CN111935789A - Uu interface signaling association method, device and storage medium - Google Patents

Abstract

The invention discloses a Uu interface signaling correlation method, a device and a storage medium, the invention decodes the acquired Uu interface message containing the reconfiguration message and the reconfiguration completion message to respectively obtain a first keyword and a second keyword, the obtained first keyword and the second keyword comprise various types of data such as a base station identifier, a cell wireless network temporary identifier, a user equipment identifier, a target cell wireless network temporary identifier and the like, the comprehensive analysis of the Uu interface message is realized to obtain refined basic data, and then the process correlation is carried out according to the first keyword and the second keyword, namely, the refined basic data is utilized to carry out the process correlation, thereby achieving the effect of comprehensively carrying out the process correlation and realizing the signaling correlation process aiming at the Uu interface The device and the storage medium can be widely applied to the technical field of communication.

Description

Uu interface signaling association method, device and storage medium

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a Uu interface signaling association method, apparatus, and storage medium.

Background

With the development of scientific technology, the development speed of communication technology is faster and faster, such as 5G technology. The 5G system has a Uu interface, which is an air interface (also called a Radio interface), that is, an interface between a UE (User Equipment) and a gNB (gbodeb, 5G base station), and a signaling flow of an RRC (Radio Resource Control) protocol mainly occurs. The Uu interface contains a large number of key measurement values (such as MR measurement reports, handover information, etc.) required by the network optimization, and these pieces of information have a very important role in analyzing the wireless network problems and the association of the handover procedures. However, the research of the related art is generally directed to the flow association between the Uu interface and the X2 interface, or focuses on the association between the protocol layers (such as RRC and NAS) of the Uu interface, and there is no research directed to the signaling flow association of the Uu interface itself, so the signaling flow association of the Uu interface itself cannot be realized.

Disclosure of Invention

In view of the above, in order to solve the above technical problems, an object of the present invention is to provide a Uu interface signaling association method, apparatus and storage medium.

The technical scheme adopted by the invention is as follows:

the Uu interface signaling association method comprises the following steps:

acquiring Uu interface information, wherein the Uu interface information comprises reconfiguration information and reconfiguration completion information;

decoding the reconfiguration message to obtain a first keyword, wherein the first keyword comprises a first base station identifier, a first cell wireless network temporary identifier, a first user equipment identifier and a first target cell wireless network temporary identifier;

decoding the reconfiguration completion message to obtain a second keyword, wherein the second keyword comprises a second base station identifier, a second cell wireless network temporary identifier, a second user equipment identifier and a second target cell wireless network temporary identifier;

and performing flow association according to the first keyword and the second keyword.

Further, the first keyword and the second keyword both include a message channel type and a homogeneous channel message index, and the Uu interface signaling association method further includes the following steps:

and distinguishing the reconfiguration message from the reconfiguration completion message according to the message channel type and the homogeneous channel message index.

Further, the process association according to the first keyword and the second keyword includes one of the following steps:

confirming that the reconfiguration message contains a synchronous reconfiguration IE cell, and associating a switching process according to the first keyword and the second keyword;

otherwise, the association of the radio resource control connection reconfiguration process is carried out according to the first keyword and the second keyword.

Further, the associating the rrc connection reconfiguration procedure according to the first keyword and the second keyword includes:

and establishing a first XDR record by taking the first base station identifier, the first cell identifier and the first cell radio network temporary identifier as first key values and storing the first XDR record in a first container, taking the second base station identifier, the second cell identifier and the second cell radio network temporary identifier as second key values, and searching and matching from the first container to perform association of a radio resource control connection reconfiguration process.

Further, the associating of the handover procedure includes the following steps:

confirming the existence value of the first user equipment identification, establishing a second XDR record by taking the first user equipment identification as a fourth key value, and storing the second XDR record in a second container;

confirming the existence numerical value of the first target cell wireless network temporary identifier, establishing a third XDR record by taking the first target cell wireless network temporary identifier as a fifth key value, and storing the third XDR record in a third container;

and performing association of switching processes according to the second container or the third container.

Further, the second XDR record has a first time value when stored, the third XDR record has a second time value when stored, the first keyword further includes a timer, and the method further includes the following steps:

acquiring current time;

clearing the second XDR record corresponding to the value of the timer, wherein the difference value between the current time and the first time value is larger than the value of the timer;

and cleaning the third XDR record corresponding to the value of the timer, wherein the difference value between the current time and the second time value is greater than the value of the timer.

