CN114501514A - Information processing method, device and equipment - Google Patents

Abstract

The invention provides an information processing method, an information processing device and information processing equipment, wherein the information processing method comprises the following steps: acquiring full code stream data and original code stream data corresponding to the full XDR; determining data condition information of the original code stream data according to the full code stream data and the original code stream data; the original code stream data is obtained according to the full code stream data. According to the scheme, full code stream data and original code stream data corresponding to a full XDR are obtained; determining data condition information of the original code stream data according to the full code stream data and the original code stream data; the original code stream data is obtained according to the full code stream data; the method can determine the data condition (such as correct error, omission and the like) of the original code stream data, thereby avoiding the use of the original code stream data which is not in accordance with the actual signaling to check the XDR, ensuring the effectiveness of the XDR comparison scheme of the statistical index as much as possible, and well solving the problem that the original code stream data possibly causes the failure of the XDR comparison scheme of the statistical index in the prior art.

Description

Information processing method, device and equipment

Technical Field

The present invention relates to the field of communications technologies, and in particular, to an information processing method, apparatus, and device.

Background

In order to ensure user experience, a signaling plane of a unified DPI (Deep Packet Inspection) system records control and feedback information (original code stream) between a network and a user, and is used for analyzing the problems that the user cannot surf the internet, the internet experience is poor and the like. Because the control information is large in quantity and various in types, the unified DPI system can convert each section of control information into 1 XDR (telephone bill) information and can be used for analyzing the problems of poor network and user experience.

Specifically, in the prior art, usually, the XDR is compared with the XDR reported by the manufacturer according to the original code stream synthesis standard reported by the manufacturer, and the index is counted. And the original code stream reported by the manufacturer is the original code stream which is synthesized by the manufacturer in an associated manner and corresponds to the XDR. Therefore, it is impossible to detect whether the original code stream reported by the manufacturer conforms to the actual signaling flow, and the comparison scheme is invalid if the original code stream reported by the manufacturer is missing or erroneous.

From the above, in the prior art, the original code stream data has a risk that the XDR comparison scheme of the statistical indicator may fail.

Disclosure of Invention

The invention aims to provide an information processing method, an information processing device and information processing equipment, which are used for solving the problem that in the prior art, original code stream data possibly cause failure of an XDR (x data reduction) comparison scheme of a statistical index.

In order to solve the above technical problem, an embodiment of the present invention provides an information processing method, including:

acquiring full code stream data and original code stream data corresponding to a full call bill XDR;

determining data condition information of the original code stream data according to the full code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

Optionally, the determining data condition information of the original code stream data according to the full-volume code stream data and the original code stream data includes:

deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream;

adding and removing duplicate of the original code stream data to obtain intermediate data of the original code stream;

obtaining a code stream number of a preset type according to the full code stream intermediate data and the original code stream intermediate data;

and determining the data condition information of the original code stream data according to the code stream number of the preset type.

Optionally, the preset type code stream number includes at least one of the following:

the total number N of the first code streams of the intermediate data of the full code streams;

the total number M of second code streams of the intermediate data of the original code streams;

a first number of streams M1 that are not repeated and are included in the full codestream intermediate data;

a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data;

a third number of codestreams N2 not included in the original codestream intermediate data.

Optionally, the determining, according to the number of code streams of the preset type, data condition information of the original code stream data includes:

if M is N1 and M2 is 0, confirming that the data of the original code stream data is normal;

under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data;

under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data;

and in the case that M2>0, confirming that a session of code stream error association exists in the original code stream data.

Optionally, the determining, according to the number of code streams of the preset type, data condition information of the original code stream data includes:

for the code stream corresponding to each XDR, determining the number filling error of the session code stream corresponding to the XDR in the original code stream data under the condition that the decoded actual number of the code streams is inconsistent with the total number of the code streams;

aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists;

for the code stream corresponding to each XDR, determining session code stream error correlation corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream;

for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists;

and aiming at the code stream corresponding to each XDR, determining that the XDR is not reported in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

Optionally, the determining that the session code stream corresponding to the XDR in the original code stream data is incomplete when the signaling process is incomplete and a missing code stream is detected in the N2 set includes:

for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data;

determining whether a missing code stream is detected in the N2 set or not according to the first data;

and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

Optionally, the full-volume code stream data is obtained from a simulation instrument, the original code stream data is obtained from a Deep Packet Inspection (DPI) device to be tested, and the full-volume code stream data on which the DPI device to be tested obtains the original code stream data is also obtained from the simulation instrument; alternatively, the first and second electrodes may be,

the full code stream data is obtained from an existing network element by copying equipment, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data based on which the DPI equipment to be tested obtains the original code stream data is also obtained from the existing network element by copying equipment.

