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CN-121389104-B - Credit terminal compatibility mutual authentication and performance tuning base system

CN121389104BCN 121389104 BCN121389104 BCN 121389104BCN-121389104-B

Abstract

The invention discloses a credit terminal compatibility mutual authentication and performance tuning base system, which relates to the technical field of credit terminal compatibility mutual authentication and performance tuning bases and is used for solving the problems that an address book module, a service number module and a workbench module are difficult to uniformly bear under various credit operation systems and domestic CPU (central processing unit) architectures, a multi-security domain service selection Louis error and terminal performance and compatibility are difficult to cooperatively optimize, constructing a dependence reconstruction module, a mobile application interface architecture rendering scheduling module and the like around the credit terminal base to cooperatively work, automatically completing credit terminal base construction and dependence reconstruction based on environmental compatibility grading, and improving unified interface experience and operation stability under the deployment of a multi-operation system, a multi-CPU architecture and a multi-security domain by combining service module loading sequence optimization, interface scaling and rendering priority control and credit compatibility testing matrix closed-loop tuning under the premise of not collecting public unauthorized personal information.

Inventors

  • WU XINGYONG
  • GAO SHENGJIE
  • GUI SHENG
  • TONG LIANG
  • WU WENJUAN

Assignees

  • 四川中电启明星信息技术有限公司
  • 国网信息通信产业集团有限公司

Dates

Publication Date
20260512
Application Date
20251224

Claims (8)