Further, the associating of the switching flow according to the second container or the third container includes one of the following steps:

confirming that the second user equipment identification has a numerical value, and searching and matching from the second container by taking the second user equipment identification as a sixth key value:

if the second user equipment identity is equal to the first user equipment identity, determining a first session type associated with a switching process according to the first base station identity, the second base station identity, the first cell identity and the second cell identity, wherein the first session type comprises one of intra-cell switching, intra-base station switching and inter-base station switching;

if the second user equipment identifier is not equal to the first user equipment identifier, confirming that the second target cell wireless network temporary identifier has a numerical value, searching and matching from the third container by taking the second target cell wireless network temporary identifier as a seventh key value, and if the second target cell wireless network temporary identifier is equal to the first target cell wireless network temporary identifier, determining a second session type associated with a switching process, wherein the second session type comprises inter-base station switching.

Further, the determining the first session type associated with the handover procedure specifically includes:

confirming that the first base station identifier is equal to the second base station identifier, the first cell identifier is equal to the second cell identifier, and the first session type is the intra-cell handover;

confirming that the first base station identifier is equal to the second base station identifier, the first cell identifier is not equal to the second cell identifier, and the first session type is intra-base station handover;

and confirming that the first base station identification is not equal to the second base station identification, wherein the first session type is the inter-base station switching.

The present invention also provides an apparatus comprising:

at least one processor;

at least one memory for storing at least one program;

when the at least one program is executed by the at least one processor, the at least one processor is enabled to implement the Uu interface signaling association method.

The invention also provides a storage medium, wherein the storage medium stores a program, and the program is executed by a processor to complete the Uu interface signaling association method.

The invention has the beneficial effects that: the acquired Uu interface message containing the reconfiguration message and the reconfiguration completion message is decoded to respectively obtain a first keyword and a second keyword, the obtained first keyword and the obtained second keyword comprise various types of data such as a base station identifier, a cell wireless network temporary identifier, a user equipment identifier and a target cell wireless network temporary identifier, comprehensive analysis of the Uu interface message is realized to obtain refined basic data, flow association is performed according to the first keyword and the second keyword, namely, the refined basic data is used for performing flow association, the effect of comprehensively performing flow association can be achieved, and the signaling association flow for the Uu interface is realized.

Drawings

FIG. 1 is a schematic flow chart of the steps of the method of the present invention;

FIG. 2 is a schematic flow chart illustrating steps of an embodiment of the present invention;

fig. 3(a) is a first diagram illustrating a reconfiguration message and a reconfiguration complete message according to an embodiment of the present invention;

fig. 3(b) is a second diagram illustrating a reconfiguration message and a reconfiguration complete message according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "first," "second," "third," and "fourth," etc. in the description and claims of this application and in the accompanying drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

As shown in fig. 1, this embodiment provides a Uu interface signaling association method, which includes the following steps:

acquiring Uu interface information, wherein the Uu interface information comprises reconfiguration information and reconfiguration completion information;

decoding the reconfiguration message to obtain a first keyword, wherein the first keyword comprises a first base station identifier, a first cell wireless network temporary identifier, a first user equipment identifier and a first target cell wireless network temporary identifier;

decoding the reconfiguration completion message to obtain a second keyword, wherein the second keyword comprises a second base station identifier, a second cell wireless network temporary identifier, a second user equipment identifier and a second target cell wireless network temporary identifier;

and performing flow association according to the first keyword and the second keyword.

In this embodiment, the Uu interface message is obtained by a soft mining method, specifically, when the soft mining function of each network element (i.e., the gbb, 5G base station) is turned on, each network element outputs a data stream to other network elements from a monitor port on the device, and the data is aggregated by a traffic aggregation Adapter (SCA), and after adding a time identifier, the data is sent to a soft mining Signaling analysis device for subsequent processing such as decoding, association, and synthesis. The Uu interface switching signaling flow association and the like related to the scheme also belong to a key algorithm and an implementation link of a soft mining signaling analysis system.

