CN112732415A - Transaction processing method, device and equipment based on resource exchange proxy system - Google Patents

Abstract

The application relates to a transaction processing method, a transaction processing device and transaction processing equipment based on a resource exchange proxy system. The method comprises the following steps: before the resource exchange proxy system starts to process the resource exchange entrusted transaction in the current period, each transaction preparation task in each transaction preparation node is executed in sequence to carry out preparation processing; in the current period, processing the resource exchange entrusted transaction; after finishing processing the resource exchange entrustment transaction in the current period, sequentially executing each execution result processing task in the transaction execution result processing node so as to process data generated by processing the resource exchange entrustment transaction; displaying the execution state of each task while executing each task; if the task with abnormal execution state exists, performing abnormal alarm; after receiving the task restart instruction, identifying the task associated with the abnormal task and re-triggering the abnormal task and the associated task to be executed. By adopting the method, the execution efficiency can be improved.

Description

Transaction processing method, device and equipment based on resource exchange proxy system

Technical Field

The present application relates to the field of computer technologies, and in particular, to a transaction processing method, apparatus, and device based on a resource exchange proxy system.

Background

With the development of science and technology, resource exchange is increasingly transferred to networks, and therefore, a plurality of resource exchange proxy systems are appeared to accept client's delegation to perform resource exchange in the resource exchange systems. Such as: the resource exchange may be a stock exchange, the resource exchange system may be a stock exchange system, and the resource exchange broker system may be a dealer system (i.e., a stock company system). In daily life, a plurality of tasks are required to be executed to support the normal operation of the resource exchange agent system.

In conventional approaches, each daily task typically needs to be performed manually. However, this method of manually performing daily tasks is cumbersome and inefficient to perform.

Disclosure of Invention

In view of the above, it is necessary to provide a transaction processing method, apparatus, computer device and storage medium based on a resource exchange proxy system, which can improve execution efficiency.

A transaction processing method based on a resource exchange proxy system, the method comprising:

before the resource exchange agent system starts to process the resource exchange entrustment affairs in the current period, each affair preparation task in each pre-configured affair preparation node is sequentially executed so as to carry out preparation processing related to the resource exchange entrustment affairs processed in the current period by the resource exchange agent system;

in the current period, processing a resource exchange entrusted transaction based on a preparation processing result of the transaction preparation task through the resource exchange agent system;

after the resource exchange proxy system finishes processing the resource exchange entrusting transaction in the current period, sequentially executing each execution result processing task in the pre-configured transaction execution result processing node so as to process data generated by the resource exchange proxy system processing the resource exchange entrusting transaction;

the execution state of each task is displayed in a relevant way while each task in the transaction preparation node and the transaction execution result processing node is executed;

if the task with abnormal execution state exists, performing abnormal alarm;

and after receiving a task restarting instruction, identifying a task associated with the abnormal task, and re-triggering the abnormal task and the associated task to be executed.

In one embodiment, the transaction preparation nodes include a component stop node, a data preparation node, and a component start node;

before the resource exchange proxy system starts to process the resource exchange delegation transaction in the current period, sequentially executing each transaction preparation task in each pre-configured transaction preparation node to perform preparation processing related to the resource exchange delegation transaction in the current period processed by the resource exchange proxy system, including:

before the resource exchange proxy system starts to process the resource exchange entrustment affairs in the current period, sequentially executing each component stopping task in the component stopping nodes to stop the components to be stopped specified by each component stopping task;

after the component stops the execution of the nodes, sequentially executing each data preparation task in the data preparation nodes to acquire data to be prepared appointed by each data preparation task;

after the data preparation node finishes executing, sequentially executing each component starting task in the component starting nodes so as to start the components to be started specified by each component starting task.

In one embodiment, the transaction execution result processing node comprises a daily end processing node;

after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, sequentially executing each execution result processing task in the pre-configured transaction execution result processing node to process data generated by the resource exchange proxy system processing the resource exchange delegation transaction, including:

after the resource exchange agent system finishes processing the resource exchange entrustment affairs in the current period, sequentially executing each daily end processing task in the daily end processing node so as to clear the data specified by each daily end processing task or generate an archive file according to the data.

In one embodiment, the transaction execution result processing node further comprises a data archiving node;

after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, sequentially executing each execution result processing task in the pre-configured transaction execution result processing node to process data generated by the resource exchange proxy system processing the resource exchange delegation transaction further comprises:

after the completion of the execution of the node processing, the data archiving tasks in the data archiving nodes are sequentially executed, so as to store or export the archived data or the archived file designated by the data archiving tasks.

In one embodiment, after performing an exception alarm if there is a task whose execution state is abnormal, the method further includes:

receiving an input task execution instruction;

and executing the task specified by the task execution instruction.