An embodiment of the present invention further provides an information processing apparatus, including:

the first acquisition module is used for acquiring full code stream data and original code stream data corresponding to a full call bill XDR;

the first determining module is used for determining data condition information of the original code stream data according to the full code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

Optionally, the first determining module includes:

the first processing submodule is used for deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream;

the second processing submodule is used for performing addition and de-duplication processing on the original code stream data to obtain original code stream intermediate data;

the third processing submodule is used for obtaining the code stream number of a preset type according to the intermediate data of the full code stream and the intermediate data of the original code stream;

and the first determining submodule is used for determining the data condition information of the original code stream data according to the number of the code streams of the preset type.

Optionally, the preset type code stream number includes at least one of the following:

the total number N of the first code streams of the intermediate data of the full code streams;

the total number M of second code streams of the intermediate data of the original code streams;

a first number of streams M1 that are not repeated and are included in the full codestream intermediate data;

a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data;

a third number of codestreams N2 not included in the original codestream intermediate data.

Optionally, the determining, according to the number of code streams of the preset type, data condition information of the original code stream data includes:

if M1 is N and M2 is 0, confirming that the data of the original code stream data is normal;

under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data;

under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data;

and in the case that M2>0, confirming that a session of code stream error association exists in the original code stream data.

Optionally, the determining, according to the number of code streams of the preset type, data condition information of the original code stream data includes:

for the code stream corresponding to each XDR, determining the number filling error of the session code stream corresponding to the XDR in the original code stream data under the condition that the decoded actual number of the code streams is inconsistent with the total number of the code streams;

aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream;

for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists;

and aiming at the code stream corresponding to each XDR, determining that the XDR is not reported in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

Optionally, the determining that the session code stream corresponding to the XDR in the original code stream data is incomplete when the signaling process is incomplete and a missing code stream is detected in the N2 set includes:

for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data;

determining whether a missing code stream is detected in the N2 set or not according to the first data;

and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

Optionally, the full-volume code stream data is obtained from a simulation instrument, the original code stream data is obtained from a Deep Packet Inspection (DPI) device to be tested, and the full-volume code stream data on which the DPI device to be tested obtains the original code stream data is also obtained from the simulation instrument; alternatively, the first and second electrodes may be,

the full code stream data is obtained from an existing network element by copying equipment, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data based on which the DPI equipment to be tested obtains the original code stream data is also obtained from the existing network element by copying equipment.

An embodiment of the present invention further provides an information processing apparatus, including: a processor;

the processor is used for acquiring full code stream data and original code stream data corresponding to a full call ticket XDR;

determining data condition information of the original code stream data according to the full code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

Optionally, the processor is specifically configured to:

deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream;

adding and removing duplicate of the original code stream data to obtain intermediate data of the original code stream;

obtaining a code stream number of a preset type according to the full code stream intermediate data and the original code stream intermediate data;

and determining the data condition information of the original code stream data according to the number of the code streams of the preset type.

Optionally, the preset type code stream number includes at least one of the following:

the total number N of the first code streams of the intermediate data of the full code streams;

the total number M of second code streams of the intermediate data of the original code streams;

a first number of streams M1 that are not repeated and are included in the full codestream intermediate data;

a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data;

a third number of codestreams N2 not included in the original codestream intermediate data.

Optionally, the processor is specifically configured to:

if M is N1 and M2 is 0, confirming that the data of the original code stream data is normal;

under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data;

under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data;

and in the case that M2>0, confirming that a session of code stream error association exists in the original code stream data.

Optionally, the processor is specifically configured to:

for the code stream corresponding to each XDR, determining the number filling error of the session code stream corresponding to the XDR in the original code stream data under the condition that the decoded actual number of the code streams is inconsistent with the total number of the code streams;

aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream;

for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists;

and aiming at the code stream corresponding to each XDR, determining that the XDR is not reported in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

Optionally, the processor is specifically configured to:

for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data;

determining whether a missing code stream is detected in the N2 set according to the first data;

and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

Optionally, the full-volume code stream data is obtained from a simulation instrument, the original code stream data is obtained from a Deep Packet Inspection (DPI) device to be tested, and the full-volume code stream data on which the DPI device to be tested obtains the original code stream data is also obtained from the simulation instrument; alternatively, the first and second electrodes may be,

the full code stream data is obtained from an existing network element by copying equipment, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data based on which the DPI equipment to be tested obtains the original code stream data is also obtained from the existing network element by copying equipment.

The embodiment of the invention also provides information processing equipment, which comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor; the processor implements the above-described information processing method when executing the program.

An embodiment of the present invention further provides a readable storage medium, on which a program is stored, and the program, when executed by a processor, implements the steps in the information processing method described above.