As shown in fig. 2, in this embodiment, specifically, the Uu interface signaling association method includes the following steps:

s1, acquiring Uu interface information, wherein the Uu interface information comprises reconfiguration information and reconfiguration completion information;

in this embodiment, it can be understood that the reconfiguration message and the reconfiguration complete message include, but are not limited to, a chronological order of acquisition. For example, the reconfiguration message is acquired first, and then the reconfiguration complete message is acquired. In this embodiment, the Reconfiguration message is an RRC Reconfiguration message, and the Reconfiguration Complete message is an RRC Reconfiguration Complete message. Optionally, the Uu interface message may also include other messages besides the two, and the Uu interface message may be several messages.

S2, decoding the Uu interface message to obtain a keyword;

optionally, the method includes analyzing, by a signaling analysis device, the accessed soft mining Uu original code stream data according to a protocol type, including decoding each protocol stack data of the Uu interface, specifically including analyzing a general packet header and a special packet header of a Uu interface message, analyzing an upper RRC protocol and an NAS protocol, extracting a process-related keyword and service application field information, and finally filling, by a decoding module, all information fields obtained by decoding into a corresponding data structure.

Optionally, in this embodiment, the keywords include message time, gNB ID (base station identifier), Cell ID (Cell identifier), C-RNTI (Cell radio network temporary identifier), AMF UE NGAP ID (i.e. user equipment identifier, which is a unique identifier of the UE in the NG interface allocated by the AMF, where AMF is Access and Mobility Management Function, and NG interface is an interface between the 5G base station and the 5G core network), newUE-Identity (target C-RNTI, which is target Cell radio network temporary identifier), timer (in this embodiment, intra-system handover T304 timer), Channel Type (message Channel Type), and C1 (homogeneous Channel message index).

The C-RNTI (Cell radio network Temporary Identifier) is a dynamic Identifier allocated to the UE by the base station, that is, the C-RNTI uniquely identifies the UE in a Cell gap.

Therefore, the first keyword obtained after decoding the reconfiguration message correspondingly includes a first message time, a first base station identifier, a first cell radio network temporary identifier, a first user equipment identifier, a first target cell radio network temporary identifier, a first timer, a first message channel type, and a first homogeneous channel message index. And the second keyword obtained after decoding the reconfiguration complete message correspondingly comprises second message time, a second base station identifier, a second cell wireless network temporary identifier, a second user equipment identifier, a second target cell wireless network temporary identifier, a second timer, a second message channel type and a second similar channel message index.

In 5G systems, the gNB (base station) side users are usually distinguished by the cell radio network temporary identity C-RNTI resource, but since the C-RNTI is not unique in the whole network, the C-RNTI values of the users of different base stations may be the same, and the C-RNTI may also change if the UE is handed over to another cell. Therefore, different association methods need to be designed for association of the handover procedure and association of the rrc connection reconfiguration procedure.

S3, performing a flow association according to the decoding result, specifically, the method includes the following steps:

s31, judging the type of the message;

and distinguishing the reconfiguration message from the reconfiguration completion message according to the message channel type and the similar channel message index.

For example, when the Channel Type is 3 (indicating DL-DCCH-MessageType) and the message of C1 is 0 indicates a Reconfiguration message (RRC Reconfiguration message);

a message when Channel Type is 7 (indicating UL-DCCH-MessageType) and C1 is 1 indicates a Reconfiguration message (RRC Reconfiguration Complete message).

If the messages do not belong to the two messages, the messages are other messages.

Therefore, whether the Uu interface message is a reconfiguration message or a reconfiguration completion message can be judged by the method, and different processing associated flows are conveniently executed when the signaling analysis equipment processes the Uu interface message.

Referring to fig. 2, S32, the process-related flow, specifically includes the following steps:

s321, when the message type is reconfiguration message, determining whether the reconfiguration message contains a synchronization reconfiguration IE cell (reconfiguration WithSync cell);

1) if the synchronous reconfiguration IE cell is not included, it indicates that the reconfiguration message is initiated by a normal RRC reconfiguration signaling procedure (i.e., a RRC connection reconfiguration procedure), needs to be associated with the RRC connection reconfiguration procedure, executes a first processing procedure (including step a1 or a2), and determines whether the current message is a start message, specifically, when the current message is a reconfiguration message (and the reconfiguration message belongs to the start message), specifically:

a1, establishing a first XDR record by using the first base station identifier, the first cell identifier, and the first cell radio network temporary identifier as a first KEY value (first KEY), inserting the first XDR record into a first container (in this embodiment, a first MAP container), and waiting for a subsequent message to be associated.

