CN113905015B - Identification analysis method and identification analysis system - Google Patents

Abstract

The invention provides an identification analysis method and an identification analysis system, wherein the method comprises the following steps: s1, a recursion node receives an identification analysis request sent by a client, queries corresponding identification analysis information in a cache according to the identification analysis request, and jumps to step S3 if the query is successful, otherwise, sends the identification analysis request to a computational power network CFN; s2, the CFN queries corresponding identification analysis information in the self or the identification secondary node or the enterprise node according to the received identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the recursion node; and S3, the recursion node sends corresponding identification analysis information to the client. According to the invention, the CFN is added into the identification analysis system, and the identification analysis information is quickly searched in the identification analysis system by utilizing the CFN, so that the problem that the identification analysis amount is increasingly huge and the query speed of the identification analysis information cannot meet the requirement of a user in the prior art is solved.

Description

Identification analysis method and identification analysis system

Technical Field

The invention relates to the technical field of identification analysis, in particular to an identification analysis method and an identification analysis system.

Background

The industrial Internet identification resolution system is an important component of an industrial Internet network system, is a nerve hub for supporting industrial Internet interconnection and interworking, and has a function similar to a domain name resolution system (DNS) in the Internet field.

According to the construction targets of unified management, interconnection and intercommunication, safety and controllability of industrial Internet identification analysis systems in China, a complete identification service system architecture is preliminarily formed, 5 national top-level nodes are used as cores, various heterogeneous analysis systems such as DNS, handle and OID are internationally communicated, 101 identification prefixes are allocated for identification secondary nodes, 74 identification secondary nodes which have been subjected to online test operation are integrated and accessed into enterprises 6486, and more than 20 provinces and cities such as Beijing, shanghai, guangdong, zhejiang, jiangsu and the like and dozens of key industries such as automobile manufacturing, food processing, clothing textile, household appliances and the like are covered. By 9 months in 2020, the total national node accumulated identification registration amount is 68.8 hundred million, the total national node accumulated identification analysis amount is 6.29 hundred million, and the daily average identification analysis amount is 231 ten thousand.

In the face of increasingly huge daily average identification analysis amount, how to quickly query the identification analysis information becomes a problem to be solved urgently.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an identification analysis method and an identification analysis system aiming at the defects in the prior art, so as to solve the problems that the identification analysis amount is increasingly huge and the query speed of identification analysis information cannot meet the requirements of users in the prior art.

In a first aspect, the present invention provides a method for resolving an identifier, which is applied to a system for resolving an identifier, and includes the following steps:

s1, a recursion node receives an identification analysis request sent by a client, queries corresponding identification analysis information in a cache according to the identification analysis request, and jumps to step S3 if the query is successful, otherwise, sends the identification analysis request to a computational power network CFN;

s2, the CFN queries corresponding identification analysis information in the self or the identification secondary node or the enterprise node according to the received identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the recursion node;

and S3, the recursion node sends corresponding identification analysis information to the client.

Preferably, the CFN includes: a CFN inlet, a CFN scheduling module, a CFN sub-node and a CFN outlet;

the step S2 specifically comprises the following steps:

s2.1, the CFN entry receives an identification analysis request sent by the recursion node, queries corresponding identification analysis information in a cache according to the identification analysis request, if the query is successful, sends the corresponding identification analysis information to the CFN exit, and jumps to step S2.5, otherwise, sends the identification analysis request to the CFN scheduling module;

s2.2, the CFN scheduling module searches corresponding CFN sub-nodes according to the received identification analysis request and sends the identification analysis request to the corresponding CFN sub-nodes;

s2.3, the CFN sub-node inquires corresponding identification analysis information in a cache or an identification secondary node or enterprise node connected with the CFN sub-node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

s2.4, the CFN scheduling module sends the received identification analysis information to the CFN outlet;

and S2.5, the CFN outlet sends the received identification analysis information to the recursion node.

Preferably, step S2.3 specifically includes:

s2.3.1, the CFN child node queries corresponding identification analysis information in a cache thereof according to the identification analysis request, if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module, otherwise, step S2.3.2 is executed;

s2.3.2, the CFN child node queries corresponding identification analysis information in the connected identification secondary node or enterprise node according to the identification analysis request, and if the query is successful, sends the corresponding identification analysis information to the CFN scheduling module.