The technical scheme of the invention has the following beneficial effects:

in the scheme, the information processing method comprises the steps of acquiring full code stream data and original code stream data corresponding to a full call ticket XDR; determining data condition information of the original code stream data according to the full code stream data and the original code stream data; the original code stream data is obtained according to the full-volume code stream data; the method can determine the data condition (such as correct error, omission and the like) of the original code stream data, thereby avoiding the use of the original code stream data which is not in accordance with the actual signaling to check the XDR, ensuring the effectiveness of the XDR comparison scheme of the statistical index as much as possible, and well solving the problem that the original code stream data possibly causes the failure of the XDR comparison scheme of the statistical index in the prior art.

Drawings

FIG. 1 is a flow chart of an information processing method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a simulation instrument deployment scenario architecture according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a current network real scene architecture according to an embodiment of the present invention;

FIG. 4 is a functional device architecture diagram according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of an overall detection process according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a session-level detection process according to an embodiment of the present invention;

fig. 7 is a schematic diagram of RRC establishment procedure according to an embodiment of the present invention;

FIG. 8 is a diagram illustrating an information processing apparatus according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of an information processing apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

The present invention provides an information processing method, as shown in fig. 1, for solving the problem in the prior art that original code stream data may cause failure of an XDR comparison scheme for statistical indicators, including:

step 11: acquiring full code stream data and original code stream data corresponding to a full call bill XDR;

step 12: determining data condition information of the original code stream data according to the full code stream data and the original code stream data; and obtaining the original code stream data according to the full-volume code stream data.

Regarding "the original code stream data is obtained according to the full code stream data," it can also be understood as: "full codestream data" is raw data; and "raw codestream data" is processed data.

The information processing method provided by the embodiment of the invention obtains the full code stream data and the original code stream data corresponding to the full call ticket XDR; determining data condition information of the original code stream data according to the full code stream data and the original code stream data; the original code stream data is obtained according to the full-volume code stream data; the method can determine the data condition (such as correct error, omission and the like) of the original code stream data, thereby avoiding the use of the original code stream data which is not in accordance with the actual signaling to check the XDR, ensuring the effectiveness of the XDR comparison scheme of the statistical index as much as possible, and well solving the problem that the original code stream data possibly causes the failure of the XDR comparison scheme of the statistical index in the prior art.

Determining data condition information of the original code stream data according to the full-volume code stream data and the original code stream data, wherein the determining comprises the following steps: deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream; adding and de-duplicating the original code stream data to obtain original code stream intermediate data; obtaining a code stream number of a preset type according to the full code stream intermediate data and the original code stream intermediate data; and determining the data condition information of the original code stream data according to the code stream number of the preset type.

Specifically, the preset type code stream number includes at least one of the following items: the total number N of the first code streams of the intermediate data of the full code streams; the total number M of second code streams of the intermediate data of the original code streams; a first number of streams M1 that are not repeated and are included in the full codestream intermediate data; a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data; a third number of codestreams N2 not included in the original codestream intermediate data.

In the embodiment of the invention, the data situation information can be determined as a whole (situation one), or can be determined from a session level (situation two);

for the first situation, the determining the data condition information of the original code stream data according to the number of the code streams of the preset type includes: if M is N1 and M2 is 0, confirming that the data of the original code stream data is normal; under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data; under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data; and in the case that M2>0, confirming that a session of code stream error association exists in the original code stream data.

For the second case, the determining the data condition information of the original code stream data according to the number of the code streams of the preset type includes: for the code stream corresponding to each XDR, determining a session code stream number filling error corresponding to the XDR in the original code stream data under the condition that the decoded actual code stream number is inconsistent with the total code stream number; aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set; for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists; for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream; for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists; and aiming at the code stream corresponding to each XDR, determining that the XDR missing report exists in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

Regarding "total number of code streams": each code stream is associated with XDR ID, and the code stream can be obtained by respectively counting according to each XDR ID. Specifically, taking the financial reimbursement receipt as an example, assuming that N is 10W, the total number of invoices (real) counted in the whole year range is assumed, M is equal to the sum of the invoices reported by financial departments of each unit, and whether each financial department makes a fake or not is determined according to the comparison between N and M. The total number of code streams corresponding to the XDR mentioned here is equivalent to the total number of invoices per service (N ═ 10W is the total number, which may include 10000 services, and then the total number of invoices per service may be only 10), then here, the "session code stream number filling" error is equivalent to 10 invoices for this service, but the number of invoices in the reimbursement bill is 5.

Signaling for "user or cell identity inconsistency", such as: each code stream has a cell ID and a C-RNTI (user identifier), for example, three signaling messages in a certain XDR, where two cell IDs carried by two code streams are 3333, the C-RNTI is abc, the cell ID of the other code stream is 3334, and the C-RNTI is abcd, which means that there is "signaling with inconsistent user or cell identifiers", and data in this case is problematic.