In one embodiment, the executing the task specified by the task execution instruction includes:

if the task execution instruction is an instruction for executing a task before starting processing the resource exchange entrustment transaction in the current period by one key, executing each transaction preparation task which is not executed in each transaction preparation node in sequence;

if the task execution instruction is an instruction for executing a task after finishing processing the resource exchange entrusted transaction in the current period by one key, executing each execution result processing task which is not executed in the transaction execution result processing node in sequence;

if the task execution instruction is an instruction aiming at the transaction preparation node or the transaction execution result processing node, sequentially executing each task which is not executed in the node specified by the task execution instruction;

and if the task execution instruction is an instruction aiming at a task, executing the task specified by the task execution instruction.

In one embodiment, the method further comprises:

monitoring and displaying the operation condition of each component in the process of processing the resource exchange entrusting transaction by the resource exchange agent system; the operation conditions comprise abnormal operation, non-starting and operation.

A transaction processing apparatus based on a resource exchange broker system, the apparatus comprising:

the transaction preparation module is used for sequentially executing each transaction preparation task in each pre-configured transaction preparation node before the resource exchange agent system starts to process the resource exchange entrustment transaction in the current period so as to carry out preparation processing related to the resource exchange entrustment transaction processed by the resource exchange agent system in the current period;

the transaction processing module is used for processing the resource exchange entrusted transaction based on the preparation processing result of the transaction preparation task through the resource exchange agent system in the current period;

the transaction data processing module is used for sequentially executing each execution result processing task in the pre-configured transaction execution result processing node after the resource exchange agent system finishes processing the resource exchange entrusted transaction in the current period so as to process data generated by the resource exchange agent system processing the resource exchange entrusted transaction;

the execution state display module is used for displaying the execution state of each task in the transaction preparation node and the transaction execution result processing node in a correlated manner;

the abnormal alarm module is used for performing abnormal alarm if the task with the abnormal execution state exists;

and the task restarting module is used for identifying the task associated with the abnormal task and re-triggering and executing the abnormal task and the associated task after receiving a task restarting instruction.

A computer device comprising a memory and a processor, wherein the memory stores a computer program, and the computer program, when executed by the processor, causes the processor to execute the steps of the transaction processing method based on the resource exchange proxy system according to the embodiments of the present application.

A computer-readable storage medium, having a computer program stored thereon, which, when executed by a processor, causes the processor to perform the steps of the transaction processing method based on a resource exchange proxy system according to the embodiments of the present application.

According to the transaction processing method, the transaction processing device, the computer equipment and the storage medium based on the resource exchange agent system, the transaction preparation tasks before the resource exchange agent system starts to process the resource exchange entrustment transaction in the current period and the execution result processing tasks after the resource exchange agent system finishes processing the resource exchange entrustment transaction in the current period are automatically executed, the normal operation of the resource exchange agent system is ensured by automatically executing the daily tasks, the daily tasks do not need to be manually executed, and the execution efficiency of the daily tasks is improved. When the execution state of the task is abnormal, an abnormal alarm can be given, so that the abnormal task can be processed in time, the abnormal task and the task related to the abnormal task can be triggered and executed again, and the execution efficiency is further improved.

Drawings

FIG. 1 is a flow diagram illustrating a transaction processing method based on a resource exchange proxy system in one embodiment;

FIG. 2 is a diagram of a task execution monitoring interface in accordance with one embodiment;

FIG. 3 is a schematic diagram of a node configuration interface in one embodiment;

FIG. 4 is an interface diagram of a history log in one embodiment;

FIG. 5 is a diagram illustrating an interface for monitoring components in one embodiment;

FIG. 6 is a schematic diagram of an interface for server monitoring in one embodiment;

FIG. 7 is a block diagram of a transaction device based on a resource exchange agent system in one embodiment;

FIG. 8 is a block diagram showing a transaction processing apparatus based on a resource exchange agent system according to another embodiment;

FIG. 9 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In an embodiment, as shown in fig. 1, a transaction processing method based on a resource exchange proxy system is provided, and this embodiment is illustrated by applying the method to a terminal, it is to be understood that the method may also be applied to a server, and may also be applied to a system including a terminal and a server, and is implemented by interaction between the terminal and the server. In this embodiment, the method includes the steps of:

and S102, before the resource exchange agent system starts to process the resource exchange entrustment transaction in the current period, sequentially executing each transaction preparation task in each pre-configured transaction preparation node so as to perform preparation processing related to the resource exchange entrustment transaction in the current period processed by the resource exchange agent system.

The resource exchange means performing equivalent exchange on resources. Resources may be real or virtual. The resource exchange agent system is a system for receiving the commission of others and exchanging resources in the resource exchange system for others. A resource exchange system is a system for exchanging resources.

Such as: in a stock exchange scenario, the resource exchange system may be a stock exchange system and the resource exchange broker system may be a stock company system (i.e., a dealer system). The securities trader system can accept the securities trading entrusts of investors and trade securities on the system of the securities exchange instead of the investors.