Preferably, in step S2.3.2, if the query is successful, the method further comprises:

and the CFN child node synchronizes the queried corresponding identification analysis information in the connected identification secondary node and enterprise node.

Preferably, after step S2.3, the method further comprises:

the CFN scheduling module sends the identification analysis information to the CFN inlet;

after the CFN entry receives the identification analysis information, binding the identification coding information in the identification analysis request with the identification analysis information and the path information for acquiring the identification analysis information, and adding the binding information into a cache.

Preferably, the method further comprises:

the CFN sub-node periodically or real-time collects the identification coding information and the corresponding identification analysis information in the connected identification secondary node and enterprise node, synchronizes the collected identification coding information and the corresponding identification analysis information in the identification secondary node and the enterprise node, and synchronizes the identification coding information and the corresponding identification analysis information to the CFN inlet;

after the CFN entry receives the identification coding information and the corresponding identification analysis information, the identification coding information is bound with the corresponding identification analysis information and the path information for acquiring the identification analysis information, and the binding is added into a cache of the binding.

Preferably, the obtaining the path information of the identification resolution information includes: a secondary node address, an enterprise node address, a CFN child node address, a CFN exit address are identified.

In a second aspect, the present invention provides an identification resolution system, including a recursion node and a computational power network CFN connected to the recursion node;

the recursion node is used for receiving an identification analysis request sent by a client, inquiring corresponding identification analysis information in a cache according to the identification analysis request, if the inquiry is successful, sending the corresponding identification analysis information to the client, otherwise, sending the identification analysis request to a computational power network CFN;

the CFN is used for inquiring corresponding identification analysis information in the self or the identification secondary node or the enterprise node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the recursion node;

the recursion node is further configured to send the identifier resolution information to the client after receiving the identifier resolution information sent by the CFN.

Preferably, the CFN includes a CFN inlet, a CFN scheduling module, a CFN child node, a CFN outlet;

the CFN entry is used for receiving the identification analysis request sent by the recursion node, inquiring corresponding identification analysis information in a cache according to the identification analysis request, if the inquiry is successful, sending the corresponding identification analysis information to the CFN exit, otherwise, sending the identification analysis request to the CFN scheduling module;

the CFN scheduling module is used for searching corresponding CFN sub-nodes according to the received identification analysis request and sending the identification analysis request to the corresponding CFN sub-nodes;

the CFN sub-node is used for inquiring corresponding identification analysis information in a cache or an identification secondary node or enterprise node connected with the CFN sub-node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

the CFN scheduling module is further configured to send the identification analysis information to the CFN outlet after receiving the identification analysis information sent by the CFN child node;

the CFN outlet is used for sending the received identification analysis information to the recursion node.

Preferably, the CFN child node includes:

the first query unit is used for querying corresponding identification analysis information in the cache according to the identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

and the second query unit is used for querying corresponding identification analysis information in the connected identification secondary node or enterprise node according to the identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module.

The invention provides an identification analysis method and an identification analysis system, wherein an algorithm network CFN is added in the identification analysis system, after the CFN is connected with a recursion node, the recursion node receives an identification analysis request sent by a client, and inquires identification analysis information corresponding to the identification analysis request for the first time in a cache, if the inquiry is successful, the identification analysis information is directly fed back to the client, otherwise, the identification analysis request is sent to the CFN for subsequent inquiry, the CFN is utilized for collaborative scheduling processing of multidimensional resources such as algorithm and network, the identification analysis information is quickly searched in the identification analysis system, and finally the identification analysis information inquired by the CFN is fed back to the client through the recursion node, thereby solving the problems that the identification analysis amount in the prior art is increasingly huge, the inquiry speed of the identification analysis information cannot meet the user requirement, realizing global optimization of the identification analysis system, and improving economic benefit.

Drawings

FIG. 1 is a flowchart of a method for resolving an identifier according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an identifier resolution architecture according to an embodiment of the present invention;

FIG. 3 is a flowchart of another method for resolving identifiers according to an embodiment of the present invention;

FIG. 4 is a specific flowchart of step S2 in FIG. 1;

FIG. 5 is a detailed flow chart of step S2.3 of FIG. 4;

FIG. 6 is a schematic diagram of another identifier resolution architecture provided by an embodiment of the present invention.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings.

It is to be understood that the specific embodiments and figures described herein are merely illustrative of the invention, and are not limiting of the invention.

