CN112104596B - Data access method and system for aggregating multiple Internet of vehicles communication protocols - Google Patents

Abstract

A data access method for aggregating multiple Internet of vehicles communication protocols comprises the following steps: the vehicle-mounted terminal judges whether a data packet sent by the access program is a first packet or not; when the data packet is a first packet, the data packet is sent to a protocol adapter, the protocol adapter determines the type of the current Internet of vehicles communication protocol according to a preset rule, and a decoder corresponding to the current Internet of vehicles communication type is loaded; when the data packet is not the first packet, sending the data packet to a decoder determined by the first packet for analysis; an escape decoder performs escape on the numerical values in the data packets; the protocol decoder analyzes the transferred data packet to obtain an attribute value of the message packet; the message router sends the message body to the service processor; and the service processor analyzes the message body and stores the message body according to the service requirement. The invention solves the problems that each protocol develops a set of access program and is respectively deployed on different IP and ports, the expandability of service is extremely poor, and the maintenance is troublesome in the prior art.

Description

Data access method and system for aggregating multiple Internet of vehicles communication protocols

Technical Field

The invention belongs to the technical field of vehicle networking communication, and particularly relates to a data access method and a data access system for aggregating multiple vehicle networking communication protocols.

Background

With the rapid development of the internet of vehicles industry, the types of the vehicle-mounted terminals loaded on the vehicles are increasing, and the data communication protocols between the vehicle-mounted terminals and the access services are different according to different manufacturers, different delivery times, and different places and cities, for example, the common internet of vehicles JTT808 protocol, JTT809 protocol, GBT32960 protocol, and other protocols used by some engineering vehicles, environmental protection vehicles, muck vehicles, and the like, even including the protocols newly added later, and the vehicle-mounted terminals with one or more protocols are often required to be accessed simultaneously when data is accessed.

In a traditional scheme, a set of access program is generally developed for each protocol and is respectively deployed to different IP and ports; therefore, the access program can deploy more and more services along with different access terminal protocol types, each service has extremely poor expandability and only supports the access of the vehicle-mounted terminal of one protocol; in the face of a plurality of different types of access services, the complexity of service management is increased, and the maintenance is laborious.

Disclosure of Invention

In view of the above, the present invention provides a data access method and system that aggregates multiple internet of vehicles communication protocols that overcomes or at least partially solves the above-mentioned problems.

A data access method for aggregating multiple Internet of vehicles communication protocols comprises the following steps:

s100, judging whether a data packet sent by an access program is a first packet or not by the vehicle-mounted terminal;

s200, when the data packet is a first packet, the data packet is sent to a protocol adapter, the protocol adapter determines the type of the current Internet of vehicles communication protocol according to a preset rule, and a decoder corresponding to the current Internet of vehicles communication type is loaded; when the data packet is not the first packet, sending the data packet to a decoder determined by the first packet for analysis;

s300, the decoder determined by the first packet comprises an escape decoder and a protocol decoder, the escape decoder performs escape on numerical values in the data packet and sends the escaped data packet to the protocol decoder;

s400, a protocol decoder analyzes the data packet after the meaning, analyzes the attribute value of the message packet, and sends the attribute value of the message packet to a message router, wherein the attribute value of the message packet at least comprises a service message ID and a message body;

s500, the message router acquires a service message ID required to be processed by the service processor in advance, matches the corresponding service processor according to the service message ID in the message packet attribute value, and sends a message body to the service processor;

and S600, the service processor analyzes the message body and stores the message body according to the service requirement.

Further, in S200, the protocol adapter determines the type of the communication protocol of the internet of vehicles according to the first packet start flag and the end flag of the data packet.

Further, the internet of vehicles communication protocol types include at least: JT/T808-2011 protocol, JT/T809-2011 protocol, and GB/T32960 protocol.

Further, when the first packet start flag bit of the packet is 0x7e and the end flag bit is 0x7e, the type of the internet of vehicles communication protocol matched by the protocol adapter is JT/T808-2011 protocol.

Further, when the first packet start flag of the packet is 0x5b and the end flag is 0x5d, the type of the internet protocol communication protocol matched by the protocol adapter is JT/T809-2011 protocol.