And when the message type is judged to be other messages, judging that the other messages do not belong to the starting message, and executing A2: and decoding the other messages to obtain corresponding third base station identification, third cell identification and third cell wireless network temporary identification as third correlation key values, searching and matching from the first container to correlate the wireless resource control connection reconfiguration flow, and if the searching and matching are successful, indicating that the signaling flow message correlation is successful. Optionally, the first container stores the first XDR record described above.

2) If the reconfiguration message contains the synchronous reconfiguration IE cell, the reconfiguration message is a message for carrying out synchronous reconfiguration from the source cell to the target cell, namely belongs to a switching process and needs to be associated with the switching process (a second processing process), and the association of the switching process comprises the following steps C-D:

C. confirming that the first user equipment identity has a numerical value (i.e. is not empty), establishing a second XDR record to be inserted and stored in a second container (in this embodiment, a second MAP container) by using the first user equipment identity as a fourth KEY value (fourth KEY);

D. confirming that the first target cell radio network temporary identifier has a numerical value (i.e., is not empty), and establishing a third XDR record with the first target cell radio network temporary identifier as a fifth KEY value (fifth KEY) and inserting and storing the third XDR record in a third container (in this embodiment, a third MAP container).

Optionally, in this embodiment, each XDR record newly created insert is stored in a container with a time value, including but not limited to a timestamp, e.g., the second XDR record corresponds to a first time value and the third XDR record corresponds to a second time value.

In this embodiment, after step C, D, by obtaining the current time, the second XDR record corresponding to the difference between the current time and the first time value being greater than the value of the timer (T304) is cleared (i.e., output);

and clearing the third XDR record corresponding to the difference value between the current time and the second time value which is greater than the value of the timer (T304).

Through the processing, the XDR records of the second container and the third container with overtime association can be cleaned, so that the subsequent error association can be avoided, and the association accuracy is improved.

S322, determining whether the message type is a Reconfiguration Complete message (RRC Reconfiguration Complete message);

if yes, executing steps E-G (third processing flow):

E. first, the second base station identifier, the second cell identifier and the second cell radio network temporary identifier in the reconfiguration complete message are used as a second KEY value (second KEY), and matching is searched from the first container so as to associate the radio resource control connection reconfiguration process. If the matching is found successfully, the association of the process is successful, and the session type is an RRC connection reconfiguration process (RRC connection reconfiguration process).

The message of the radio resource control connection reconfiguration process is not allocated to acquire the AMF UE NGAP ID value, so that association can only be performed by the method.

F. If the search for a match from the first container fails, it indicates that the current RRC Reconfiguration Complete message is likely to be a message of a handover procedure, and a search association needs to be performed in the second container or the third container that stores a handover XDR record (second XDR record or third XDR record):

confirming that the second ue identity has a numerical value (i.e. is not null), performing search matching from the second container with the second ue identity as a sixth KEY value (sixth KEY), if the search matching is successful, it represents that the association of the handover procedure is successful, for example, the second ue identity is equal to the first ue identity, then determining the first session type of the association of the handover procedure according to the first base station identity, the second base station identity, the first cell identity and the second cell identity, specifically:

confirming that the first base station identification is equal to the second base station identification, the first cell identification is equal to the second cell identification, and the first session type is intra-cell switching;

confirming that the first base station identification is equal to the second base station identification, the first cell identification is not equal to the second cell identification, and the first session type is intra-base station switching;

and confirming that the first base station identification is not equal to the second base station identification, wherein the first session type is switching between the base stations.

As shown in fig. 3(a), a Reconfiguration message (RRC Reconfiguration message) and a Reconfiguration Complete message (RRC Reconfiguration Complete message) for (5G) Uu interface radio resource control connection Reconfiguration procedure/intra-cell handover/intra-base station handover are illustrated; fig. 3(b) is a diagram illustrating a Reconfiguration message (RRC Reconfiguration message) and a Reconfiguration Complete message (RRC Reconfiguration Complete message) for inter-base station handover, where S-gbb represents a handover source base station and T-gbb represents a handover target base station.