In one embodiment, the resource exchange may be an exchange of money for at least one trading activity, such as a share of a fund, an option, or a commodity.

The resource exchange entrusting transaction is a transaction that the resource exchange agent system accepts the entrusting of other people and carries out resource exchange on the resource exchange system for the other people. The cycle refers to a cycle for the resource exchange proxy system to process the resource exchange delegation transaction.

Such as: in the scenario of securities trading, the dealer system starts to process the security trading entrusted transactions of the same day (i.e., opening a market) at 9 am on each trading day, and ends to process the security trading entrusted transactions of the same day (i.e., closing the market) at 3 pm on each trading day, and then a period from 9 am to 3 pm (i.e., a time period from opening the market to closing the market) is one period for the dealer system to process the security trading entrusted transactions.

The transaction preparation node is a task node before the resource exchange proxy system starts to process the resource exchange delegation transaction in the current period. The transaction preparation task is a task in the transaction preparation node and is used for performing preparation processing related to the resource exchange proxy system processing the resource exchange commit transaction in the current period. And the preparation processing is used for preparing the resource exchange proxy system for processing the resource exchange committed transaction in terms of data, components and the like.

A plurality of transaction preparation nodes are included before the resource exchange proxy system begins processing resource exchange commit transactions in a current cycle. The transaction preparation node comprises at least one transaction preparation task.

In one embodiment, the transaction preparation node before the resource exchange proxy system starts to process the resource exchange commit transaction in the current period and the transaction preparation task in the transaction preparation node may be configured according to actual requirements.

Specifically, for each period, the terminal may sequentially execute each transaction preparation task in each pre-configured transaction preparation node before the resource exchange proxy system starts to process the resource exchange delegation transaction in the current period, so as to perform preparation processing related to the resource exchange proxy system processing the resource exchange delegation transaction in the current period.

For example: in the scenario of stock exchange, on each exchange day, the terminal may sequentially execute each of the pre-configured transaction preparation tasks in each of the transaction preparation nodes before the dealer system starts to process the stock exchange commitment transaction on the current day (i.e., before the market is opened), so as to perform preparation processing related to the stock exchange commitment transaction on the current day processed by the dealer system.

S104, in the current period, the resource exchange proxy system processes the resource exchange entrusted transaction based on the preparation processing result of the transaction preparation task.

Specifically, for each period, in the current period, the terminal may process the resource exchange delegation transaction based on the preparation processing result of the transaction preparation task through the resource exchange proxy system.

For example: in the security trading scene, on each trading day, in the time period from opening to closing, the terminal can process the security trading entrusted transaction based on the preparation processing result of the transaction preparation task through the dealer system.

And S106, after the resource exchange agent system finishes processing the resource exchange entrustment transaction in the current period, sequentially executing each execution result processing task in the pre-configured transaction execution result processing node so as to process data generated by the resource exchange agent system processing the resource exchange entrustment transaction.

The transaction execution result processing node is a task node after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period. The execution result processing task is a task in the transaction execution result processing node and is used for processing data generated by the resource exchange proxy system processing the resource exchange request transaction. In one embodiment, the processing of the data generated by the resource exchange proxy system processing the resource exchange commit transaction includes at least one of cleaning and archiving.

And after the resource exchange proxy system finishes processing the resource exchange entrusted transaction in the current period, the resource exchange proxy system comprises at least one transaction execution result processing node. The transaction execution result processing node comprises at least one execution result processing task.

In an embodiment, the transaction execution result processing node after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period and the execution result processing task in the transaction execution result processing node may be configured according to actual requirements.

Specifically, for each period, after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, the terminal may sequentially execute each execution result processing task in the pre-configured transaction execution result processing node, so as to process data generated when the resource exchange proxy system processes the resource exchange delegation transaction.

For example: in the security trading scenario, on each trading day, the terminal may sequentially execute each execution result processing task in the preconfigured transaction execution result processing nodes after the securities trading system finishes processing the security trading entrusted transaction on the day (i.e., after closing the market), so as to process data generated by the securities trading entrusted transaction processed by the securities trading system.

And S108, while executing each task in the transaction preparation node and the transaction execution result processing node, displaying the execution state of each task in a correlated manner.

Specifically, while executing each task in the transaction preparation node and the transaction execution result processing node, the terminal may perform associated display (i.e., corresponding display) on the execution state of each task and the corresponding task.

In one embodiment, the execution state may include executed, not executed, and exception. In the interface shown in FIG. 2, the component is shown stopping the execution state of each task in the node.

And S110, if the task with the abnormal execution state exists, performing an abnormal alarm.

In one embodiment, if there is a task whose execution state is abnormal, the terminal may generate abnormal warning information and send the abnormal warning information to the terminal used by the staff to prompt that there is a task whose execution state is abnormal. In one embodiment, the terminal may send the abnormal warning information to the terminal used by the staff member through at least one of short message, telephone, mail, and WeChat.

