial data according to the generation mode of the financial data to obtain a plurality of grouping financial data, and the generation mode of the financial data in each grouping is the same;

preferably, the data grouping subsystem divides the financial data into a consumption data group, a payment data group and a joint data group;

the consumption data set only contains consumption data; the payment data set contains only payment data;

the federated data set includes each consumption data and payment data associated therewith.

The present invention notes that, according to a general principle, each terminal will usually generate payment data immediately after generating consumption data within a predetermined time, which is also the most common generation mode of financial data, namely, a consumption-payment combination data set is generated on the same terminal, and can be called as standardized financial data, and such data can be directly used for standardized testing of a system without any processing;

however, the present invention also notes another non-standardized financial data, namely that a certain terminal generates only consumer data at a time, or only payment data. Here, a certain time-only generation means that, within a certain preset period of time, there is no flow of "consumption-payment" occurring on the same terminal as usual, and only the consumption type operation or only the payment type operation is performed.

Typically, such financial data is incomplete and may even be ineffective, failing to be used for standardized testing of the system, and even, in some cases, being determined by the system as data anomalies.

However, the inventors found that this situation occurs in practice and is in line with the practice, should be included in the category of standardized tests.

A terminal only generates consumer data at a certain time, and the prior art generally considers that the terminal user only browses consumer commodities and finally gives up payment, so that only the consumer data is generated;

however, the inventors have found that merely generating consumer data does not necessarily mean that the user has abandoned payment, but rather that the user has selected a payment replacement function, i.e. sending a consumer order to another user terminal for payment;

at this time, the payment information such as order forwarding, request payment and the like in the consumption data can be identified, and the subsequent payment data on the other terminal of the consumption data is judged;

likewise, a terminal generates only payment type data at a time, and the prior art generally considers that a false transaction exists for a terminal user, such as credit card cash and even money laundering, and the like, and judges the behavior as abnormal, and does not adopt the data.

However, the inventors have found that merely generating payment type data does not necessarily mean that the user has abandoned payment, but that it is also more likely that the user receives a payment order, i.e. is about to receive a payment order sent by another user terminal;

at this time, it may be determined that there is corresponding consumer data on another terminal before the payment operation by identifying information such as a payment request on the payment operation interface.

However, in the distributed network, each heterogeneous terminal is associated with each other, the test system is not perceivable, and the test system can only perceive and receive the data state of each heterogeneous terminal itself, so the test system cannot realize that the "terminal generating only consumption data" and the "terminal generating only payment data" are associated, thereby generating valid data.

In this regard, in connection with FIG. 1, the data simulation subsystem performs a simulation operation on the financial data in each group, and generates financial simulation data corresponding to each group of financial data based on the simulation operation.

More specifically, referring to fig. 3,

for packets containing only consumption data or payment data, corresponding simulated financial data is generated.

Preferably, for a packet containing only consumption data, the corresponding simulated financial data is the subsequent payment class data;

for packets containing only payment data, corresponding simulated financial data is generated as pre-consumer data.

More specifically, the above strategy for generating the corresponding financial simulation data can refer to the complete data set existing at the same time, namely, the joint data set generated by the distributed heterogeneous terminal.

Thus, in this embodiment, the data simulation subsystem performs the following simulation operations for different packet data:

for the consumption data set, generating subsequent payment data of the consumption data set according to a first preset strategy;

generating consumption data of the front of the payment data set according to a second preset strategy for the payment data set;

the first preset policy and the second preset policy are determined based on the joint data set.

Next, see fig. 4.

In conjunction with fig. 1, the data remapping subsystem performs a remapping operation on each of the grouped financial data with corresponding financial analog data.

Specifically, in fig. 4, the operations corresponding to the grouped financial data and the financial analog data corresponding to the grouped financial data are executed on the remapping test terminal, so as to obtain first test data;

the remapping test terminal is identical to at least one attribute of a heterogeneous terminal generating the grouped financial data;

the at least one attribute includes one of a terminal hardware type, a terminal operating system software type, a terminal installed financial application.

Preferably, the remapping test terminal is identical to a heterogeneous terminal that generated the joint data set.

Further, fig. 1 and fig. 4 are combined.

Based on the remapping operation, the data output subsystem outputs a standardized test result for each group of financial data, the standardized test result including a generation trend for each group of financial data and a security risk value representing a risk size of the group of financial data for a processing capability of a background processing system.

Specifically, comparing each first test data with corresponding combined data set data to obtain the standardized test result; the corresponding joint data set data are financial data obtained by executing the corresponding operation on heterogeneous terminals with at least one attribute identical to that of the remapping test terminal.