With regard to "there is a codestream that does not belong to any XDR in the N2 set", it can be understood that: the XDR ID is equivalent to the serial number of each business bill, and if an invoice can not belong to any business bill reported by the financial department, the fact that the business bill is missed by the financial department is indicated.

Specifically, the determining that the session code stream corresponding to the XDR in the original code stream data is incomplete when the signaling process is incomplete and a missing code stream is detected in the N2 set includes: for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data; determining whether a missing code stream is detected in the N2 set or not according to the first data; and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

For "compare user or cell id", for example, if an invoice is missing from a certain service, then it is necessary to see whether there is an invoice associated with the service in all N — 10W invoices; whether the invoice is of the business can be confirmed according to parameter information such as reimbursers, business trip places and the like, and if the parameter information is completely the same, the invoice can be regarded as the invoice of the business; similarly, the user and cell identification is the process of finding out the missing invoice.

Regarding "determining that the session code stream is incomplete", the method specifically includes: the code stream matching the user, the cell identifier and the missing message type is found in the N2 set, and if the code stream can be found, the session (association) is not complete. Taking travel expense reimbursement as an example, if no lodging expense invoice exists in an reimbursement bill submitted by viewing, the invoice is certainly lost, because the travel is impossible to be lodged, the user can find the invoice in an invoice pool, see whether the reimbursement person exists in the lodging expense invoice, see that the travel place is matched with the target bill, and if the user can find the invoice, indicate that one less reimbursement bill is attached, and determine that the conversation code stream is incomplete.

In the embodiment of the invention, the full code stream data is obtained from a simulation instrument, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data on which the DPI equipment to be tested obtains the original code stream data is also obtained from the simulation instrument; or, the full code stream data is obtained from an existing network element by a copying device, the original code stream data is obtained from a Deep Packet Inspection (DPI) device to be tested, and the full code stream data according to which the original code stream data is obtained by the DPI device to be tested is also obtained from the existing network element by the copying device.

The current network element may also be understood as a first network element, and the replication device acquires data from the current network element and forwards the data.

The information processing method provided by the embodiment of the invention is further explained below.

In view of the foregoing technical problems, an embodiment of the present invention provides an information processing method, and in particular, relates to a method and an apparatus for detecting an original code stream (data) corresponding to an XDR (a scheme relates to detection of accuracy of a full-scale field of the XDR), where the apparatus has two deployment scenarios:

(1) simulating a meter deployment scenario, as shown in fig. 2: the full code stream data corresponding to the full code stream is obtained from a simulation instrument, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data according to which the original code stream data is obtained by the DPI equipment to be tested is also obtained from the simulation instrument;

(2) the real scene of the existing network is shown in FIG. 3: the full code stream data corresponding to the code stream is obtained from an existing network element by copying equipment, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data according to which the original code stream data is obtained by the DPI equipment to be tested is also obtained from the existing network element by the copying equipment.

In order to verify the accuracy of the original code stream corresponding to the XDR, the scheme provided by the embodiment of the present invention may specifically be as follows (regarding the DPI device for deep packet inspection to be tested, the DPI device of a manufacturer to be tested is taken as an example):

(1) generating a large amount of 4G or 5G signaling through the current network real scene or simulation equipment;

(2) the generated full-amount signaling is simultaneously led into a DPI device of a factory to be detected and an XDR corresponding original code stream detection device (namely the detection device);

(3) importing an original code stream associated with DPI equipment of a factory to be detected into a detection device;

the functional devices involved in implementing the scheme provided by the embodiment of the present invention may be specifically as shown in fig. 4;

specifically, in order to verify the accuracy of the XDR corresponding to the original code stream, the functions of the modules related to the functional apparatus are as follows:

a full code stream receiving module: receiving full code stream data generated by analog equipment or current network equipment;

the code stream receiving module corresponding to the factory XDR: receiving original code streams associated by manufacturers and corresponding to full XDR;

a data synthesis module: counting and removing duplicate of the original code stream corresponding to the full XDR;

a comparison analysis module: comparing and analyzing the correlation accuracy of the code streams (see fig. 5 and 6 for details);

a report output module: and outputting a correct original code stream (received by a full code stream receiving module) corresponding to each XDR, and judging whether the conditions of missing association, repeated association and error association (reported by a manufacturer) exist.