Further, when the first packet start identification bit of the data packet is 0x230x23, the type of the internet of vehicles communication protocol matched with the protocol adapter is a GB/T32960 protocol.

Further, the message packet attribute values further include: protocol type, message header unique value, message serial number, protocol extra attributes.

Further, in S600, the service processor parses the message body, and forwards the parsed data according to the service requirement.

The invention also discloses a data access system for aggregating various Internet of vehicles communication protocols, which comprises: the system comprises a data packet judgment module, a protocol adapter module, a decoder module, a message router module and a service processor module; wherein:

the data packet judging module is used for judging whether a data packet sent by the access program is a first packet or not, sending the data packet to the protocol adapter module when the data packet is the first packet, determining the type of the current Internet of vehicles communication protocol according to a preset rule, and loading a decoder corresponding to the current Internet of vehicles communication type; when the data packet is not the first packet, sending the data packet to a decoder determined by the first packet for analysis;

the protocol adapter module is used for determining the type of the Internet of vehicles protocol according to the first packet of the data packet and loading a decoder corresponding to the current Internet of vehicles communication type;

the decoder module comprises an escape decoder and a protocol decoder, wherein the escape decoder is used for escaping numerical values in the data packet and sending the escaped data packet to the protocol decoder; the protocol decoder analyzes the data packet after the escape, analyzes the attribute value of the message packet, and sends the attribute value of the message packet to the message router, wherein the attribute value of the message packet at least comprises a service message ID and a message body;

the message router module is used for acquiring a service message ID required to be processed by the service processor in advance, matching the corresponding service processor according to the service message ID in the message packet attribute value and sending a message body to the service processor;

and the service processor module analyzes the message body and stores or forwards the analyzed data according to the service requirement.

Further, the protocol adapter module determines the type of the internet of vehicles communication protocol according to the start identification bit and the end identification bit of the data packet.

The invention has the beneficial effects that:

the invention simultaneously accesses the data of a plurality of protocols through one service, meets the requirement of accessing various vehicle-mounted terminals of different protocols under one project, solves the problems that each protocol develops a set of access program and is respectively deployed on different IP and ports, the expandability of each service is extremely poor, and the maintenance is troublesome, saves server resources and reduces the operation and maintenance cost.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of a data access method for aggregating multiple communication protocols in the internet of vehicles in embodiment 1 of the present invention;

fig. 2 is a diagram of a data access system aggregating a plurality of communication protocols in the car networking system in embodiment 2 of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Example 1

The embodiment discloses a data access method for aggregating multiple Internet of vehicles communication protocols, which comprises the following steps:

s100, the vehicle-mounted terminal judges whether a data packet sent by the access program is a first packet or not; it can be understood that, when the vehicle-mounted terminal receives the data packet sent by the program for the first time, the data packet that starts to be received is the first data packet, and the data packets after the first data packet are other data packets.

S200, when the data packet is a first packet, the data packet is sent to a protocol adapter, the protocol adapter determines the type of the current Internet of vehicles communication protocol according to a preset rule, and a decoder corresponding to the current Internet of vehicles communication type is loaded; and when the data packet is not the first packet, sending the data packet to a decoder determined by the first packet for parsing.

Specifically, when the data packet is a first packet, the protocol adapter determines the type of the current internet of vehicles communication protocol according to a preset rule, and the preset rule is that the type of the internet of vehicles communication protocol is determined according to a start identification position and an end identification position of the first packet of the data packet.

In some preferred embodiments, the Internet of vehicle communication protocol types include at least: JT/T808-2011 protocol, JT/T809-2011 protocol, and GB/T32960 protocol. JT/T808-2011 represents a terminal communication protocol and a data format of a road transport vehicle satellite positioning system, JT/T809-2011 represents data exchange of a road transport vehicle satellite positioning system platform, and GB/T32960 represents technical specifications of an electric vehicle remote service and management system.

In some preferred embodiments, when the first packet start flag of the packet is 0x7e and the end flag is 0x7e, the type of internet protocol matched by the protocol adapter is JT/T808-2011 protocol. When the first packet start identification bit of the data packet is 0x5b and the end identification bit is 0x5d, the type of the internet of vehicles communication protocol matched with the protocol adapter is JT/T809-2011 protocol. When the first packet start identification bit of the data packet is 0x230x23, the type of the internet of vehicles communication protocol matched with the protocol adapter is GB/T32960 protocol.

