CN117278439B - Communication quick verification method based on compression algorithm - Google Patents

Abstract

The invention relates to the field of communication quick verification, in particular to a communication quick verification method based on a compression algorithm, which comprises the following steps: s1, acquiring a real-time state of a communication line to be verified; s2, synchronous verification is carried out based on a compression algorithm according to the real-time state of the communication line to be verified to obtain an initial synchronous verification result; s3, completing communication quick verification according to the initial synchronous verification result, respectively utilizing quick compression and equal ratio restoration of a lossy compression algorithm, accurately restoring an original text of a lossless compression algorithm, combining advantages of the quick compression algorithm and the equal ratio restoration, reducing occupation of a line, completing comparison verification in each port, screening failed contents to return to re-verification nearby in a sub-step restoration consistency process, and defining circulation times so as to ensure quick implementation and logic integrity of the method, collocating hardware attributes of each port with verification, and having wide application range, small line occupation rate and greatly improving output speed and accuracy of the verification result.

Description

Communication quick verification method based on compression algorithm

Technical Field

The invention relates to the field of communication quick verification, in particular to a communication quick verification method based on a compression algorithm.

Background

Common compression algorithms include lossy compression and lossless compression, wherein the lossy compression can realize better compression ratio, has a fast execution speed, but cannot restore accurate original text, and the lossless compression can accurately restore the original text, but has disadvantages in compression speed, and in the existing running communication line, under the condition that communication information is unknown and line regulation is unknown, how to occupy line resources as small as possible for communication verification becomes a problem to be solved urgently.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a communication rapid verification method based on a compression algorithm, which reduces the interference to a real-time operation line by combining a lossy and lossless compression algorithm to the rapid verification of a communication line.

In order to achieve the above object, the present invention provides a method for communication fast verification based on a compression algorithm, comprising:

s1, acquiring a real-time state of a communication line to be verified;

s2, synchronous verification is carried out based on a compression algorithm according to the real-time state of the communication line to be verified to obtain an initial synchronous verification result;

s3, completing communication quick verification according to the initial synchronous verification result.

Preferably, the acquiring the real-time state of the communication line to be verified includes:

s1-1, acquiring a transmitting port attribute and a receiving port attribute of a communication line to be verified;

s1-2, acquiring a communication interaction history record according to the attribute of a transmitting port and the attribute of a receiving port of the communication line to be verified;

s1-3, using the communication interaction history record as a real-time state tracing label;

s1-4, using the transmitting port attribute, the receiving port attribute and the real-time state tracing tag of the communication line to be verified as the real-time state of the communication line to be verified;

the communication interaction history records comprise a communication line history blocking record and a communication line history data transmission record.

Further, performing synchronous verification based on a compression algorithm according to the real-time state of the communication line to be verified to obtain an initial synchronous verification result comprises:

s2-1, carrying out synchronous verification based on a lossy compression algorithm according to the attribute of a transmitting port and the attribute of a receiving port of the communication line to be verified in the real-time state of the communication line to be verified to obtain a communication synchronous consistency verification result;

s2-2, synchronous verification is carried out on the basis of a lossless compression algorithm according to a real-time state tracing label in the real-time state of the communication line to be verified to obtain a communication restoration consistency verification result;

s2-3, using the communication synchronization consistency verification result and the communication restoration consistency verification result as initial synchronization verification results.

Further, performing synchronous verification based on a lossy compression algorithm according to the transmission port attribute and the receiving port attribute of the communication line to be verified in the real-time state of the communication line to be verified to obtain a communication synchronous consistency verification result includes:

s2-1-1, obtaining compression basic data of a transmitting end in a transmitting port by utilizing the attribute of the transmitting port based on a lossy compression algorithm;

s2-1-2, acquiring corresponding time of the compression basic data of the transmitting end as a compression time tag of the transmitting end;

s2-1-3, obtaining compression basic data of a receiving end in the receiving end based on a lossy compression algorithm by utilizing the attribute of the receiving end;

s2-1-4, acquiring corresponding time of the compression basic data of the receiving end as a compression time tag of the receiving end;

s2-1-5, synchronous transmission verification is carried out by utilizing the transmitting end compressed basic data, the transmitting end compressed time tag, the receiving end compressed basic data and the receiving end compressed time tag, and a communication synchronous consistency verification result is obtained.