In one embodiment, if there is a task whose execution state is abnormal, the terminal may play an abnormal warning prompt tone to prompt that there is a task whose execution state is abnormal. In one embodiment, the abnormal alarm prompt tone may be any one of music, alarm sound, voice, and the like.

In one embodiment, if there is a task whose execution state is abnormal, the terminal may highlight the task in the interface. In one embodiment, if there is a task whose execution state is abnormal, the terminal may show the number of abnormal tasks in the interface.

And S112, after receiving the task restarting instruction, identifying the task associated with the abnormal task, and re-triggering the abnormal task and the associated task to be executed.

And the task restarting instruction is used for restarting and executing the abnormal task and the task associated with the abnormal task. The task associated with the abnormal task is a task that may be affected by the task whose execution state is abnormal.

Specifically, after receiving a task restart instruction, the terminal may identify a task associated with the abnormal task and re-trigger execution of the abnormal task and the associated task to ensure that each task is normally and accurately executed.

It is understood that the task associated with the abnormal task may have been executed, but the execution result is not necessarily accurate due to the influence of the abnormal task, and the task may not be executed due to the influence of the abnormal task. Therefore, the task with the execution exception and the associated task are triggered again, and the task with the inaccurate execution result or the task which is not executed can be executed normally and accurately.

In an embodiment, the terminal may execute the transaction processing method based on the resource exchange proxy system in the embodiments of the present application through an Operation Support System (OSS). The operation support system may be mounted in the resource exchange proxy system, or may be used as the resource exchange proxy system.

In the transaction processing method based on the resource exchange agent system, the transaction preparation tasks before the resource exchange agent system starts processing the resource exchange entrustment transaction in the current period and the execution result processing tasks after the resource exchange agent system finishes processing the resource exchange entrustment transaction in the current period are automatically executed, and the normal operation of the resource exchange agent system is ensured by automatically executing the daily tasks without manually executing the daily tasks, so that the execution efficiency of the daily tasks is improved. When the execution state of the task is abnormal, an abnormal alarm can be given, so that the abnormal task can be processed in time, the abnormal task and the task related to the abnormal task can be triggered and executed again, and the execution efficiency is further improved.

In one embodiment, the transaction preparation nodes include a component stop node, a data preparation node, and a component start node; before the resource exchange agent system starts to process the resource exchange entrustment transaction in the current period, the steps of sequentially executing each transaction preparation task in each pre-configured transaction preparation node to perform preparation processing related to the resource exchange entrustment transaction in the current period processed by the resource exchange agent system include: before the resource exchange proxy system starts to process the resource exchange entrustment affairs in the current period, sequentially executing each component stopping task in the component stopping nodes to stop the components to be stopped specified by each component stopping task; after the component stops the node from executing, sequentially executing each data preparation task in the data preparation node to acquire data to be prepared specified by each data preparation task; after the data preparation node finishes executing, each component starting task in the component starting node is sequentially executed so as to start the components to be started, which are specified by each component starting task.

The component stop node is a task node for stopping the component. The component stop task is a task for stopping a component. At least one component stop task may be included in the component stop node.

The data preparation node is a task node for preparing data. The data preparation task is a task for preparing data. At least one data preparation task may be included in the data preparation node.

The component starting node is a task node for starting the component. The component start task is a task for starting a component. At least one component launch task may be included in the component launch node.

It is understood that a component refers to a component of the resource exchange broker system. The data prepared by the data preparation task is the preparation data required by the resource exchange proxy system to process the resource exchange commit transaction.

In one embodiment, the provisioning data may include at least one of account information, resource information, and the like. For example: in the case of stock exchange, the data prepared by the data preparation task may include at least one of stock account information, stock information, and the like. Securities refer to funds, stocks, or the like.

Specifically, before the resource exchange proxy system starts to process the resource exchange delegation transaction in the current period, the terminal may first sequentially execute each component stop task in the component stop node to stop the component to be stopped specified by each component stop task. Then, after the component stops the completion of the node execution, the terminal may sequentially execute the respective data preparation tasks in the data preparation node to acquire the data to be prepared specified by the respective data preparation tasks. Then, after the data preparation node finishes executing, the terminal may sequentially execute each component start task in the component start node to start the component to be started specified by each component start task.

As shown in fig. 2, in the scenario of stock exchange, a component stop node, a data preparation node, and a component start node need to be executed in sequence before the market is opened. In fig. 2, each component stop task in the component stop node is being executed, and the components to be stopped specified by each component stop task are component a, component B, component C, and component D, respectively. The task state of each task refers to whether the task is disabled or enabled, that is, whether the task needs to be executed. The tasks of the stopping component a in fig. 2 are disabled, the other 3 tasks are enabled, and the execution states of the enabled tasks are shown as executed, abnormal, and not executed, respectively. The execution time of each task may also be presented. It is to be understood that the component stop node is taken as an example, and exposable contents of tasks in other nodes except the component stop node may be set according to the component stop node.