In the above embodiment, a plurality of heterogeneous terminals communicate with the test system through a distributed wireless network, each of the heterogeneous terminals being installed with at least one financial application; the financial data is generated in response to the financial application being in an active state.

Because complete financial data is generated, the standardized test flow can be smoothly performed, for example, in the system, a safety test result, i.e. a standardized test result for representing the risk of the financial data on the processing capacity of a background processing system, can be obtained based on the comparison of the generated financial data of the actual heterogeneous terminal and the remapping test terminal with the same attribute.

There are various implementations in the art of how to implement a risk value test of the processing power of a system after obtaining financial data. Since the specific testing process is not the improvement focus of the present invention, the description is not made here, and the following prior art is specifically referred to:

[1]Lisa Crispin,Janet Gregory.Agile Testing:A Practical Guide for Testers and Agile Teams[M].Boston:Addison-Wesley Educational Publishers Inc,2008.

[2]D.Richard Kuhn,Raghu N.Kacker,Yu Lei.Practical Combinatorial Testing[M].WASHINGTON:NIST Special Publication,2010.

[3]R.Kimball,J.Caserta.The Data Warehouse ETL Toolkit:Practical techniques for extracting,cleaning,conforming and delivering data[M].Hoboken:John Wiley&Sons Inc.,2004.

see fig. 5 based on fig. 1-4.

Fig. 5 shows a standardized testing method of distributed multi-source heterogeneous financial data, which performs standardized testing after acquiring financial data from a plurality of heterogeneous terminals.

In fig. 5, the method comprises the steps of:

s701: acquiring a plurality of financial data from a plurality of heterogeneous terminals according to a first preset period,

specifically, the heterogeneous terminals include a mobile terminal and a desktop terminal;

s702: grouping the financial data to obtain a plurality of grouped financial data;

specifically, during grouping, the generation of the financial data is performed according to the generation mode of the financial data, and the generation mode of the financial data in each grouping is the same;

the generation mode of the financial data comprises common operation and payment operation, wherein the common operation comprises browsing operation, sliding operation or clicking operation; the payment operation is initiated based on a password entry operation and/or an identification operation.

Correspondingly, the financial data are divided into a consumption data group, a payment data group and a joint data group; the consumption data set only contains consumption data; the payment data set contains only payment data; the federated data set includes each consumption data and payment data associated therewith.

S703: for packets containing only consumption data or payment data, generating corresponding simulated financial data;

specifically, for the consumption data set, generating subsequent payment data of the consumption data set according to a first preset strategy; generating consumption data of the front of the payment data set according to a second preset strategy for the payment data set;

the first preset policy and the second preset policy are determined based on the joint data set.

S704: performing data remapping operation on a packet containing analog financial data to obtain first test data;

specifically, executing operations corresponding to the grouped financial data and the financial simulation data corresponding to the grouped financial data on a remapping test terminal to obtain first test data;

the remapping test terminal is identical to at least one attribute of a heterogeneous terminal generating the grouped financial data;

the at least one attribute includes one of a terminal hardware type, a terminal operating system software type, a terminal installed financial application.

S705: based on the first data, obtaining standardized test results of a plurality of financial data acquired for the first preset period;

specifically, each first test data is compared with the corresponding combined data set data to obtain the standardized test result; the corresponding joint data set data are financial data obtained by executing the corresponding operation on heterogeneous terminals with at least one attribute identical to that of the remapping test terminal.

In the above embodiment, the standardized test results include a production trend of each set of financial data and a security risk value representing a risk size of the set of financial data for processing capability of the background processing system.

Reference is next made to fig. 6. On the basis of fig. 5, after the step S705, if the security risk value is greater than a preset value, the first preset period is reduced, and the process returns to the step S701; otherwise, the process returns to step S701.

The method of the present invention may be performed automatically by program instructions through terminal devices, particularly image processing terminal devices, including mobile terminals, desktop terminals, servers, server clusters, etc., comprising a processor and a memory, see fig. 7, providing a computer readable storage medium having stored thereon computer program instructions; the program instructions are executed by an image terminal processing device comprising a processor and a memory for carrying out all or part of the steps of the method. The processor and the memory are connected through a bus to form internal communication of the terminal equipment.

Practice proves that by adopting the technical scheme of the invention, complete standardized test can be carried out on financial data of the distributed heterogeneous terminal under different conditions, thereby improving the comprehensiveness and accuracy of system test.