It is to be understood that the various embodiments of the invention and the features of the embodiments may be combined with each other without conflict.

It is to be understood that only the portions relevant to the present invention are shown in the drawings for convenience of description, and the portions irrelevant to the present invention are not shown in the drawings.

It should be understood that each unit and module in the embodiments of the present invention may correspond to only one physical structure, may be formed by a plurality of physical structures, or may be integrated into one physical structure.

It will be appreciated that, without conflict, the functions and steps noted in the flowcharts and block diagrams of the present invention may occur out of the order noted in the figures.

It is to be understood that the flowcharts and block diagrams of the present invention illustrate the architecture, functionality, and operation of possible implementations of systems, apparatuses, devices, methods according to various embodiments of the present invention. Where each block in the flowchart or block diagrams may represent a unit, module, segment, code, or the like, which comprises executable instructions for implementing the specified functions. Moreover, each block or combination of blocks in the block diagrams and flowchart illustrations can be implemented by hardware-based systems that perform the specified functions, or by combinations of hardware and computer instructions.

It should be understood that the units and modules related in the embodiments of the present invention may be implemented by software, or may be implemented by hardware, for example, the units and modules may be located in a processor.

The invention provides an identification analysis method for adding a computational power network (CFN, computing First Networking) into the existing industrial Internet identification analysis system and a corresponding identification analysis system.

The CFN is an infrastructure architecture which integrates edge computing nodes, cloud computing nodes and various network resources including a wide area network, coordinates computing and storage resources of the cloud computing nodes and network resources of the wide area network, and can provide flexible and schedulable on-demand services according to business characteristics.

The CFN aims at communicating resource islands scattered in the whole network, constructing a cloud, edge and end type data collaborative computing system, and the computing network is convenient for massive applications to acquire required computing resources at any time according to requirements through collaborative scheduling processing of computing power, network and other multidimensional resources, so that good user experience is met, network global optimization is realized, and the resource utilization rate of the whole network computing power is improved.

Example 1:

as shown in fig. 1, embodiment 1 of the present invention provides an identification analysis method, which is applied to an identification analysis system, and includes the following steps:

s1, a recursion node receives an identification analysis request sent by a client, queries corresponding identification analysis information in a cache according to the identification analysis request, jumps to step S3 if the query is successful, and otherwise, sends the identification analysis request to a computational power network CFN.

In this embodiment, the identifier resolution system may be as shown in fig. 2, which is specifically an industrial internet identifier resolution system, and specifically includes: the system comprises a recursion node, a CFN connected with the recursion node, N identification secondary nodes and N multiplied by N enterprise nodes connected with N CFN sub-nodes of the CFN, a country top level node connected with the N identification secondary nodes, and a client connected with the front end of the recursion node.

In this embodiment, as shown in fig. 3, for step S1, the method includes first initiating step S10 by the client: the client initiates an identification analysis request, specifically, the client can obtain identification coding information or identification coding and identification address information by using the client to scan an identification two-dimensional code, an active identification terminal and the like, and initiate the identification analysis request according to the obtained identification coding information or the obtained identification coding and identification address information and the like so as to request to check product identification information, and the client submits the identification analysis request to a recursion node of an industrial Internet identification analysis system after sending the identification analysis request.

The step S1 executed by the recursion node specifically includes: s11: the method comprises the steps that a recursion node receives an identification analysis request sent by a client and inquires corresponding identification analysis information in a cache according to the identification analysis request, specifically, after the recursion node receives the identification analysis request sent by the client, the recursion node firstly inquires whether the identification analysis information corresponding to the received identification analysis request exists in the cache of the recursion node, and the identification analysis information comprises corresponding product identification information; s12: the recursion node judges whether the query is successful or not, and selects the subsequent execution step according to the result of the query success or not, specifically, if the query is successful, the recursion node jumps to step S3 to execute the task of feeding back the identification analysis information to the client, completes the execution of the identification analysis request, and if the query is not successful, executes step S13: the recursive node sends the identification analysis request to the CFN entry, specifically, under the condition that the corresponding identification analysis information is not successfully queried in the cache of the recursive node, the recursive node sends the identification analysis request to the CFN to further query the identification analysis information, the CFN is utilized to complete the incomplete identification analysis task of the recursive node, and the CFN receives the identification analysis request sent by the recursive node through the CFN entry.