S300, the decoder determined by the first packet comprises an escape decoder and a protocol decoder, the escape decoder performs escape on the numerical value in the data packet and sends the escaped data packet to the protocol decoder.

Specifically, in some preferred embodiments, when the current internet protocol is JT/T808-2011, 0x7d0x02 is transferred to 0x7e, and 0x7d0x01 is transferred to 0x7d; when the current Internet of vehicles protocol is JT/T809-2011, 0x5a0x01 is transferred to 0x5b, 0x5a0x02 is transferred to 0x5a, 0x5e0x01 is transferred to 0x5d, and 0x5e0x02 is transferred to 0x5e. And after the escape, carrying out data verification on the whole packet according to the corresponding protocol to prevent the data from being tampered or the packet from being incomplete, and entering a protocol decoder if the verification is passed.

S400, the protocol decoder analyzes the transferred data packet to obtain a message packet attribute value, and sends the message packet attribute value to a message router, wherein the message packet attribute value at least comprises a service message ID and a message body.

In some preferred embodiments, the message packet attribute values decoded by the protocol decoder further include: protocol type, message header unique value, message serial number, protocol extra attributes.

S500, the message router acquires the service message ID needed to be processed by the service processor in advance, matches the corresponding service processor according to the service message ID in the message packet attribute value, and sends the message body to the service processor.

For example, the message router acquires in advance that the service message ID required to be processed by the service processor a is 1, and when the message router acquires that the service message ID in the attribute value of the data packet is 1, sends the data packet message body with the attribute value ID of 1 to the service processor a, thereby achieving the purpose of matching the service processor with the service message ID and the message body.

And S600, the service processor analyzes the message body and stores the message body according to the service requirement. In some preferred embodiments, the service processor parses the message body, and may also forward the parsed data according to the service requirements.

The data access method for aggregating multiple Internet of vehicles communication protocols disclosed by the embodiment simultaneously accesses data of multiple protocols through one service, meets the requirement of accessing various vehicle-mounted terminals with different protocols under one project, solves the problems that each protocol in the prior art develops one set of access program and is respectively deployed on different IP and ports, the expandability of each service is extremely poor, the maintenance is troublesome, the server resources are saved, and the operation and maintenance cost is reduced.

Example 2

The embodiment discloses a data access system for aggregating multiple internet of vehicles communication protocols, which comprises: the system comprises a data packet judgment module 1, a protocol adapter module 2, a decoder module 3, a message router module 4 and a service processor module 5; wherein:

the data packet judgment module 1 is used for judging whether a data packet sent by an access program is a first packet or not, sending the data packet to the protocol adapter module 2 when the data packet is the first packet, determining the type of the current Internet of vehicles communication protocol according to a preset rule, and loading a decoder corresponding to the current Internet of vehicles communication type; when the data packet is not the first packet, the data packet is sent to the decoder module 3 determined by the first packet for parsing.

And the protocol adapter module 2 is used for determining the type of the Internet of vehicles protocol according to the first packet of the data packet and loading a decoder corresponding to the current Internet of vehicles communication type.

Specifically, the protocol adapter module 2 determines the rule of the type of the car networking protocol according to the first packet of the data packet as follows: and determining the type of the Internet of vehicles communication protocol according to the first packet start identification bit and the end identification bit of the data packet.

In some preferred embodiments, the Internet of vehicle communication protocol types include at least: JT/T808-2011 protocol, JT/T809-2011 protocol, and GB/T32960 protocol. JT/T808-2011 represents a terminal communication protocol and a data format of a road transport vehicle satellite positioning system, JT/T809-2011 represents data exchange of a road transport vehicle satellite positioning system platform, and GB/T32960 represents technical specifications of an electric automobile remote service and management system.

In some preferred embodiments, when the first packet start flag bit of the packet is 0x7e and the end flag bit is 0x7e, the type of the internet protocol communication protocol matched by the protocol adapter is JT/T808-2011 protocol. When the first packet start identification bit of the data packet is 0x5b and the end identification bit is 0x5d, the type of the internet of vehicles communication protocol matched with the protocol adapter is JT/T809-2011 protocol. When the first packet start identification bit of the data packet is 0x230x23, the type of the internet of vehicles communication protocol matched with the protocol adapter is GB/T32960 protocol.