In this embodiment, by executing each component stop task first and then executing each component start task, zero clearing of the data of the resource exchange proxy system can be achieved, overflow of a memory stack of the resource exchange proxy system is avoided, stability of the resource exchange proxy system is maintained, and support on the components is provided for normal operation of the resource exchange proxy system. By performing various data preparation tasks, support on the data can be provided for normal operation of the resource exchange broker system. In addition, each task before the resource exchange entrustment transaction in the current period is processed is automatically executed, each task does not need to be executed manually, and the task execution efficiency is improved.

In one embodiment, the transaction execution result processing node comprises a daily end processing node. After the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, each execution result processing task in the transaction execution result processing node configured in advance is executed in sequence, so as to process the data generated by the resource exchange proxy system processing the resource exchange delegation transaction, and the steps include: after the resource exchange agent system finishes processing the resource exchange entrustment affairs in the current period, each daily end processing task in the daily end processing node is executed in sequence, and the data specified by each daily end processing task is cleaned or an archive file is generated according to the data.

The daily node processing node is a task node for performing daily processing on data generated by the resource exchange proxy system processing the resource exchange commission transaction. The daily knot processing task is a task for performing daily knot processing on data generated by the resource exchange proxy system processing the resource exchange request transaction. At least one daily end processing task may be included in the daily end processing node. An archive file is a file for retaining records.

Specifically, after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, the terminal may sequentially execute each of the daily node processing tasks in the daily node processing nodes, so as to clean data specified by each of the daily node processing tasks or generate an archive file according to the data.

It is to be understood that the end-of-day processing task may specify which data to clean or archive. The terminal can clear up the data that the daily knot processing task appoints to need to clear up. The terminal can arrange the data which are specified by the daily end processing task and need to be archived, and generate the archived file.

In this embodiment, by executing each daily processing task, data generated by the resource exchange proxy system processing the resource exchange delegation transaction can be cleaned or archived, so that problems of excessive system memory consumption caused by excessive useless data, loss of useful data, and the like are avoided, and support is provided for normal operation of the resource exchange proxy system. In addition, each daily end processing task is automatically executed, each task does not need to be manually executed, and the task execution efficiency is improved.

In one embodiment, the transaction execution result processing node further comprises a data archiving node. After the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, each execution result processing task in the pre-configured transaction execution result processing node is sequentially executed, so as to process the data generated by the resource exchange proxy system processing the resource exchange delegation transaction, and the step further comprises the following steps: after the completion of the execution of the node processing, the data archiving tasks in the data archiving node are sequentially executed, so as to store or export the archive data or archive file designated by the data archiving tasks.

The data archiving node is a task node for archiving data generated by the resource exchange proxy system processing the resource exchange commission transaction. The data archiving task is a task for archiving data generated by the resource exchange proxy system processing the resource exchange delegation transaction. At least one data archiving task may be included in the data archiving node.

Specifically, after the end-of-day processing node finishes executing, the terminal may sequentially execute each data archiving task in the data archiving node to store or export the archive data or archive file specified by each data archiving task.

It will be appreciated that the data archiving node may specify which data or archive files to archive, and specify the manner of archiving. The archive mode may be any one of storage and export.

In one embodiment, the storage may be in a database of the resource exchange proxy system, or may be local to the terminal. In one embodiment, the export may be an export of a file in any format.

As shown in fig. 2, in the security trading scenario, the closed market includes a daily end processing node and a data archiving node, and the data archiving node is a task node selected.

In one embodiment, each task in each task node may be configured. Fig. 3 is a schematic diagram of a configuration interface, in which a component stop node and a component start node are configured together. The user can modify the task state of each task through the modification options corresponding to each task in the configuration interface. Such as: the disabled tasks are changed to enabled.

In this embodiment, by executing each data filing task, data generated by the resource exchange proxy system processing the resource exchange delegation transaction can be filed, and useful data can be saved to avoid loss, thereby providing support for normal operation of the resource exchange proxy system. In addition, each data archiving task is automatically executed, each task does not need to be manually executed, and the task execution efficiency is improved.

In one embodiment, after performing an exception alarm if there is a task whose execution state is abnormal, the method further includes: receiving an input task execution instruction; and executing the task specified by the task execution instruction.

The task execution instruction is an instruction that is input by a user and is used to instruct execution of a specified task.

Specifically, if there is a task whose execution state is abnormal, an abnormal alarm is given, and then the terminal may receive a task execution instruction input by the user and execute a task specified by the task execution instruction.

In one embodiment, the user may select the dimension of the task specified by the task execution instruction according to actual needs.