S2, the CFN queries corresponding identification analysis information in the self or the identification secondary node or the enterprise node according to the received identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the recursion node.

In this embodiment, as shown in fig. 2, the CFN includes: the CFN scheduling module is connected with the CFN inlet, the CFN sub-node and the CFN outlet, has the functions of scheduling the CFN sub-node and real-time addressing, the CFN sub-node is connected between the identification secondary node and the enterprise nodes, one CFN sub-node is connected with one identification secondary node and n enterprise nodes, identification coding information and corresponding identification analysis information can be cached in the CFN sub-node, identification analysis information can be queried for the connected identification secondary node and enterprise nodes, the identification coding information and corresponding identification analysis information can be synchronously queried between the connected identification secondary node and the enterprise nodes, and the CFN outlet feeds back identification analysis results to the client through the recursion node.

In this embodiment, as shown in fig. 4, step S2 specifically includes:

s2.1, the CFN entry receives the identification analysis request sent by the recursion node, queries corresponding identification analysis information in a cache according to the identification analysis request, sends the corresponding identification analysis information to the CFN exit if the query is successful, and jumps to step S2.5, otherwise, sends the identification analysis request to the CFN scheduling module.

In this embodiment, as shown in fig. 3, step S2.1 executed by the CFN entry specifically includes: s211: the CFN entry queries corresponding identification analysis information in a cache according to the received identification analysis request, specifically, the CFN entry queries whether corresponding identification analysis information exists in the self cache according to the identification coding information in the identification analysis request as a result of partial identification coding information and corresponding identification analysis information in the self cache and acquiring binding information such as an identification secondary node address, an enterprise node address, a CFN child node address, a CFN exit address and the like corresponding to the corresponding identification analysis information; s212: the CFN entry judges whether the query is successful, and selects the subsequent execution step according to the result of the query success or not, specifically, if the query is successful, the step S213 is executed: the CFN entry sends the corresponding identification analysis information to the CFN exit, and jumps to step S2.5 and further jumps to step S3 to execute the task of feeding back the identification analysis information to the client, complete the execution of the identification analysis request, and if no query is successful, execute step S214: the CFN entry sends the identification analysis request to the CFN scheduling module, specifically, under the condition that corresponding identification analysis information is not successfully queried in the cache of the CFN entry, the CFN entry sends the identification analysis request to the CFN scheduling module so as to further schedule the computing power of the CFN through the CFN scheduling module to query the identification analysis information and complete the identification analysis task.

S2.2, the CFN scheduling module searches corresponding CFN sub-nodes according to the received identification analysis request and sends the identification analysis request to the corresponding CFN sub-nodes.

In this embodiment, the CFN scheduling module may search for a corresponding CFN child node according to the identifier code information or the identifier code and identifier address information in the identifier resolution request.

S2.3, the CFN sub-node queries corresponding identification analysis information in a cache or an identification secondary node or enterprise node connected with the CFN sub-node according to the received identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module.

In this embodiment, as shown in fig. 5, step S2.3 specifically includes:

s2.3.1, the CFN child node queries corresponding identification analysis information in its cache according to the identification analysis request, if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module, otherwise, step S2.3.2 is executed.

In this embodiment, as shown in fig. 3, the step S2.3.1 of executing the query by the CFN child node in its own cache specifically includes: s2311: the CFN sub-node queries corresponding identification analysis information in a cache according to the identification analysis request, specifically, the CFN sub-node queries whether corresponding identification analysis information exists in the cache according to the identification coding information in the identification analysis request as part of the identification coding information and the corresponding identification analysis information exist in the cache; s2312: the CFN child node determines whether the query is successful, and selects a subsequent execution step according to the result of the query success or not, specifically, if the query is successful, execute step S233: the CFN sub-node sends the corresponding identification analysis information to the CFN scheduling module, jumps to steps S2.4 and S2.5 and further jumps to step S3 to execute the task of feeding back the identification analysis information to the client, completes the execution of the identification analysis request, and if no query is successful, executes step S2.3.2 to further complete the identification analysis task by querying the identification secondary node or the enterprise node connected with the CFN sub-node.

S2.3.2, the CFN child node queries corresponding identification analysis information in the connected identification secondary node or enterprise node according to the identification analysis request, and if the query is successful, sends the corresponding identification analysis information to the CFN scheduling module.