G. If the search for a match from the second container fails, for example, the second ue id is not equal to the first ue id, then the search for a match needs to continue to the third container:

and confirming that the second target cell radio network temporary identifier has a numerical value (namely, is not empty), searching and matching from the third container by taking the second target cell radio network temporary identifier as a seventh KEY value (seventh KEY), if the searching and matching are successful, for example, the second target cell radio network temporary identifier is equal to the first target cell radio network temporary identifier and represents that the association is successful, determining a second session type associated with the handover process, wherein the second session type comprises inter-base station handover which represents the handover process between base stations crossing the AMF.

Step G can implement the association of the handover procedure between the base stations across the AMF, because the AMF UE NGAP ID is allocated by the AMF and is the unique identifier of the UE in the NG interface, even if the handover is across the AMF, that is, when the AMF UE NGAP ID before and after the handover has changed, the association of the handover signaling procedure across the AMF can be implemented, which is different from the intra-base station handover in step F.

In conclusion, the scheme subdivides the Uu interface switching signaling flow and outputs fine analysis basic data, so that the association of intra-cell switching, intra-base station switching, inter-base station switching and radio resource control connection reconfiguration flow can be effectively realized, the comprehensive association of the Uu interface signaling flow, particularly the switching signaling flow is realized, the accuracy and the integrity of the association of the switching signaling flow are greatly improved, and the scheme is simple and efficient.

The present invention also provides an apparatus comprising:

at least one processor;

at least one memory for storing at least one program;

when the at least one program is executed by the at least one processor, the at least one processor implements the Uu interface signaling association method.

The contents in the above method embodiments are all applicable to the present apparatus embodiment, the functions specifically implemented by the present apparatus embodiment are the same as those in the above method embodiments, and the advantageous effects achieved by the present apparatus embodiment are also the same as those achieved by the above method embodiments.

In some alternative embodiments, the embodiments presented and described in the context of the steps of the present invention are provided by way of example in order to provide a more thorough understanding of the technology. The disclosed methods are not limited to the operations and logic flows presented herein. Alternative embodiments are contemplated in which the order of various operations is changed and in which sub-operations described as part of larger operations are performed independently.

Furthermore, although the present invention is described in the context of functional modules, it should be understood that, unless otherwise stated to the contrary, one or more of the functions and/or features may be integrated in a single physical device and/or software module, or one or more functions and/or features may be implemented in separate physical devices or software modules. It will also be appreciated that a detailed discussion of the actual implementation of each module is not necessary for an understanding of the present invention. Rather, the actual implementation of the various functional modules in the apparatus disclosed herein will be understood within the ordinary skill of an engineer, given the nature, function, and internal relationship of the modules. Accordingly, those skilled in the art can, using ordinary skill, practice the invention as set forth in the claims without undue experimentation. It is also to be understood that the specific concepts disclosed are merely illustrative of and not intended to limit the scope of the invention, which is defined by the appended claims and their full scope of equivalents.

The embodiment of the invention also provides a storage medium, wherein the storage medium stores a program, and the program is executed by the processor to complete the Uu interface signaling association method.

It can also be seen that the contents in the above method embodiments are all applicable to the present storage medium embodiment, and the realized functions and advantageous effects are the same as those in the method embodiments.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The steps of an embodiment represent or are otherwise described herein as logic and/or steps, e.g., a sequential list of executable instructions that can be thought of as implementing logical functions, can be embodied in any computer-readable medium for use by or in connection with an instruction execution system, apparatus, or device, such as a computer-based system, processor-containing system, or other system that can fetch the instructions from the instruction execution system, apparatus, or device and execute the instructions. For the purposes of this description, a "computer-readable medium" can be any means that can contain, store, communicate, propagate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device.

More specific examples (a non-exhaustive list) of the computer-readable medium would include the following: an electrical connection (electronic device) having one or more wires, a portable computer diskette (magnetic device), a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber device, and a portable compact disc read-only memory (CDROM). Additionally, the computer-readable medium could even be paper or another suitable medium upon which the program is printed, as the program can be electronically captured, via for instance optical scanning of the paper or other medium, then compiled, interpreted or otherwise processed in a suitable manner if necessary, and then stored in a computer memory.