  1. 1. The system is characterized by comprising a credit terminal base construction dependence reconstruction module, a mobile application interface architecture rendering scheduling module, a multi-domain service integration compatibility mutual authentication module, a credit terminal performance tuning compatibility verification module, an address book module, a service number module, a workbench module and signal connection among the modules; the information creation terminal base construction dependency reconstruction module is used for driving a cross-platform desktop frame and a third-party dependency library to complete source code adaptation and dependency reconstruction through environment detection and compatibility quantification, wherein the compatibility quantification comprises the compatibility of quantified operating system kernels, drivers, file systems and security policies; The mobile application interface architecture rendering scheduling module is used for creating a unified interface shell layer to divide a navigation area, a content display area and an auxiliary tool area, and adjusting interface scaling and rendering priority of each view area according to resolution and the importance degree of interface elements; The multi-domain service integration compatible mutual authentication module is used for identifying a current security domain according to an environment feature vector, carrying out multi-factor comprehensive analysis on a security domain set or an accessible security domain set to which a service instance belongs and a service semantic category, and constructing a service route selection comprehensive cost value by integrating various risk amounts and performance indexes, wherein the various risk amounts comprise a domain boundary crossing risk amount, a semantic mismatch risk amount and a platform compatible risk amount, the performance indexes comprise network time delay and failure retry performance indexes, constructing a service route selection comprehensive cost value based on the risk amounts and the performance indexes, and controlling access paths and interface adaptation strength in a grading manner according to the cost values, so that a front-end interface is unified and backstage access is controlled in a domain division manner according to the security domain and the service semantic; The credit terminal performance tuning and optimizing compatible verification module is used for periodically collecting system-level indexes to generate comprehensive performance scores, positioning performance bottlenecks by combining the environment compatibility scores and service route scores, and finishing performance tuning and compatibility verification through local adjustment, assembly line optimization construction and credit compatibility test matrix linkage; The address book module, the service number module and the workbench module are derived from the existing mobile application platform, the address book module is used for displaying and retrieving contact information on the information creation terminal, the service number module is used for carrying service information and service notification interaction, the workbench module is used for aggregating service entrance and work order task operation interfaces, and the optimal loading sequence of the three types of modules is determined by measuring the access frequency and the initialization time consumption of the address book module, the service number module and the workbench module and calculating the starting time delay.
  2. 2. The system of claim 1, wherein the environment detection program is deployed on the credit terminal to quantify the compatibility of the operating system kernel, the driver, the file system and the security policy, the standard adaptation path is automatically selected or additional adaptation layers and capability clipping are enabled according to the compatibility, source code modification and recompilation are carried out on a main process, a rendering process and a bottom abstract layer of a cross-platform desktop frame under a credit tool chain to generate running time for adapting different credit operating systems and domestic processors, recompilation, local replacement and adaptation bridging candidate schemes are simultaneously constructed for each third-party dependency library and script native module, automatic optimization is evaluated according to the adaptation cost evaluation, and dependency reconstruction is completed, the adaptation cost evaluation comprises respectively calculating the adaptation cost for each candidate scheme, the adaptation cost is obtained by weighting the workload and the modification complexity required by source code transplantation or replacement, the relative influence degree on the running performance and the subsequent maintenance cost, and the candidate scheme with the minimum adaptation cost is selected to complete reconstruction.
  3. 3. The system of the base for mutual authentication and performance adjustment of the compatibility of the information and trauma terminal according to claim 1, wherein the address book, the service number and the workbench module are split into a front-end display layer and a background access layer, a front-end interface component is reconstructed and a network access adaptation layer is packaged, the optimal loading sequence of the three types of modules is determined by measuring the access frequency and calculating the starting time delay in time consumption of initialization, and a set of terminal base construction and dependency reconstruction process facing the information and trauma environment is constructed.
  4. 4. The system of the base for mutual authentication and performance adjustment of the compatibility of the information creation terminal according to claim 1 is characterized in that after the base of the information creation terminal is started according to the optimal loading sequence defined in claim 1, a unified interface shell layer is created in a desktop operation frame, a window is divided into a navigation area, a content display area and an auxiliary tool area, corresponding subareas are allocated for an address book, a service number and a workbench, scaling coefficients are calculated based on the proportion of a reference resolution to a current resolution and the importance level of interface elements, element positions, sizes and fonts are uniformly adjusted to realize self-adaptive layout on various domestic display devices, meanwhile, the interface is split into a plurality of view areas, rendering priority is calculated according to event triggering frequency, visibility and interaction activity, and a redrawing area and redrawing sequence are cut in each frame in combination with the upper limit of view complexity.
  5. 5. A system of a credit terminal compatibility mutual authentication and performance tuning base is characterized in that a multi-domain service integration compatibility mutual authentication module is built in the credit terminal base, environment feature vectors only comprising network segments, route identifications, security domain labels, certificate trust domains, login angle color gamut attributes, credit operation system versions and home-made central processing unit architecture identifications are utilized to calculate matching scores of the security domains and automatically determine the security domains or limited modes to which a current session belongs, and then the service registration stage marks the security domain sets, business semantic categories, credit adaptation stages, interface versions and parameter structure constraint metadata to which each back-end service instance and an interface thereof belong in advance, so that domain boundary crossing risk amounts, semantic mismatch risk amounts and platform compatibility risk amounts are calculated in operation, and interface access risk comprehensive amounts and service route comprehensive cost values are formed together with network delay and failed retry performance indexes.
  6. 6. The system of claim 5, wherein in each access request initiated by address book module, service number module and workbench module, service examples with domain crossing risk overrun are removed according to the current security domain, and the rest examples are sorted and routed according to comprehensive cost value, and meanwhile, interface adaptation strategies with different intensities are forbidden to be accessed according to the high-low grading of semantic mismatch risk, such as lightweight parameter mapping, field completion and clipping, return value fault tolerance, read-only protection and even function degradation, and service route scoring is calculated according to the comprehensive cost value for the actual routing record in a statistical time window.
  7. 7. The system of claim 1, wherein the system comprises a terminal period acquisition processor, a memory, an interface rendering frame time and a service call delay system level index, wherein the system level index is uniformly converted into a comprehensive performance score to automatically identify anomalies, and the bottleneck is subjected to aggregation analysis according to an address book, a service number, a workbench and different combination of a credit operation system and a domestic processor, and the problem sources are positioned by combining the environmental compatibility score and the service route score.
  8. 8. The system of claim 7, wherein the system is characterized in that the system reduces the single-machine pressure by locally adjusting the thread and background task frequency, tightening single-frame rendering complexity, reallocating the rendering priority of a key interface area, triggers optimized compiling and dependency reconstruction weight adjustment for a problem platform combination on a construction pipeline, takes a credit-creation compatibility test matrix covering a multi-operating system multi-processor combination as a release threshold, and forms an integrated closed-loop mechanism for performance tuning and compatibility verification.