In this embodiment, if the query is successful in step S2.3.2, the method further includes: the CFN sub-node synchronizes the queried corresponding identification analysis information in the connected identification secondary node and enterprise node, specifically, the identification secondary node is an important component of an industrial Internet identification analysis system, is connected with the national top-level node in an upward butt joint mode, is connected with the enterprise node in a downward butt joint mode, provides functions of identification registration service, identification analysis service, identification data service, operation monitoring and the like, is an important link for pushing the construction, application development and industrial ecological construction of the identification analysis system, and synchronizes the corresponding identification analysis information in the identification secondary node into the enterprise node or synchronizes the corresponding identification analysis information in the enterprise node into the identification secondary node after the CFN sub-node queries the corresponding identification analysis information in one of the connected identification secondary node or one of the enterprise nodes according to the identification analysis request.

In this embodiment, as shown in fig. 3, the step S2.3.2 of executing the query by the CFN child node in the identified secondary node or the enterprise node to which it is connected specifically includes: s2321: the CFN sub-node queries corresponding identification analysis information in the connected identification secondary node or enterprise node according to the identification analysis request, specifically, one CFN sub-node is connected with one identification secondary node and n enterprise nodes, the corresponding identification secondary node or enterprise node can be queried according to the identification address information in the identification analysis request, then the corresponding identification analysis information is queried according to the identification coding information, or the corresponding identification analysis information is queried directly according to the identification coding information; s2322: the CFN child node determines whether the query is successful, and selects a subsequent execution step according to the result of the query success or not, specifically, if the query is successful, execute step S233: the CFN sub node sends the corresponding identification analysis information to the CFN scheduling module, jumps to steps S2.4 and S2.5 and further jumps to step S3 to execute the task of feeding back the identification analysis information to the client, completes the execution of the identification analysis request, and if no query is successful, executes step S5: the query failure information is sent to the client, specifically, the CFN child node sends the query failure information to the CFN scheduling module, the CFN scheduling module sends the received query failure information to the CFN exit, the CFN exit sends the query failure information to the recursion node, and the recursion node sends the query failure information to the client, in step S6: after the client receives the query failure information, the client fails to check the product identification information, and the identification analysis step is finished.

And S2.4, the CFN scheduling module sends the received identification analysis information to the CFN outlet.

In this embodiment, after step S2.3, the method further includes: the CFN scheduling module sends the identification analysis information to the CFN inlet; after the CFN entry receives the identification analysis information, binding the identification coding information in the identification analysis request with the identification analysis information and the path information for obtaining the identification analysis information, and adding the binding information into a cache, specifically, the obtaining the path information of the identification analysis information includes: a secondary node address, an enterprise node address, a CFN child node address, a CFN exit address are identified.

And S2.5, the CFN outlet sends the received corresponding identification analysis information to the recursion node.

In this embodiment, the CFN exit is connected to a recursion node, the recursion node is connected to a client, and the identification resolution information queried by the CFN is fed back to the client through the recursion node by the CFN exit.

And S3, the recursion node sends corresponding identification analysis information to the client.

In this embodiment, the final identifier resolution result is fed back to the client through the recursion node, in step S4: after the client receives the identification analysis information, the client obtains the identification analysis information, and the client can check the product identification information through the client to finish the identification analysis step.

In this embodiment, the method further includes:

the CFN sub-node periodically or real-time collects the identification coding information and the corresponding identification analysis information in the connected identification secondary node and enterprise node, synchronizes the collected identification coding information and the corresponding identification analysis information in the identification secondary node and the enterprise node, and synchronizes the identification coding information and the corresponding identification analysis information to the CFN inlet; after the CFN entry receives the identification coding information and the corresponding identification analysis information, binding the identification coding information with the corresponding identification analysis information and the path information for acquiring the identification analysis information, and adding the binding information into a cache, specifically, the path information for acquiring the identification analysis information includes: a secondary node address, an enterprise node address, a CFN child node address, a CFN exit address are identified.