Further, the step of performing synchronous transmission verification by using the transmitting end compressed basic data, the transmitting end compressed time tag, the receiving end compressed basic data and the receiving end compressed time tag to obtain a communication synchronous consistency verification result comprises the following steps:

s2-1-5-1, acquiring the current moment as a communication synchronization standard moment;

s2-1-5-2, obtaining a transmitting end communication synchronization consistency verification result in a receiving end according to the communication synchronization standard moment by utilizing the transmitting end compression basic data and the transmitting end compression time tag;

s2-1-5-3, obtaining a receiving end communication synchronization consistency verification result in a transmitting end according to the communication synchronization standard moment by utilizing the receiving end compression basic data and the receiving end compression time tag;

s2-1-5-4, using the communication synchronization consistency verification result of the sending end and the communication synchronization consistency verification result of the receiving end as the communication synchronization consistency verification result.

Further, the step of obtaining the communication synchronization consistency verification result of the transmitting end in the receiving end according to the communication synchronization standard moment by utilizing the transmitting end compression basic data and the transmitting end compression time tag comprises the following steps:

s2-1-5-2-1, decompressing the compressed basic data of the transmitting end in the receiving end to obtain first decompressed data;

s2-1-5-2-2, judging whether the first decompressed data has a corresponding communication interaction history record in a receiving end, if so, acquiring the similarity between the first decompressed data and the corresponding communication interaction history record as a first similarity, otherwise, discarding the processing;

s2-1-5-2-3, and using the first similarity and the transmitting terminal compression time tag as a transmitting terminal communication synchronization consistency verification result.

Further, the step of obtaining the communication synchronization consistency verification result of the receiving end in the transmitting end according to the communication synchronization standard moment by utilizing the compression basic data of the receiving end and the compression time tag of the receiving end comprises the following steps:

s2-1-5-3-1, decompressing the compressed basic data of the receiving end in the transmitting end to obtain second decompressed data;

s2-1-5-3-2, judging whether the second decompressed data has a corresponding communication interaction history record in a transmitting end, if so, acquiring the similarity between the second decompressed data and the corresponding communication interaction history record as second similarity, otherwise, executing S2-1-5-3-3;

s2-1-5-3-3, judging whether the standard time is later than the compression time label of the receiving end, if so, using the second similarity and the compression time label of the receiving end as a communication synchronization consistency verification result of the receiving end, otherwise, returning to S2-1-5-1.

Further, performing synchronous verification based on a lossless compression algorithm according to a real-time state tracing tag in the real-time state of the communication line to be verified to obtain a communication restoration consistency verification result comprises the following steps:

s2-2-1, respectively carrying out compression processing in a transmitting end and a receiving end based on a lossless compression algorithm by utilizing the real-time state tracing label in the real-time state of the communication line to be verified to obtain a transmitting end compression tracing label and a receiving end compression tracing label;

s2-2-2, after the transmitting terminal compression traceability tag is transmitted to the receiving terminal, decompression processing is carried out to obtain the transmitting terminal decompression traceability tag, whether the transmitting terminal decompression traceability tag has a completely corresponding communication interaction history record in the receiving terminal or not is judged, if yes, S2-2-3 is executed, and otherwise, S1-3 is returned;

s2-2-3, after the receiving end compression traceability tag is sent to the sending end, decompression processing is carried out to obtain the receiving end decompression traceability tag, whether the receiving end decompression traceability tag has a completely corresponding communication interaction history record in the sending end or not is judged, if yes, the communication restoration consistency verification result is pending, and otherwise, S1-3 is returned;

s2-2-4, judging whether the communication restoration consistency verification result is the number of the to-be-determined corresponding cycles which is not more than 2, if so, judging that the communication restoration consistency verification result is passed, and if not, judging that the communication restoration consistency verification result is not passed.