In one embodiment, the task specified by the task execution instruction may be all tasks before the resource exchange proxy system starts processing the resource exchange commit transaction in the current cycle or after the resource exchange commit transaction in the current cycle is finished. In another embodiment, the task specified by the task execution instruction may be a task that has not been executed before the resource exchange proxy system starts processing the resource exchange commit transaction in the current cycle, or after the resource exchange commit transaction in the current cycle is finished.

In one embodiment, the tasks specified by the task execution instructions may be all of the tasks in a certain task node. In another embodiment, the task specified by the task execution instruction may be a task in a task node that has not yet been executed.

In one embodiment, the task specified by the task execution instruction may be a certain task. The task may be a task that has not yet been executed or may be a task that has already been executed.

It is understood that the task execution instruction input by the user may be used to re-execute the executed task or may be used to execute the task that has not been executed.

In this embodiment, when there is a task whose execution state is abnormal, the terminal may receive a task execution instruction input by a user and execute a task specified by the task execution instruction, so that the task can be flexibly executed according to the actual needs of the user, the abnormal task can be timely processed, and each task can be ensured to be normally and correctly executed.

In one embodiment, performing the task specified by the task execution instruction includes: if the task execution instruction is an instruction for executing a task before starting processing the resource exchange entrustment transaction in the current period by one key, executing all transaction preparation tasks which are not executed in all transaction preparation nodes in sequence; if the task execution instruction is an instruction for executing a task after finishing processing the resource exchange entrusted transaction in the current period by one key, executing each execution result processing task which is not executed in the transaction execution result processing node in sequence; if the task execution instruction is an instruction aiming at a transaction preparation node or a transaction execution result processing node, sequentially executing each task which is not executed in the nodes specified by the task execution instruction; and if the task execution instruction is an instruction aiming at the task, executing the task specified by the task execution instruction.

In an embodiment, if the task execution instruction is an instruction for starting to process a task before the resource exchange delegation transaction in the current period by one key, the terminal may sequentially execute each transaction preparation task that is not yet executed in each transaction preparation node. As shown in fig. 2, the user may select the "execute before market" option to trigger the generation of an instruction to start execution of the task before processing the resource exchange delegation transaction in the current period, so that the terminal sequentially executes the transaction preparation tasks that have not been executed in the transaction preparation nodes.

In an embodiment, if the task execution instruction is an instruction for finishing processing a task after the resource exchange delegation transaction in the current period by one key, the terminal may sequentially execute each execution result processing task that is not executed in the transaction execution result processing node.

In one embodiment, if the task execution instruction is an instruction for the transaction preparation node or the transaction execution result processing node, the terminal may sequentially execute each task that is not yet executed in the node specified by the task execution instruction. As shown in fig. 2, a user may trigger generation of a task execution instruction for a certain node by selecting an "execute node" option (for example, the option in the figure may trigger generation of a task execution instruction for a component stop node), so that the terminal may sequentially execute each task that has not been executed in the node specified by the task execution instruction.

In one embodiment, if the task execution instruction is an instruction for a task, the terminal may execute the task specified by the task execution instruction. As shown in fig. 2, the user may trigger the generation of a task execution instruction for a task by selecting an "execute" option corresponding to each task (e.g., the task of the component B is stopped), so that the terminal executes the task specified by the task execution instruction.

In this embodiment, when there is a task whose execution state is abnormal, the terminal may receive a task execution instruction input by a user and execute a task specified by the task execution instruction, so that the task can be flexibly executed according to the actual needs of the user, the abnormal task can be timely processed, and each task can be ensured to be normally and correctly executed.

As shown in fig. 4, the terminal may also present a history log of the execution of the task. Such as: the terminal may display at least one of an execution time for executing each task, a staff number, a user name, a task node (i.e., a flow node in the diagram) to which the task belongs, specific execution information of the task, and the like in the history log.

In one embodiment, the method further comprises: monitoring and displaying the operation condition of each component in the process of processing the resource exchange entrustment transaction by the resource exchange agent system; the operation conditions comprise abnormal operation, non-starting and operation.

Specifically, in the process of processing the resource exchange delegation transaction by the resource exchange proxy system, the terminal may monitor the operation conditions of each component of the resource exchange proxy system in real time, and show that the operation conditions of each component are abnormal, not started, or in operation. As shown in fig. 5, the terminal may respectively show the operation condition of each component in the component monitoring interface, and may also show the total number of instances in each component. It is to be understood that at least one instance may be included in each component. In one embodiment, the terminal may also present the specific operating conditions of each instance of each component.

In this embodiment, the terminal may monitor and display the operation condition of the component in real time, thereby providing support for the normal operation of the resource exchange agent system.

In one embodiment, as shown in fig. 6, the terminal may also monitor the servers of the resource exchange proxy system and display the operation status of each server. The operation condition of the server may include at least one of a CPU system usage ratio, a CPU number, a CPU user usage ratio, a memory usage rate, a total memory amount, a remaining memory amount, a disk usage rate, a total disk amount, a remaining disk amount, and the like.