The data source format requirements may specifically be as follows:

full amount of original code stream data: the data accords with 4G and/or 5G protocol specifications, and if the data is soft acquisition data, the data accords with a soft acquisition packet header;

the original code stream corresponding to the full XDR: the code stream contains information such as XDRID (call ticket identification), RAT (radio access technology) type, interface type, flow number and the like, and the format requirement of the code stream content (namely payload) is the same as the data of the full-quantity original code stream; for example:

in the embodiment of the present invention, after receiving the two data, the detection device may perform detection according to the following scheme:

1. the overall detection can be specifically shown in fig. 5:

(1) receiving the full code stream data and the code stream reported by the manufacturer (namely the original code stream);

(2) code stream data irrelevant to the generation of an XDR in the full code stream data is removed, and the total number of first code streams of intermediate data of the full code stream is counted to be N;

(3) adding and de-duplicating code stream data reported by manufacturers to obtain the following indexes:

receiving total code stream number M (namely the total number M of second code streams of the intermediate data of the original code streams);

receiving a first code stream number M1 which is not repeated and is contained in N;

receiving a second code stream number M2 which is not repeated but not contained in N;

comparing the full code stream data to obtain the following indexes:

receiving a third code stream number N2 which is not contained in M;

(4) determining whether M1-N and M1 (M2-0); if entering 1), if not, entering at least one of 2) to 4);

1) determining that no anomaly is found in the overall detection;

2) determining whether M1< N, if yes, determining that a session with incomplete code streams exists in the original code stream data;

3) determining whether M is greater than M1+ M2, if so, determining that a session of code stream repeated association and error association exists in the original code stream data;

4) and determining whether M2 is greater than 0, and if so, determining that a session of code stream error association exists in the original code stream data.

Wherein: a. because part of the code stream is irrelevant to the generation of XDR, such as network miscellaneous packets, code streams irrelevant to UE and the like, the code stream needs to be eliminated; b. the code stream deduplication may be achieved by a hash (hash) comparison.

2. The session level detection may be specifically as shown in fig. 6:

(1) checking code streams corresponding to each XDR one by one, and entering at least one item from 1) to 6);

1) determining whether the actual code stream number after decoding is consistent with the total number of the code streams, if not, determining that the session code stream number is incorrectly filled (namely, the session code stream number corresponding to the XDR in the original code stream data is wrongly filled);

2) determining whether the signaling process is complete, if not, decoding the code stream in the N2 set, comparing the user or cell ID, determining whether the missing code stream is found in the N2 set, and if so, determining that the session code stream is incomplete (that is, the session code stream corresponding to the XDR in the original code stream data is incomplete);

3) determining whether redundant signaling exists, if so, determining whether signaling with inconsistent user and/or cell ID exists, and if so, determining session code stream miscorrelation (namely session code stream miscorrelation corresponding to XDR in the original code stream data);

4) determining whether two XDRs correspond to the same code stream, if so, determining the session code stream miscorrelation (namely the session code stream miscorrelation corresponding to the XDR in the original code stream data);

5) determining whether a code stream in the M2 set exists, if yes, determining that the session code stream data is in error (namely, the session code stream data corresponding to the XDR in the original code stream data is in error);

6) and determining whether the code stream in the N2 set can not belong to a certain XDR, and if so, determining that the XDR missing report exists (that is, the XDR missing report exists in the original code stream data).

Wherein: set n2 and set M2: in the description of "overall detection", N2 indicates that the number of streams not contained in M is received, and then the N2 set is the set of received streams not contained in M; m2 indicates that the number of code streams which are not duplicated but not included in N is received, and the M2 set is the set of code streams which are not duplicated but not included in N.

b. As to the signaling procedure completion: taking the RRC establishment procedure as an example, as shown in fig. 7, the "signaling process is complete" indicates that there are only three types of corresponding code streams (RRC establishment request, RRC establishment response, and RRC establishment complete), and there is only one type of each type of signaling;

c. regarding redundant signaling: taking RRC establishment procedure as an example, there are more than 1 signaling.

Specifically, in the embodiment of the present invention, regarding the output report form, the following table may be referred to:

XDR ID	the XDR corresponding code stream quality
		00012f357d	Is normal
027c2f357d	Presence of leakage associations
		12012e357d	There is a miscorrelation
……	……

As can be seen from the above, the scheme provided by the embodiment of the present invention specifically relates to: detecting method and device for XDR corresponding original code stream (data correctness); and according to the full data of the original code stream, judging the correctness of the code stream corresponding to the XDR;

in addition, in the prior art, the original code stream corresponding to the XDR is used as the basis for detecting the correctness of the XDR, and the scheme detects the data source according to which the XDR is checked, so that the foundation is laid for the correct implementation of the prior art.

An embodiment of the present invention further provides an information processing apparatus, as shown in fig. 8, including:

the first obtaining module 81 is configured to obtain full code stream data and original code stream data corresponding to a full call ticket XDR;

a first determining module 82, configured to determine data condition information of the original code stream data according to the full-volume code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

The information processing device provided by the embodiment of the invention obtains the full code stream data and the original code stream data corresponding to the full call ticket XDR; determining data condition information of the original code stream data according to the full code stream data and the original code stream data; the original code stream data is obtained according to the full-volume code stream data; the method can determine the data condition (such as correct error, omission and the like) of the original code stream data, thereby avoiding the use of the original code stream data which is not in accordance with the actual signaling to check the XDR, ensuring the effectiveness of the XDR comparison scheme of the statistical index as much as possible, and well solving the problem that the original code stream data possibly causes the failure of the XDR comparison scheme of the statistical index in the prior art.