Further, completing the communication quick verification according to the initial synchronization verification result includes:

s3-1, judging whether the first similarity and the second similarity in the initial synchronous verification result are the same, if so, executing S3-2, otherwise, giving up the processing;

s3-2, judging whether the corresponding time of the compression traceability tag of the transmitting end in the transmitting end is the same as the corresponding time of the compression traceability tag of the receiving end in the receiving end, if so, executing S3-3, otherwise, returning to S2-2-1;

s3-3, judging whether the communication restoration consistency verification result is passing or not, if so, judging that the communication line to be verified passes, otherwise, judging that the communication line to be verified does not pass.

Compared with the closest prior art, the invention has the following beneficial effects:

the method has the advantages that the rapid compression and the equal ratio recovery of the lossy compression algorithm are respectively utilized, the advantages of the lossy compression algorithm and the original text of the lossless compression algorithm are accurately restored, the occupation of a line is reduced, the comparison verification is completed in each port, meanwhile, according to the principle of the recent iteration of the verification method, the failed content is screened to return to the re-verification nearby in the process of restoring consistency of sub-steps, the circulation times are regulated, the rapid implementation and the logic integrity of the method are ensured, the hardware attribute of each port is matched with the verification, the application range is wide, the line occupation rate is small, and the output speed and the accuracy of the verification result are improved to a great extent.

Drawings

Fig. 1 is a flowchart of a communication quick verification method based on a compression algorithm.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the drawings.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: the invention provides a communication quick verification method based on a compression algorithm, which is shown in fig. 1 and comprises the following steps:

s1, acquiring a real-time state of a communication line to be verified;

s2, synchronous verification is carried out based on a compression algorithm according to the real-time state of the communication line to be verified to obtain an initial synchronous verification result;

s3, completing communication quick verification according to the initial synchronous verification result.

S1 specifically comprises:

s1-1, acquiring a transmitting port attribute and a receiving port attribute of a communication line to be verified;

s1-2, acquiring a communication interaction history record according to the attribute of a transmitting port and the attribute of a receiving port of the communication line to be verified;

s1-3, using the communication interaction history record as a real-time state tracing label;

s1-4, using the transmitting port attribute, the receiving port attribute and the real-time state tracing tag of the communication line to be verified as the real-time state of the communication line to be verified;

the communication interaction history records comprise a communication line history blocking record and a communication line history data transmission record.

In this embodiment, according to the communication interaction history record, the history congestion record, the history transmission record, or the history transmission data attribute of the same communication line may be used as a real-time state tracing label according to the actual situation, where the tracing label is defined as a complete operation record corresponding to each other in each hardware port corresponding to the same line.

S2 specifically comprises:

s2-1, carrying out synchronous verification based on a lossy compression algorithm according to the attribute of a transmitting port and the attribute of a receiving port of the communication line to be verified in the real-time state of the communication line to be verified to obtain a communication synchronous consistency verification result;

s2-2, synchronous verification is carried out on the basis of a lossless compression algorithm according to a real-time state tracing label in the real-time state of the communication line to be verified to obtain a communication restoration consistency verification result;

s2-3, using the communication synchronization consistency verification result and the communication restoration consistency verification result as initial synchronization verification results.

S2-1 specifically comprises:

s2-1-1, obtaining compression basic data of a transmitting end in a transmitting port by utilizing the attribute of the transmitting port based on a lossy compression algorithm;

s2-1-2, acquiring corresponding time of the compression basic data of the transmitting end as a compression time tag of the transmitting end;

s2-1-3, obtaining compression basic data of a receiving end in the receiving end based on a lossy compression algorithm by utilizing the attribute of the receiving end;

s2-1-4, acquiring corresponding time of the compression basic data of the receiving end as a compression time tag of the receiving end;

s2-1-5, synchronous transmission verification is carried out by utilizing the transmitting end compressed basic data, the transmitting end compressed time tag, the receiving end compressed basic data and the receiving end compressed time tag, and a communication synchronous consistency verification result is obtained.