It should be understood that, although the steps in the flowchart of fig. 1 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in fig. 1 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

In one embodiment, as shown in fig. 7, there is provided a transaction processing apparatus 700 based on a resource exchange proxy system, including: a transaction preparation module 702, a transaction processing module 704, a transaction data processing module 706, an execution state presentation module 708, an exception alert module 710, and a task restart module 712, wherein:

a transaction preparation module 702, configured to execute each transaction preparation task in each pre-configured transaction preparation node in sequence before the resource exchange proxy system starts to process the resource exchange delegation transaction in the current period, so as to perform preparation processing related to the resource exchange proxy system processing the resource exchange delegation transaction in the current period;

and the transaction processing module 704 is used for processing the resource exchange entrusted transaction in the current period through the resource exchange agent system based on the preparation processing result of the transaction preparation task.

The transaction data processing module 706 is configured to, after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, sequentially execute each execution result processing task in the pre-configured transaction execution result processing nodes, so as to process data generated when the resource exchange proxy system processes the resource exchange delegation transaction.

The execution state presentation module 708 is configured to, while executing each task in the transaction preparation node and the transaction execution result processing node, present an execution state of each task in an associated manner.

The exception warning module 710 is configured to perform an exception warning if there is a task whose execution state is an exception.

And the task restarting module 712 is configured to, after receiving the task restarting instruction, identify a task associated with the abnormal task and re-trigger execution of the abnormal task and the associated task.

In one embodiment, the transaction preparation nodes include a component stop node, a data preparation node, and a component start node. The transaction preparation module 702 is further configured to, before the resource exchange proxy system starts to process the resource exchange delegation transaction in the current period, sequentially execute each component stop task in the component stop node to stop the component to be stopped specified by each component stop task; after the component stops the node from executing, sequentially executing each data preparation task in the data preparation node to acquire data to be prepared specified by each data preparation task; after the data preparation node finishes executing, each component starting task in the component starting node is sequentially executed so as to start the components to be started, which are specified by each component starting task.

In one embodiment, the transaction execution result processing node comprises a daily end processing node. The transaction data processing module 706 is further configured to, after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, sequentially execute each of the daily node processing tasks in the daily node processing nodes, so as to clean data specified by each of the daily node processing tasks or generate an archive file according to the data.

In one embodiment, the transaction execution result processing node further comprises a data archiving node. The transaction data processing module 706 is further configured to, after the end-of-day processing node completes execution, sequentially execute each data archiving task in the data archiving node, so as to store or export the archive data or archive file specified by each data archiving task.

In one embodiment, the task restart module 712 is further configured to receive an input task execution instruction; and executing the task specified by the task execution instruction.

In one embodiment, the task restarting module 712 is further configured to, if the task execution instruction is an instruction for executing a task before starting to process the resource exchange delegation transaction in the current period by one key, sequentially execute each transaction preparation task that is not executed in each transaction preparation node; if the task execution instruction is an instruction for executing a task after finishing processing the resource exchange entrusted transaction in the current period by one key, executing each execution result processing task which is not executed in the transaction execution result processing node in sequence; if the task execution instruction is an instruction aiming at a transaction preparation node or a transaction execution result processing node, sequentially executing each task which is not executed in the nodes specified by the task execution instruction; and if the task execution instruction is an instruction aiming at the task, executing the task specified by the task execution instruction.

In one embodiment, as shown in fig. 8, the transaction processing apparatus 800 based on the resource exchange proxy system further includes:

the system monitoring module 714 is used for monitoring and displaying the operation condition of each component in the process of processing the resource exchange entrusting transaction by the resource exchange agent system; the operation conditions comprise abnormal operation, non-starting and operation.

In the transaction processing device based on the resource exchange agent system, the transaction preparation tasks before the resource exchange agent system starts processing the resource exchange entrustment affairs in the current period and the execution result processing tasks after the resource exchange agent system finishes processing the resource exchange entrustment affairs in the current period are automatically executed, and the normal operation of the resource exchange agent system is ensured by automatically executing the daily tasks without manually executing the daily tasks, so that the execution efficiency of the daily tasks is improved. When the execution state of the task is abnormal, an abnormal alarm can be given, so that the abnormal task can be processed in time, the abnormal task and the task related to the abnormal task can be triggered and executed again, and the execution efficiency is further improved.