Wherein the first determining module comprises: the first processing submodule is used for deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream; the second processing submodule is used for carrying out addition and de-duplication processing on the original code stream data to obtain intermediate data of the original code stream; the third processing submodule is used for obtaining the code stream number of a preset type according to the intermediate data of the full code stream and the intermediate data of the original code stream; and the first determining submodule is used for determining the data condition information of the original code stream data according to the number of the code streams of the preset type.

Specifically, the preset type code stream number includes at least one of the following items: the total number N of the first code streams of the intermediate data of the full code streams; the total number M of second code streams of the intermediate data of the original code streams; a first number of streams M1 that are not repeated and are included in the full codestream intermediate data; a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data; a third number of codestreams N2 not included in the original codestream intermediate data.

In the embodiment of the invention, the data situation information can be determined as a whole (situation one), or can be determined from a session level (situation two);

for the first situation, the determining the data condition information of the original code stream data according to the number of the code streams of the preset type includes: if M is N1 and M2 is 0, confirming that the data of the original code stream data is normal; under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data; under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data; and when the M2 is greater than 0, confirming that a session of code stream error association exists in the original code stream data.

For the second case, the determining the data condition information of the original code stream data according to the number of the code streams of the preset type includes: for the code stream corresponding to each XDR, determining the number filling error of the session code stream corresponding to the XDR in the original code stream data under the condition that the decoded actual number of the code streams is inconsistent with the total number of the code streams; aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set; for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists; for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream; for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists; and aiming at the code stream corresponding to each XDR, determining that the XDR is not reported in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

Specifically, the determining that the session code stream corresponding to the XDR in the original code stream data is incomplete when the signaling process is incomplete and a missing code stream is detected in the N2 set includes: for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data; determining whether a missing code stream is detected in the N2 set or not according to the first data; and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

In the embodiment of the invention, the full code stream data is obtained from a simulation instrument, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data on which the DPI equipment to be tested obtains the original code stream data is also obtained from the simulation instrument; or, the full code stream data is obtained from an existing network element by a copying device, the original code stream data is obtained from a Deep Packet Inspection (DPI) device to be tested, and the full code stream data according to which the original code stream data is obtained by the DPI device to be tested is also obtained from the existing network element by the copying device.

The implementation embodiments of the information processing method are all applicable to the embodiment of the information processing device, and the same technical effects can be achieved.

An embodiment of the present invention further provides an information processing apparatus, as shown in fig. 9, including: a processor 91;

the processor 91 is configured to obtain full code stream data and original code stream data corresponding to a full call ticket XDR;

determining data condition information of the original code stream data according to the full code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

The information processing apparatus may of course also include a transceiver, not limited herein, in communication with the processor.

The information processing equipment provided by the embodiment of the invention obtains the full code stream data and the original code stream data corresponding to the full call ticket XDR; determining data condition information of the original code stream data according to the full code stream data and the original code stream data; the original code stream data is obtained according to the full-volume code stream data; the method can determine the data condition (such as correct error, omission and the like) of the original code stream data, thereby avoiding the use of the original code stream data which is not in accordance with the actual signaling to check the XDR, ensuring the effectiveness of the XDR comparison scheme of the statistical index as much as possible, and well solving the problem that the original code stream data possibly causes the failure of the XDR comparison scheme of the statistical index in the prior art.

Wherein the processor is specifically configured to: deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream; adding and removing duplicate of the original code stream data to obtain intermediate data of the original code stream; obtaining a code stream number of a preset type according to the full code stream intermediate data and the original code stream intermediate data; and determining the data condition information of the original code stream data according to the code stream number of the preset type.

Specifically, the preset type code stream number includes at least one of the following items: the total number N of the first code streams of the intermediate data of the full code streams; the total number M of second code streams of the intermediate data of the original code streams; a first number of streams M1 that are not repeated and are included in the full codestream intermediate data; a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data; a third number of codestreams N2 not included in the original codestream intermediate data.

In the embodiment of the invention, the data situation information can be determined as a whole (situation one), or can be determined from a session level (situation two);

for the first case, the processor is specifically configured to: if M is N1 and M2 is 0, confirming that the data of the original code stream data is normal; under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data; under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data; and in the case that M2>0, confirming that a session of code stream error association exists in the original code stream data.