S2-1-5 specifically comprises:

s2-1-5-1, acquiring the current moment as a communication synchronization standard moment;

s2-1-5-2, obtaining a transmitting end communication synchronization consistency verification result in a receiving end according to the communication synchronization standard moment by utilizing the transmitting end compression basic data and the transmitting end compression time tag;

s2-1-5-3, obtaining a receiving end communication synchronization consistency verification result in a transmitting end according to the communication synchronization standard moment by utilizing the receiving end compression basic data and the receiving end compression time tag;

s2-1-5-4, using the communication synchronization consistency verification result of the sending end and the communication synchronization consistency verification result of the receiving end as the communication synchronization consistency verification result.

S2-1-5-2 specifically comprises:

s2-1-5-2-1, decompressing the compressed basic data of the transmitting end in the receiving end to obtain first decompressed data;

s2-1-5-2-2, judging whether the first decompressed data has a corresponding communication interaction history record in a receiving end, if so, acquiring the similarity between the first decompressed data and the corresponding communication interaction history record as a first similarity, otherwise, discarding the processing;

s2-1-5-2-3, and using the first similarity and the transmitting terminal compression time tag as a transmitting terminal communication synchronization consistency verification result.

S2-1-5-3 specifically comprises:

s2-1-5-3-1, decompressing the compressed basic data of the receiving end in the transmitting end to obtain second decompressed data;

s2-1-5-3-2, judging whether the second decompressed data has a corresponding communication interaction history record in a transmitting end, if so, acquiring the similarity between the second decompressed data and the corresponding communication interaction history record as second similarity, otherwise, executing S2-1-5-3-3;

s2-1-5-3-3, judging whether the standard time is later than the compression time label of the receiving end, if so, using the second similarity and the compression time label of the receiving end as a communication synchronization consistency verification result of the receiving end, otherwise, returning to S2-1-5-1.

S2-2 specifically comprises:

s2-2-1, respectively carrying out compression processing in a transmitting end and a receiving end based on a lossless compression algorithm by utilizing the real-time state tracing label in the real-time state of the communication line to be verified to obtain a transmitting end compression tracing label and a receiving end compression tracing label;

s2-2-2, after the transmitting terminal compression traceability tag is transmitted to the receiving terminal, decompression processing is carried out to obtain the transmitting terminal decompression traceability tag, whether the transmitting terminal decompression traceability tag has a completely corresponding communication interaction history record in the receiving terminal or not is judged, if yes, S2-2-3 is executed, and otherwise, S1-3 is returned;

s2-2-3, after the receiving end compression traceability tag is sent to the sending end, decompression processing is carried out to obtain the receiving end decompression traceability tag, whether the receiving end decompression traceability tag has a completely corresponding communication interaction history record in the sending end or not is judged, if yes, the communication restoration consistency verification result is pending, and otherwise, S1-3 is returned;

s2-2-4, judging whether the communication restoration consistency verification result is the number of the to-be-determined corresponding cycles which is not more than 2, if so, judging that the communication restoration consistency verification result is passed, and if not, judging that the communication restoration consistency verification result is not passed.

In this embodiment, in a communication quick verification method based on a compression algorithm, S2-2-1 to S2-2-4 are the execution key points of the scheme, and the recovery consistency result is obtained more accurately by multiple loop iteration and judgment according to the number of loop times.