Other concepts not addressed by the present invention are prior art, and various examples of the present invention are merely illustrative, and it will be appreciated by those skilled in the art that numerous changes, modifications, substitutions and variations may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A standardized test system of distributed multi-source heterogeneous financial data, which comprises a data input subsystem, a data grouping subsystem, a data simulation subsystem, a data remapping subsystem and a data output subsystem;

the method is characterized in that:

the data input subsystem is used for receiving financial data generated by the distributed multi-source heterogeneous terminal;

the data grouping subsystem is connected with the data input subsystem and groups the financial data received by the data input module subsystem according to the generation mode;

the data simulation subsystem performs a simulation operation on the financial data in each group, and generates financial simulation data corresponding to each group of financial data based on the simulation operation;

the data remapping subsystem performs remapping operation on each grouping of financial data and corresponding financial simulation data;

based on the remapping operation, the data output subsystem outputs a standardized test result of each group of financial data, wherein the standardized test result comprises a generation trend of each group of financial data and a security risk value, and the security risk value represents the risk of the group of financial data for the processing capacity of a background processing system;

the system comprises a testing system, a plurality of heterogeneous terminals, a plurality of wireless communication terminals and a plurality of wireless communication terminals, wherein the heterogeneous terminals are communicated with the testing system through a distributed wireless network, and each heterogeneous terminal is provided with at least one financial application; the financial data is generated in response to the financial application being in an active state.

2. The standardized testing system for distributed multi-source heterogeneous financial data of claim 1 wherein:

the financial data generated by each heterogeneous terminal comprises one of consumption data, payment data or a combination thereof;

the consumption data is generated through browsing operation, sliding operation or clicking operation on the heterogeneous terminal;

the payment data is generated by at least one authentication operation of the heterogeneous terminal, the authentication operation including a password input operation and/or an identification operation.

3. A standardized testing system for distributed multi-source heterogeneous financial data according to claim 1 or claim 2, wherein:

the data grouping subsystem divides the financial data into a consumption data group, a payment data group and a joint data group;

the consumption data set only contains consumption data; the payment data set contains only payment data;

the federated data set includes each consumption data and payment data associated therewith.

4. A standardized testing system for distributed multi-source heterogeneous financial data according to claim 3, wherein:

the data simulation subsystem performs corresponding simulation operations on different packet data as follows:

for the consumption data set, generating subsequent payment data of the consumption data set according to a first preset strategy;

generating consumption data of the front of the payment data set according to a second preset strategy for the payment data set;

the first preset policy and the second preset policy are determined based on the joint data set.

5. A standardized testing system for distributed multi-source heterogeneous financial data according to claim 3, wherein:

the data remapping subsystem performs remapping operation on each grouping of financial data and corresponding financial simulation data, and specifically includes:

executing operations corresponding to the grouping financial data and the financial simulation data corresponding to the grouping financial data on the remapping test terminal to obtain first test data;

the remapping test terminal is identical to at least one attribute of a heterogeneous terminal generating the grouped financial data;

the at least one attribute includes one of a terminal hardware type, a terminal operating system software type, a terminal installed financial application.

6. The standardized testing system for distributed multi-source heterogeneous financial data of claim 5 wherein:

comparing each first test data with the corresponding combined data set data to obtain the standardized test result;

the corresponding joint data set data are financial data obtained by executing the corresponding operation on heterogeneous terminals with at least one attribute identical to that of the remapping test terminal.

7. A standardized test method for distributed multi-source heterogeneous financial data, the method performing standardized test after acquiring financial data from a plurality of heterogeneous terminals, the method comprising the steps of:

s701: acquiring a plurality of financial data from a plurality of heterogeneous terminals according to a first preset period, wherein the plurality of heterogeneous terminals comprise a mobile terminal and a desktop terminal;

s702: grouping the financial data according to the generation mode of the financial data to obtain a plurality of groups of financial data, wherein the generation mode of the financial data in each group is the same;

s703: for packets containing only consumption data or payment data, generating corresponding simulated financial data;

s704: performing data remapping operation on a packet containing analog financial data to obtain first test data;

s705: based on the first data, obtaining standardized test results of a plurality of financial data acquired for the first preset period;

the financial data generation mode comprises common operation and payment operation, wherein the common operation comprises browsing operation, sliding operation or clicking operation; the payment operation is initiated based on a password entry operation and/or an identification operation.

8. The standardized testing method of distributed multi-source heterogeneous financial data of claim 7, wherein:

the standardized test results include a trend of generation for each set of financial data and a security risk value representing a risk size of the set of financial data for a processing capability of the background processing system.

9. The standardized testing method of distributed multi-source heterogeneous financial data of claim 8, wherein:

if the security risk value is greater than the preset value, the first preset period is reduced, and the step S701 is returned.

10. A computer readable storage medium having stored thereon computer executable program instructions; the program instructions are executed by a terminal device comprising a processor and a memory for implementing all or part of the steps of the method of any of claims 7-9.