Description

Credit terminal compatibility mutual authentication and performance tuning base system Technical Field The invention relates to the technical field of a credit terminal compatibility mutual authentication and performance tuning base, in particular to a credit terminal compatibility mutual authentication and performance tuning base system. Background With the continuous expansion of deployment scale of letter UOS, galaxy and other letter-creation operating systems and home-made CPU architectures such as Feiteng and Loongson in scenes such as party administration, energy and industrial control, cross-platform mobile application based on an Electron frame is gradually migrated to the letter-creation terminal environment for operation. In the prior art, mobile applications generally adapt to a single operating system and CPU combination, rely on library migration to rely on manual experience configuration, lack quantitative measurement on environmental compatibility and dependence on adaptation cost, cause uneven quality of construction results on different information creation platforms, and have compatibility problems such as abnormal window management, file monitoring failure or security policy conflict in a part of terminals. Meanwhile, in order to support the multi-security domain services such as the production control domain, the simulation exercise domain and the production management domain, the address book module, the service number module and the workbench module need to access a plurality of service examples distributed in different security domains, different versions of the information creation operating system and different domestic CPU architectures. The existing multi-domain service routing scheme takes static configuration or simple network time delay and availability indexes as decision basis, and is difficult to simultaneously consider security domain isolation, interface semantic consistency and information creation compatibility, so that the problem that a production control domain terminal is mistakenly connected with a simulation exercise service or a simulation terminal is mistakenly connected with a real production service easily occurs. On the other hand, the credit terminal is generally limited by CPU computing power, graphic processing capability and memory capacity, and when bearing complex Electron application, the interface rendering scheduling is not fine, the module loading sequence is unreasonable and the service calling strategy is poor, which can lead to the long-term approach of CPU utilization rate to the upper limit, the large fluctuation of rendering frame time or the significant increase of service calling time delay, and influence the overall experience of the terminal. The present invention proposes a solution to the above-mentioned problems. Disclosure of Invention In order to overcome the above-mentioned drawbacks of the prior art, an embodiment of the present invention provides a base system for compatibility mutual authentication and performance tuning of a credit terminal, so as to solve the problems set forth in the above-mentioned background art. In order to achieve the above purpose, the present invention provides the following technical solutions: the system comprises a message creation terminal base construction dependency reconstruction module, a mobile application interface architecture rendering scheduling module, a multi-domain service integration compatible mutual authentication module, a message creation terminal performance tuning compatible verification module, an address book module, a service number module, a workbench module and signal connection among the modules; The information creation terminal base builds a dependence reconstruction module which is used for driving a cross-platform desktop frame and a third-party dependence library to complete source code adaptation and dependence reconstruction through environment detection and compatibility quantification; The mobile application interface architecture rendering scheduling module is used for creating a unified interface shell layer to divide a navigation area, a content display area and an auxiliary tool area, and adjusting interface scaling and rendering priority of each view area according to resolution and the importance degree of interface elements; The multi-domain service integration compatible mutual authentication module is used for identifying the current security domain according to the environment feature vector, carrying out multi-factor comprehensive analysis on the security domain set or the accessible security domain set and the business semantic category to which the service instance belongs, constructing a service route selection comprehensive cost value by integrating various risk amounts and performance indexes, and controlling access paths and interface adaptation strength in a grading manner according to the cost value, so that a front-end interface is unified and backs