S3 specifically comprises:

s3-1, judging whether the first similarity and the second similarity in the initial synchronous verification result are the same, if so, executing S3-2, otherwise, giving up the processing;

s3-2, judging whether the corresponding time of the compression traceability tag of the transmitting end in the transmitting end is the same as the corresponding time of the compression traceability tag of the receiving end in the receiving end, if so, executing S3-3, otherwise, returning to S2-2-1;

s3-3, judging whether the communication restoration consistency verification result is passing or not, if so, judging that the communication line to be verified passes, otherwise, judging that the communication line to be verified does not pass.

Finally, it should be noted that: the above embodiments are only for illustrating the technical aspects of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the above embodiments, it should be understood by those of ordinary skill in the art that: modifications and equivalents may be made to the specific embodiments of the invention without departing from the spirit and scope of the invention, which is intended to be covered by the claims.

Claims (7)

1. A method for communication fast verification based on a compression algorithm, comprising:

s1, acquiring a real-time state of a communication line to be verified;

s1-1, acquiring a transmitting port attribute and a receiving port attribute of a communication line to be verified;

s1-2, acquiring a communication interaction history record according to the attribute of a transmitting port and the attribute of a receiving port of the communication line to be verified;

s1-3, using the communication interaction history record as a real-time state tracing label;

s1-4, using the transmitting port attribute, the receiving port attribute and the real-time state tracing tag of the communication line to be verified as the real-time state of the communication line to be verified;

the communication interaction history records comprise a communication line history blocking record and a communication line history data transmission record;

s2, synchronous verification is carried out based on a compression algorithm according to the real-time state of the communication line to be verified to obtain an initial synchronous verification result;

s2-1, carrying out synchronous verification based on a lossy compression algorithm according to the attribute of a transmitting port and the attribute of a receiving port of the communication line to be verified in the real-time state of the communication line to be verified to obtain a communication synchronous consistency verification result;

s2-2, synchronous verification is carried out on the basis of a lossless compression algorithm according to a real-time state tracing label in the real-time state of the communication line to be verified to obtain a communication restoration consistency verification result;

s2-3, using the communication synchronization consistency verification result and the communication restoration consistency verification result as initial synchronization verification results;

s3, completing communication quick verification according to the initial synchronous verification result.

2. The method for rapidly verifying communication based on a compression algorithm according to claim 1, wherein the step of synchronously verifying the transmission port attribute and the reception port attribute of the communication line to be verified in the real-time state of the communication line to be verified based on the lossy compression algorithm to obtain the communication synchronization consistency verification result comprises the steps of:

s2-1-1, obtaining compression basic data of a transmitting end in a transmitting port by utilizing the attribute of the transmitting port based on a lossy compression algorithm;

s2-1-2, acquiring corresponding time of the compression basic data of the transmitting end as a compression time tag of the transmitting end;

s2-1-3, obtaining compression basic data of a receiving end in the receiving end based on a lossy compression algorithm by utilizing the attribute of the receiving end;

s2-1-4, acquiring corresponding time of the compression basic data of the receiving end as a compression time tag of the receiving end;

s2-1-5, synchronous transmission verification is carried out by utilizing the transmitting end compressed basic data, the transmitting end compressed time tag, the receiving end compressed basic data and the receiving end compressed time tag, and a communication synchronous consistency verification result is obtained.

3. The method for quickly verifying communication based on a compression algorithm as claimed in claim 2, wherein the step of obtaining a communication synchronization consistency verification result by using the transmission end compression basic data, the transmission end compression time tag, the receiving end compression basic data and the receiving end compression time tag for synchronous transmission verification comprises the steps of:

s2-1-5-1, acquiring the current moment as a communication synchronization standard moment;

s2-1-5-2, obtaining a transmitting end communication synchronization consistency verification result in a receiving end according to the communication synchronization standard moment by utilizing the transmitting end compression basic data and the transmitting end compression time tag;

s2-1-5-3, obtaining a receiving end communication synchronization consistency verification result in a transmitting end according to the communication synchronization standard moment by utilizing the receiving end compression basic data and the receiving end compression time tag;

s2-1-5-4, using the communication synchronization consistency verification result of the sending end and the communication synchronization consistency verification result of the receiving end as the communication synchronization consistency verification result.