Claims (10)

1. A Uu interface signaling association method, comprising the steps of:

   acquiring Uu interface information, wherein the Uu interface information comprises reconfiguration information and reconfiguration completion information;

   decoding the reconfiguration message to obtain a first keyword, wherein the first keyword comprises a first base station identifier, a first cell wireless network temporary identifier, a first user equipment identifier and a first target cell wireless network temporary identifier;

   decoding the reconfiguration completion message to obtain a second keyword, wherein the second keyword comprises a second base station identifier, a second cell wireless network temporary identifier, a second user equipment identifier and a second target cell wireless network temporary identifier;

   and performing flow association according to the first keyword and the second keyword.
2. 2. The Uu interface signaling association method of claim 1, wherein: the first keyword and the second keyword both comprise a message channel type and a similar channel message index, and the Uu interface signaling association method further comprises the following steps:

   and distinguishing the reconfiguration message from the reconfiguration completion message according to the message channel type and the homogeneous channel message index.
3. 3. The Uu interface signaling association method of claim 1, wherein: the process association is performed according to the first keyword and the second keyword, and the process association method comprises one of the following steps:

   confirming that the reconfiguration message contains a synchronous reconfiguration IE cell, and associating a switching process according to the first keyword and the second keyword;

   otherwise, the association of the radio resource control connection reconfiguration process is carried out according to the first keyword and the second keyword.
4. 4. The Uu interface signaling association method of claim 3, wherein: the associating of the radio resource control connection reconfiguration process according to the first keyword and the second keyword comprises the following steps:

   and establishing a first XDR record by taking the first base station identifier, the first cell identifier and the first cell radio network temporary identifier as first key values and storing the first XDR record in a first container, taking the second base station identifier, the second cell identifier and the second cell radio network temporary identifier as second key values, and searching and matching from the first container to perform association of a radio resource control connection reconfiguration process.
5. 5. The Uu interface signaling association method of claim 3, wherein: the association for switching the process comprises the following steps:

   confirming the existence value of the first user equipment identification, establishing a second XDR record by taking the first user equipment identification as a fourth key value, and storing the second XDR record in a second container;

   confirming the existence numerical value of the first target cell wireless network temporary identifier, establishing a third XDR record by taking the first target cell wireless network temporary identifier as a fifth key value, and storing the third XDR record in a third container;

   and performing association of switching processes according to the second container or the third container.
6. 6. The Uu interface signaling association method of claim 5, wherein: the second XDR record has a first time value when stored, the third XDR record has a second time value when stored, the first keyword further comprises a timer, and the method further comprises the following steps:

   acquiring current time;

   clearing the second XDR record corresponding to the value of the timer, wherein the difference value between the current time and the first time value is larger than the value of the timer;

   and cleaning the third XDR record corresponding to the value of the timer, wherein the difference value between the current time and the second time value is greater than the value of the timer.
7. 7. The Uu interface signaling association method of claim 5, wherein: the associating of the switching flow according to the second container or the third container includes one of the following steps:

   confirming that the second user equipment identification has a numerical value, and searching and matching from the second container by taking the second user equipment identification as a sixth key value:

   if the second user equipment identity is equal to the first user equipment identity, determining a first session type associated with a switching process according to the first base station identity, the second base station identity, the first cell identity and the second cell identity, wherein the first session type comprises one of intra-cell switching, intra-base station switching and inter-base station switching;

   if the second user equipment identifier is not equal to the first user equipment identifier, confirming that the second target cell wireless network temporary identifier has a numerical value, searching and matching from the third container by taking the second target cell wireless network temporary identifier as a seventh key value, and if the second target cell wireless network temporary identifier is equal to the first target cell wireless network temporary identifier, determining a second session type associated with a switching process, wherein the second session type comprises inter-base station switching.
8. 8. The Uu interface signaling association method of claim 7, wherein: the determining of the first session type associated with the handover procedure specifically includes:

   confirming that the first base station identifier is equal to the second base station identifier, the first cell identifier is equal to the second cell identifier, and the first session type is the intra-cell handover;

   confirming that the first base station identifier is equal to the second base station identifier, the first cell identifier is not equal to the second cell identifier, and the first session type is intra-base station handover;

   and confirming that the first base station identification is not equal to the second base station identification, wherein the first session type is the inter-base station switching.
9. 9. An apparatus, comprising:

   at least one processor;

   at least one memory for storing at least one program;

   when executed by the at least one processor, cause the at least one processor to implement the Uu interface signaling association method as recited in any of claims 1-7.
10. 10. A storage medium, characterized in that the storage medium stores a program, which is executed by a processor to perform the Uu interface signaling association method according to any of claims 1-7.

Images