The decoder module 3 comprises an escape decoder and a protocol decoder, wherein the escape decoder performs escape on the numerical value in the data packet and sends the escape data packet to the protocol decoder; and the protocol decoder analyzes the data packet after the escape, analyzes an attribute value of the message packet, and sends the attribute value of the message packet to the message router, wherein the attribute value of the message packet at least comprises a service message ID and a message body.

In some preferred embodiments, when the current Internet of vehicles protocol is JT/T808-2011, 0x7d0x02 is transferred to 0x7e, and 0x7d0x01 is transferred to 0x7d; when the current Internet of vehicles protocol is JT/T809-2011, 0x5a0x01 is transferred to 0x5b, 0x5a0x02 is transferred to 0x5a, 0x5e0x01 is transferred to 0x5d, and 0x5e0x02 is transferred to 0x5e. And after the escape, carrying out data verification on the whole packet according to the corresponding protocol to prevent the data from being tampered or the packet from being incomplete, and entering a protocol decoder module if the verification is passed.

In some preferred embodiments, the message packet attribute value decoded by the protocol decoder further comprises: protocol type, message header unique value, message serial number, protocol extra attributes.

The message router module 4 is used for acquiring a service message ID required to be processed by the service processor in advance, matching the corresponding service processor according to the service message ID in the message packet attribute value, and sending a message body to the service processor 5; the specific matching method of the message router module 4 has been described in embodiment 1 by way of example, and is not described herein again.

And the service processor module 5 is used for analyzing the message body and storing or forwarding the analyzed data according to the service requirement.

The data access system for aggregating multiple internet of vehicles communication protocols disclosed by the embodiment simultaneously accesses data of multiple protocols through one service, meets the requirement of accessing various vehicle-mounted terminals with different protocols under one project, solves the problems that in the prior art, each protocol develops one set of access program and is respectively deployed on different IP and ports, the expandability of each service is extremely poor, the maintenance is troublesome, the server resources are saved, and the operation and maintenance cost is reduced.

It should be understood that the specific order or hierarchy of steps in the processes disclosed is an example of exemplary approaches. Based upon design preferences, it is understood that the specific order or hierarchy of steps in the processes may be rearranged without departing from the scope of the present disclosure. The accompanying method claims present elements of the various steps in a sample order, and are not intended to be limited to the specific order or hierarchy presented.

Those of skill would further appreciate that the various illustrative logical blocks, modules, circuits, and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both. To clearly illustrate this interchangeability of hardware and software, various illustrative components, blocks, modules, circuits, and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the overall system. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present disclosure.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an ASIC. The ASIC may reside in a user terminal. Of course, the processor and the storage medium may reside as discrete components in a user terminal.

For a software implementation, the techniques described herein may be implemented with modules (e.g., procedures, functions, and so on) that perform the functions described herein. The software codes may be stored in memory units and executed by processors. The memory unit may be implemented within the processor or external to the processor, in which case it can be communicatively coupled to the processor via various means as is known in the art.

What has been described above includes examples of one or more embodiments. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the aforementioned embodiments, but one of ordinary skill in the art may recognize that many further combinations and permutations of various embodiments are possible. Accordingly, the embodiments described herein are intended to embrace all such alterations, modifications and variations that fall within the scope of the appended claims. Furthermore, to the extent that the term "includes" is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term "comprising" as "comprising" is interpreted when employed as a transitional word in a claim. Furthermore, any use of the term "or" in the specification of the claims is intended to mean a "non-exclusive or".