4. The method for quickly verifying communication based on a compression algorithm as claimed in claim 3, wherein the step of obtaining the verification result of the communication synchronization consistency of the transmitting end in the receiving end by using the compression basic data of the transmitting end and the compression time tag of the transmitting end according to the communication synchronization standard time comprises the steps of:

s2-1-5-2-1, decompressing the compressed basic data of the transmitting end in the receiving end to obtain first decompressed data;

s2-1-5-2-2, judging whether the first decompressed data has a corresponding communication interaction history record in a receiving end, if so, acquiring the similarity between the first decompressed data and the corresponding communication interaction history record as a first similarity, otherwise, discarding the processing;

s2-1-5-2-3, and using the first similarity and the transmitting terminal compression time tag as a transmitting terminal communication synchronization consistency verification result.

5. The method for quickly verifying communication based on a compression algorithm as claimed in claim 3, wherein the step of obtaining the communication synchronization consistency verification result of the receiving end in the transmitting end according to the communication synchronization standard moment by using the compression basic data of the receiving end and the compression time tag of the receiving end comprises the following steps:

s2-1-5-3-1, decompressing the compressed basic data of the receiving end in the transmitting end to obtain second decompressed data;

s2-1-5-3-2, judging whether the second decompressed data has a corresponding communication interaction history record in a transmitting end, if so, acquiring the similarity between the second decompressed data and the corresponding communication interaction history record as second similarity, otherwise, executing S2-1-5-3-3;

s2-1-5-3-3, judging whether the standard time is later than the compression time label of the receiving end, if so, using the second similarity and the compression time label of the receiving end as a communication synchronization consistency verification result of the receiving end, otherwise, returning to S2-1-5-1.

6. The method for quickly verifying communication based on a compression algorithm according to claim 1, wherein the step of performing synchronous verification based on a lossless compression algorithm according to a real-time state traceability tag in the real-time state of the communication line to be verified to obtain a communication restoration consistency verification result comprises the steps of:

s2-2-1, respectively carrying out compression processing in a transmitting end and a receiving end based on a lossless compression algorithm by utilizing the real-time state tracing label in the real-time state of the communication line to be verified to obtain a transmitting end compression tracing label and a receiving end compression tracing label;

s2-2-2, after the transmitting terminal compression traceability tag is transmitted to the receiving terminal, decompression processing is carried out to obtain the transmitting terminal decompression traceability tag, whether the transmitting terminal decompression traceability tag has a completely corresponding communication interaction history record in the receiving terminal or not is judged, if yes, S2-2-3 is executed, and otherwise, S1-3 is returned;

s2-2-3, after the receiving end compression traceability tag is sent to the sending end, decompression processing is carried out to obtain the receiving end decompression traceability tag, whether the receiving end decompression traceability tag has a completely corresponding communication interaction history record in the sending end or not is judged, if yes, the communication restoration consistency verification result is pending, and otherwise, S1-3 is returned;

s2-2-4, judging whether the communication restoration consistency verification result is the number of the to-be-determined corresponding cycles which is not more than 2, if so, judging that the communication restoration consistency verification result is passed, and if not, judging that the communication restoration consistency verification result is not passed.

7. The method for rapid communication verification based on a compression algorithm according to claim 6, wherein completing the rapid communication verification according to the initial synchronization verification result comprises:

s3-1, judging whether the first similarity and the second similarity in the initial synchronous verification result are the same, if so, executing S3-2, otherwise, giving up the processing;

s3-2, judging whether the corresponding time of the compression traceability tag of the transmitting end in the transmitting end is the same as the corresponding time of the compression traceability tag of the receiving end in the receiving end, if so, executing S3-3, otherwise, returning to S2-2-1;

s3-3, judging whether the communication restoration consistency verification result is passing or not, if so, judging that the communication line to be verified passes, otherwise, judging that the communication line to be verified does not pass.