For the second case, the processor is specifically configured to: for the code stream corresponding to each XDR, determining the number filling error of the session code stream corresponding to the XDR in the original code stream data under the condition that the decoded actual number of the code streams is inconsistent with the total number of the code streams; aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set; for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists; for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream; for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists; and aiming at the code stream corresponding to each XDR, determining that the XDR is not reported in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

Specifically, the processor is specifically configured to: for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data; determining whether a missing code stream is detected in the N2 set or not according to the first data; and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

In the embodiment of the invention, the full code stream data is obtained from a simulation instrument, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data on which the DPI equipment to be tested obtains the original code stream data is also obtained from the simulation instrument; or, the full code stream data is obtained from an existing network element by a copying device, the original code stream data is obtained from a Deep Packet Inspection (DPI) device to be tested, and the full code stream data according to which the original code stream data is obtained by the DPI device to be tested is also obtained from the existing network element by the copying device.

The implementation embodiments of the information processing method are all applicable to the embodiment of the information processing device, and the same technical effects can be achieved.

The embodiment of the invention also provides information processing equipment, which comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor; the processor implements the above-described information processing method when executing the program.

The implementation embodiments of the information processing method are all applicable to the embodiment of the information processing device, and the same technical effects can be achieved.

An embodiment of the present invention further provides a readable storage medium, on which a program is stored, and the program, when executed by a processor, implements the steps in the information processing method described above.

The implementation embodiments of the information processing method are all applicable to the embodiment of the readable storage medium, and the same technical effects can be achieved.

It should be noted that many of the functional components described in this specification are referred to as modules/sub-modules in order to more particularly emphasize their implementation independence.

In embodiments of the invention, the modules/sub-modules may be implemented in software for execution by various types of processors. An identified module of executable code may, for instance, comprise one or more physical or logical blocks of computer instructions which may, for instance, be constructed as an object, procedure, or function. Nevertheless, the executables of an identified module need not be physically located together, but may comprise disparate instructions stored in different bits which, when joined logically together, comprise the module and achieve the stated purpose for the module.

Indeed, a module of executable code may be a single instruction, or many instructions, and may even be distributed over several different code segments, among different programs, and across several memory devices. Likewise, operational data may be identified within the modules and may be embodied in any suitable form and organized within any suitable type of data structure. The operational data may be collected as a single data set, or may be distributed over different locations including over different storage devices, and may exist, at least partially, merely as electronic signals on a system or network.

When a module can be implemented by software, considering the level of existing hardware technology, a module implemented by software may build a corresponding hardware circuit to implement a corresponding function, without considering cost, and the hardware circuit may include a conventional Very Large Scale Integration (VLSI) circuit or a gate array and an existing semiconductor such as a logic chip, a transistor, or other discrete components. A module may also be implemented in programmable hardware devices such as field programmable gate arrays, programmable array logic, programmable logic devices or the like.

While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (17)

1. An information processing method characterized by comprising:

acquiring full code stream data and original code stream data corresponding to a full call bill XDR;

determining data condition information of the original code stream data according to the full code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

2. The information processing method according to claim 1, wherein the determining data condition information of the original code stream data according to the full-volume code stream data and the original code stream data includes:

deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream;

adding and removing duplicate of the original code stream data to obtain intermediate data of the original code stream;

obtaining a code stream number of a preset type according to the full code stream intermediate data and the original code stream intermediate data;

and determining the data condition information of the original code stream data according to the code stream number of the preset type.

3. The information processing method according to claim 2, wherein the preset type of codestream number includes at least one of:

the total number N of the first code streams of the intermediate data of the full code streams;

the total number M of second code streams of the intermediate data of the original code streams;

a first number of streams M1 that are not repeated and are included in the full codestream intermediate data;

a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data;

a third number of codestreams N2 not included in the original codestream intermediate data.

4. The information processing method according to claim 3, wherein the determining data condition information of the original codestream data according to the number of the preset types of codestreams includes:

if M is N1 and M2 is 0, confirming that the data of the original code stream data is normal;

under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data;

under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data;

and in the case that M2>0, confirming that a session of code stream error association exists in the original code stream data.

5. The information processing method according to claim 3, wherein the determining data condition information of the original codestream data according to the number of the preset types of codestreams includes:

for the code stream corresponding to each XDR, determining the number filling error of the session code stream corresponding to the XDR in the original code stream data under the condition that the decoded actual number of the code streams is inconsistent with the total number of the code streams;

aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream;

for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists;

and aiming at the code stream corresponding to each XDR, determining that the XDR is not reported in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

6. The information processing method according to claim 5, wherein the determining that the session code stream corresponding to the XDR in the original code stream data is incomplete when the signaling process is incomplete and a missing code stream is detected in the N2 set, includes:

for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data;

determining whether a missing code stream is detected in the N2 set according to the first data;

and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

7. The information processing method according to claim 1, wherein the full codestream data is obtained from an analog instrument, the raw codestream data is obtained from a Deep Packet Inspection (DPI) device to be tested, and the full codestream data on which the raw codestream data is obtained by the DPI device to be tested is also obtained from the analog instrument; alternatively, the first and second electrodes may be,

the full code stream data is obtained from an existing network element by copying equipment, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full code stream data based on which the DPI equipment to be tested obtains the original code stream data is also obtained from the existing network element by copying equipment.