Claims (4)

1. A data access method for aggregating multiple Internet of vehicles communication protocols is characterized by comprising the following steps:

s100, the vehicle-mounted terminal judges whether a data packet sent by the access program is a first packet or not;

s200, when the data packet is a first packet, the data packet is sent to a protocol adapter, the protocol adapter determines the type of the current Internet of vehicles communication protocol according to a preset rule, and a decoder corresponding to the current Internet of vehicles communication type is loaded; when the data packet is not the first packet, sending the data packet to a decoder determined by the first packet for analysis; in S200, the protocol adapter determines the type of the current Internet of vehicles communication protocol according to a preset rule, wherein the preset rule is as follows: determining the type of the Internet of vehicles communication protocol according to the first packet start identification bit and the end identification bit of the data packet; the types of internet of vehicles communication protocols include at least: JT/T808-2011 protocol, JT/T809-2011 protocol and GB/T32960 protocol; when the first packet start identification bit of the data packet is 0x7e and the end identification bit is 0x7e, the type of the internet of vehicles communication protocol matched with the protocol adapter is JT/T808-2011 protocol; when the first packet start identification bit of the data packet is 0x5b and the end identification bit is 0x5d, the type of the internet of vehicles communication protocol matched with the protocol adapter is JT/T809-2011 protocol; when the first packet start identification bit of the data packet is 0x230x23, the type of the internet of vehicles communication protocol matched with the protocol adapter is a GB/T32960 protocol;

s300, the decoder determined by the first packet comprises an escape decoder and a protocol decoder, the escape decoder performs escape on numerical values in the data packet and sends the escape data packet to the protocol decoder;

s400, a protocol decoder analyzes the data packet after the meaning, analyzes the attribute value of the message packet, and sends the attribute value of the message packet to a message router, wherein the attribute value of the message packet at least comprises a service message ID and a message body;

s500, the message router acquires a service message ID required to be processed by the service processor in advance, matches the corresponding service processor according to the service message ID in the message packet attribute value, and sends a message body to the service processor;

and S600, the service processor analyzes the message body and stores the message body according to the service requirement.

2. The data access method for aggregating multiple internet of vehicles communication protocols as recited in claim 1, wherein the message packet attribute values further comprise: protocol type, message header unique value, message serial number, protocol extra attributes.

3. The data access method for aggregating multiple internet of vehicles according to claim 1, wherein in S600, the service processor parses the message body and forwards the parsed data according to the service requirement.

4. A data access system that aggregates multiple internet of vehicles communication protocols, comprising: the system comprises a data packet judgment module, a protocol adapter module, a decoder module, a message router module and a service processor module; wherein:

the data packet judgment module is used for judging whether a data packet sent by the access program is a first packet or not, sending the data packet to the protocol adapter module when the data packet is the first packet, determining the current Internet of vehicles communication protocol type according to a preset rule, and loading a decoder corresponding to the current Internet of vehicles communication type; when the data packet is not the first packet, sending the data packet to a decoder determined by the first packet for analysis; determining the type of the current Internet of vehicles communication protocol according to a preset rule, wherein the preset rule is as follows: determining the type of the Internet of vehicles communication protocol according to the first packet start identification bit and the end identification bit of the data packet; the types of the communication protocol of the Internet of vehicles at least comprise: JT/T808-2011 protocol, JT/T809-2011 protocol, and GB/T32960 protocol; when the first packet start identification bit of the data packet is 0x7e and the end identification bit is 0x7e, the type of the internet of vehicles communication protocol matched with the protocol adapter is JT/T808-2011 protocol; when the first packet start identification bit of the data packet is 0x5b and the end identification bit is 0x5d, the type of the internet of vehicles communication protocol matched with the protocol adapter is JT/T809-2011 protocol; when the first packet start identification bit of the data packet is 0x230x23, the type of the internet of vehicles communication protocol matched with the protocol adapter is a GB/T32960 protocol;

the protocol adapter module is used for determining the type of the Internet of vehicles protocol according to the first packet of the data packet and loading a decoder corresponding to the current Internet of vehicles communication type;

the decoder module comprises an escape decoder and a protocol decoder, wherein the escape decoder performs escape on the numerical values in the data packet and sends the escape data packet to the protocol decoder; the protocol decoder analyzes the data packet after the escape, analyzes the attribute value of the message packet, and sends the attribute value of the message packet to the message router, wherein the attribute value of the message packet at least comprises a service message ID and a message body;

the message router module is used for acquiring a service message ID required to be processed by the service processor in advance, matching the corresponding service processor according to the service message ID in the message packet attribute value and sending a message body to the service processor;

and the service processor module analyzes the message body and stores or forwards the analyzed data according to the service requirement.

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