For specific limitations of the transaction processing apparatus based on the resource exchange proxy system, reference may be made to the above limitations of the transaction processing method based on the resource exchange proxy system, and details are not repeated here. The various modules in the transaction device based on the resource exchange agent system can be wholly or partially implemented by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 9. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device 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 comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a transaction processing method based on a resource exchange proxy system. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 9 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is further provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the steps of the above method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A transaction processing method based on a resource exchange proxy system, the method comprising:

before the resource exchange agent system starts to process the resource exchange entrustment affairs in the current period, each affair preparation task in each pre-configured affair preparation node is sequentially executed so as to carry out preparation processing related to the resource exchange entrustment affairs processed in the current period by the resource exchange agent system;

in the current period, processing a resource exchange entrusted transaction based on a preparation processing result of the transaction preparation task through the resource exchange agent system;

after the resource exchange proxy system finishes processing the resource exchange entrusting transaction in the current period, sequentially executing each execution result processing task in the pre-configured transaction execution result processing node so as to process data generated by the resource exchange proxy system processing the resource exchange entrusting transaction;

the execution state of each task is displayed in a relevant way while each task in the transaction preparation node and the transaction execution result processing node is executed;

if the task with abnormal execution state exists, performing abnormal alarm;

and after receiving a task restarting instruction, identifying a task associated with the abnormal task, and re-triggering the abnormal task and the associated task to be executed.

2. The method of claim 1, wherein the transaction preparation nodes comprise a component stop node, a data preparation node, and a component start node;

before the resource exchange proxy system starts to process the resource exchange delegation transaction in the current period, sequentially executing each transaction preparation task in each pre-configured transaction preparation node to perform preparation processing related to the resource exchange delegation transaction in the current period processed by the resource exchange proxy system, including:

before the resource exchange proxy system starts to process the resource exchange entrustment affairs in the current period, sequentially executing each component stopping task in the component stopping nodes to stop the components to be stopped specified by each component stopping task;

after the component stops the execution of the nodes, sequentially executing each data preparation task in the data preparation nodes to acquire data to be prepared appointed by each data preparation task;

after the data preparation node finishes executing, sequentially executing each component starting task in the component starting nodes so as to start the components to be started specified by each component starting task.

3. The method of claim 1, wherein the transaction execution result processing node comprises a daily end processing node;

after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, sequentially executing each execution result processing task in the pre-configured transaction execution result processing node to process data generated by the resource exchange proxy system processing the resource exchange delegation transaction, including:

after the resource exchange agent system finishes processing the resource exchange entrustment affairs in the current period, sequentially executing each daily end processing task in the daily end processing node so as to clear the data specified by each daily end processing task or generate an archive file according to the data.

4. The method of claim 3, wherein the transaction execution result processing node further comprises a data archiving node;

after the resource exchange proxy system finishes processing the resource exchange delegation transaction in the current period, sequentially executing each execution result processing task in the pre-configured transaction execution result processing node to process data generated by the resource exchange proxy system processing the resource exchange delegation transaction further comprises:

after the completion of the execution of the node processing, the data archiving tasks in the data archiving nodes are sequentially executed, so as to store or export the archived data or the archived file designated by the data archiving tasks.

5. The method according to claim 1, wherein after performing an exception alarm if there is a task whose execution status is abnormal, the method further comprises:

receiving an input task execution instruction;

and executing the task specified by the task execution instruction.

6. The method of claim 5, wherein the executing the task specified by the task execution instruction comprises:

if the task execution instruction is an instruction for executing a task before starting processing the resource exchange entrustment transaction in the current period by one key, executing each transaction preparation task which is not executed in each transaction preparation node in sequence;

if the task execution instruction is an instruction for executing a task after finishing processing the resource exchange entrusted transaction in the current period by one key, executing each execution result processing task which is not executed in the transaction execution result processing node in sequence;

if the task execution instruction is an instruction aiming at the transaction preparation node or the transaction execution result processing node, sequentially executing each task which is not executed in the node specified by the task execution instruction;

and if the task execution instruction is an instruction aiming at a task, executing the task specified by the task execution instruction.

7. The method of any one of claims 1 to 6, further comprising:

monitoring and displaying the operation condition of each component in the process of processing the resource exchange entrusting transaction by the resource exchange agent system; the operation conditions comprise abnormal operation, non-starting and operation.

8. A transaction processing apparatus based on a resource exchange proxy system, the apparatus comprising:

the transaction preparation module is used for sequentially executing each transaction preparation task in each pre-configured transaction preparation node before the resource exchange agent system starts to process the resource exchange entrustment transaction in the current period so as to carry out preparation processing related to the resource exchange entrustment transaction processed by the resource exchange agent system in the current period;

the transaction processing module is used for processing the resource exchange entrusted transaction based on the preparation processing result of the transaction preparation task through the resource exchange agent system in the current period;

the transaction data processing module is used for sequentially executing each execution result processing task in the pre-configured transaction execution result processing node after the resource exchange agent system finishes processing the resource exchange entrusted transaction in the current period so as to process data generated by the resource exchange agent system processing the resource exchange entrusted transaction;

the execution state display module is used for displaying the execution state of each task in the transaction preparation node and the transaction execution result processing node in a correlated manner;

the abnormal alarm module is used for performing abnormal alarm if the task with the abnormal execution state exists;

and the task restarting module is used for identifying the task associated with the abnormal task and re-triggering and executing the abnormal task and the associated task after receiving a task restarting instruction.

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

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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