According to the identification analysis method provided by the embodiment 1 of the invention, the computational power network CFN is added in the identification analysis system, after the CFN is connected with the recursion node, the recursion node receives the identification analysis request sent by the client, and inquires the identification analysis information corresponding to the identification analysis request for the first time in the cache, if the inquiry is successful, the identification analysis information is directly fed back to the client, otherwise, the identification analysis request is sent to the CFN for subsequent inquiry, the CFN is utilized for collaborative scheduling processing of multidimensional resources such as computational power, networks and the like, the identification analysis information is quickly searched in the identification analysis system, and finally, the identification analysis information inquired by the CFN is fed back to the client through the recursion node, so that the problems that the identification analysis amount is increasingly huge and the inquiry speed of the identification analysis information cannot meet the user requirement in the prior art are solved, the global optimization of the identification analysis system is realized, and the economic benefit is improved.

Example 2:

as shown in fig. 6, embodiment 2 of the present invention provides an identification resolution system, which includes a recursive node and a computational power network CFN connected to the recursive node;

the recursion node is used for receiving an identification analysis request sent by a client, inquiring corresponding identification analysis information in a cache according to the identification analysis request, if the inquiry is successful, sending the corresponding identification analysis information to the client, otherwise, sending the identification analysis request to a computational power network CFN;

the CFN is used for inquiring corresponding identification analysis information in the self or the identification secondary node or the enterprise node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the recursion node;

the recursion node is further configured to send the identifier resolution information to the client after receiving the identifier resolution information sent by the CFN.

Optionally, as shown in fig. 2, the CFN includes a CFN entry, a CFN scheduling module, a CFN child node, and a CFN exit;

the CFN entry is used for receiving the identification analysis request sent by the recursion node, inquiring corresponding identification analysis information in a cache according to the identification analysis request, if the inquiry is successful, sending the corresponding identification analysis information to the CFN exit, otherwise, sending the identification analysis request to the CFN scheduling module;

the CFN scheduling module is used for searching corresponding CFN sub-nodes according to the received identification analysis request and sending the identification analysis request to the corresponding CFN sub-nodes;

the CFN sub-node is used for inquiring corresponding identification analysis information in a cache or an identification secondary node or enterprise node connected with the CFN sub-node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

the CFN scheduling module is further configured to send the identification analysis information to the CFN outlet after receiving the identification analysis information sent by the CFN child node;

the CFN outlet is used for sending the received identification analysis information to the recursion node.

Optionally, the CFN child node includes:

the first query unit is used for querying corresponding identification analysis information in the cache according to the identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

and the second query unit is used for querying corresponding identification analysis information in the connected identification secondary node or enterprise node according to the identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module.

In this embodiment, as shown in fig. 2, the identifier resolution system is specifically an industrial internet identifier resolution system, and specifically includes: the CFN is connected with the CFN sub-nodes of the CFN, N identification secondary nodes and N multiplied by N enterprise nodes are connected with the CFN sub-nodes of the CFN, the front end of the CFN is connected with a client, and receives an identification analysis request of the client and feeds back an identification analysis result to the client.

In this embodiment, as shown in fig. 2, the CFN includes: the CFN scheduling module is connected with the CFN inlet, the CFN sub-node and the CFN outlet, has the functions of scheduling the CFN sub-node and real-time addressing, the CFN sub-node is connected between the identification secondary node and the enterprise nodes, one CFN sub-node is connected with one identification secondary node and n enterprise nodes, identification coding information and corresponding identification analysis information can be cached in the CFN sub-node, identification analysis information can be queried for the connected identification secondary node and enterprise nodes, the identification coding information and corresponding identification analysis information can be synchronously queried between the connected identification secondary node and the enterprise nodes, and the CFN outlet feeds back identification analysis results to the client through the recursion node.

The identifier resolution system provided in embodiment 2 of the present invention has advantages and beneficial effects corresponding to those of embodiment 1, and is not described herein.

It is to be understood that the above embodiments are merely illustrative of the application of the principles of the present invention, but not in limitation thereof. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the invention, and are also considered to be within the scope of the invention.