8. An information processing apparatus characterized by comprising:

the first acquisition module is used for acquiring full code stream data and original code stream data corresponding to a full call bill XDR;

the first determining module is used for determining data condition information of the original code stream data according to the full code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

9. The information processing apparatus according to claim 8, wherein the first determination module includes:

the first processing submodule is used for deleting data irrelevant to the generation of the XDR in the full code stream data to obtain intermediate data of the full code stream;

the second processing submodule is used for carrying out addition and de-duplication processing on the original code stream data to obtain intermediate data of the original code stream;

the third processing submodule is used for obtaining the code stream number of a preset type according to the intermediate data of the full code stream and the intermediate data of the original code stream;

and the first determining submodule is used for determining the data condition information of the original code stream data according to the number of the code streams of the preset type.

10. The information processing apparatus according to claim 9, wherein the preset type code stream number includes at least one of:

the total number N of the first code streams of the intermediate data of the full code streams;

the total number M of second code streams of the intermediate data of the original code streams;

a first number of streams M1 that are not repeated and are included in the full codestream intermediate data;

a second number of streams M2 that are not repeated but are not included in the full-bitstream intermediate data;

a third number of codestreams N2 not included in the original codestream intermediate data.

11. The information processing apparatus according to claim 10, wherein the determining data condition information of the original codestream data according to the number of the preset types of codestreams includes:

if M1 is N and M2 is 0, confirming that the data of the original code stream data is normal;

under the condition that M1< N, confirming that a session with incomplete code stream exists in the original code stream data;

under the condition that M is greater than M1+ M2, confirming that a session of code stream repeated association and error association exists in the original code stream data;

and in the case that M2>0, confirming that a session of code stream error association exists in the original code stream data.

12. The information processing apparatus according to claim 10, wherein the determining data condition information of the original codestream data according to the number of the preset types of codestreams includes:

for the code stream corresponding to each XDR, determining the number filling error of the session code stream corresponding to the XDR in the original code stream data under the condition that the decoded actual number of the code streams is inconsistent with the total number of the code streams;

aiming at the code stream corresponding to each XDR, determining that the session code stream corresponding to the XDR in the original code stream data is incomplete under the condition that the signaling process is incomplete and the missing code stream is detected in the N2 set;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that redundant signaling exists and signaling with inconsistent user or cell identification exists;

for the code stream corresponding to each XDR, determining session code stream error association corresponding to the XDR in the original code stream data under the condition that two XDRs correspond to the same code stream;

for the code stream corresponding to each XDR, determining the data error of the session code stream corresponding to the XDR in the original code stream data under the condition that the code stream in the N2 set exists;

and aiming at the code stream corresponding to each XDR, determining that the XDR is not reported in the original code stream data under the condition that the code stream which does not belong to any XDR exists in the N2 set.

13. The information processing apparatus according to claim 12, wherein the determining that the session codestream corresponding to the XDR in the raw codestream data is incomplete in a case that a signaling process is incomplete and a missing codestream is detected in an N2 set, for each codestream corresponding to the XDR, comprises:

for the code stream corresponding to each XDR, under the condition that the signaling process is incomplete, decoding the code stream in the N2 set and comparing user or cell identifications to obtain first data;

determining whether a missing code stream is detected in the N2 set or not according to the first data;

and under the condition that the missing code stream is detected in the N2 set, determining that the conversation code stream corresponding to the XDR in the original code stream data is incomplete.

14. The information processing apparatus according to claim 8, wherein the full codestream data is obtained from an analog meter, the raw codestream data is obtained from a Deep Packet Inspection (DPI) device under test, and the full codestream data from which the raw codestream data is obtained by the DPI device under test is also obtained from the analog meter; alternatively, the first and second electrodes may be,

the full-volume code stream data is obtained from an existing network element by copying equipment, the original code stream data is obtained from Deep Packet Inspection (DPI) equipment to be tested, and the full-volume code stream data according to which the DPI equipment to be tested obtains the original code stream data is also obtained from the existing network element by the copying equipment.

15. An information processing apparatus characterized by comprising: a processor;

the processor is used for acquiring full code stream data and original code stream data corresponding to a full call ticket XDR;

determining data condition information of the original code stream data according to the full code stream data and the original code stream data;

and obtaining the original code stream data according to the full-volume code stream data.

16. An information processing apparatus comprising a memory, a processor, and a computer program stored on the memory and executable on the processor; characterized in that the processor implements the information processing method according to any one of claims 1 to 7 when executing the program.

17. A readable storage medium on which a program is stored, characterized in that the program realizes the steps in the information processing method according to any one of claims 1 to 7 when executed by a processor.

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