Claims (6)

1. The identification analysis method is characterized by being applied to an identification analysis system and comprising the following steps of:

s1, a recursion node receives an identification analysis request sent by a client, queries corresponding identification analysis information in a cache according to the identification analysis request, and jumps to step S3 if the query is successful, otherwise, sends the identification analysis request to a computational power network CFN;

s2, the CFN queries corresponding identification analysis information in the self or the identification secondary node or the enterprise node according to the received identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the recursion node;

the CFN includes: a CFN inlet, a CFN scheduling module, a CFN sub-node and a CFN outlet;

the step S2 specifically comprises the following steps:

s2.1, the CFN entry receives an identification analysis request sent by the recursion node, queries corresponding identification analysis information in a cache according to the identification analysis request, if the query is successful, sends the corresponding identification analysis information to the CFN exit, and jumps to step S2.5, otherwise, sends the identification analysis request to the CFN scheduling module;

s2.2, the CFN scheduling module searches corresponding CFN sub-nodes according to the received identification analysis request and sends the identification analysis request to the corresponding CFN sub-nodes;

s2.3, the CFN sub-node inquires corresponding identification analysis information in a cache or an identification secondary node or enterprise node connected with the CFN sub-node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

the step S2.3 specifically comprises the following steps:

s2.3.1, the CFN child node queries corresponding identification analysis information in a cache thereof according to the identification analysis request, if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module, otherwise, step S2.3.2 is executed;

s2.3.2, the CFN sub-node queries corresponding identification analysis information in the connected identification secondary node or enterprise node according to the identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

s2.4, the CFN scheduling module sends the received identification analysis information to the CFN outlet;

s2.5, the CFN outlet sends the received identification analysis information to the recursion node;

and S3, the recursion node sends corresponding identification analysis information to the client.

2. The identity resolution method as claimed in claim 1, wherein if the query is successful in step S2.3.2, the method further comprises:

and the CFN child node synchronizes the queried corresponding identification analysis information in the connected identification secondary node and enterprise node.

3. The method according to claim 1, wherein after step S2.3, the method further comprises:

the CFN scheduling module sends the identification analysis information to the CFN inlet;

after the CFN entry receives the identification analysis information, binding the identification coding information in the identification analysis request with the identification analysis information and the path information for acquiring the identification analysis information, and adding the binding information into a cache.

4. The identity resolution method of claim 1, wherein the method further comprises:

the CFN sub-node periodically or real-time collects the identification coding information and the corresponding identification analysis information in the connected identification secondary node and enterprise node, synchronizes the collected identification coding information and the corresponding identification analysis information in the identification secondary node and the enterprise node, and synchronizes the identification coding information and the corresponding identification analysis information to the CFN inlet;

after the CFN entry receives the identification coding information and the corresponding identification analysis information, the identification coding information is bound with the corresponding identification analysis information and the path information for acquiring the identification analysis information, and the binding is added into a cache of the binding.

5. The identification resolution method according to claim 3 or 4, wherein the obtaining path information of the identification resolution information includes: a secondary node address, an enterprise node address, a CFN child node address, a CFN exit address are identified.

6. An identification analysis system is characterized by comprising a recursion node and a computational power network CFN connected with the recursion node;

the recursion node is used for receiving an identification analysis request sent by a client, inquiring corresponding identification analysis information in a cache according to the identification analysis request, if the inquiry is successful, sending the corresponding identification analysis information to the client, otherwise, sending the identification analysis request to a computational power network CFN;

the CFN is used for inquiring corresponding identification analysis information in the self or the identification secondary node or the enterprise node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the recursion node;

the CFN comprises a CFN inlet, a CFN scheduling module, a CFN sub-node and a CFN outlet;

the CFN entry is used for receiving the identification analysis request sent by the recursion node, inquiring corresponding identification analysis information in a cache according to the identification analysis request, if the inquiry is successful, sending the corresponding identification analysis information to the CFN exit, otherwise, sending the identification analysis request to the CFN scheduling module;

the CFN scheduling module is used for searching corresponding CFN sub-nodes according to the received identification analysis request and sending the identification analysis request to the corresponding CFN sub-nodes;

the CFN sub-node is used for inquiring corresponding identification analysis information in a cache or an identification secondary node or enterprise node connected with the CFN sub-node according to the received identification analysis request, and if the inquiry is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

the CFN child node includes:

the first query unit is used for querying corresponding identification analysis information in the cache according to the identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

the second query unit is used for querying corresponding identification analysis information in the connected identification secondary node or enterprise node according to the identification analysis request, and if the query is successful, the corresponding identification analysis information is sent to the CFN scheduling module;

the CFN scheduling module is further configured to send the identification analysis information to the CFN outlet after receiving the identification analysis information sent by the CFN child node;

the CFN outlet is used for sending the received identification analysis information to the recursion node;

the recursion node is further configured to send the identifier resolution information to the client after receiving the identifier resolution information sent by the CFN.

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