CN115934112A - Multi-type software cooperation processing method based on drive attributes - Google Patents

Abstract

The invention relates to the field of software cooperation processing, in particular to a multi-type software cooperation processing method based on drive attributes, which comprises the following steps: obtaining the position characteristics of the software to be coordinated according to the deployment condition of the software to be coordinated; acquiring the software type of software to be coordinated, and performing initialization processing according to the position characteristics of the software to be coordinated to obtain an initialization coordination result; complete cooperation processing is completed according to the initialized cooperation result, data relation is established for the software to be mutually cooperated through self-driving attributes of the software, meanwhile, a reliable cooperation establishment verification mode is provided for the conditions of different equipment environments or different software installation paths, the method has strong practicability for the access or output of non-homologous data in practical application, the cooperation and interconnection efficiency among various or multi-address software is greatly improved, and the problems that the cooperation flow among the software cannot be carried out and the like caused by the problems of abnormal data formats, error reporting of interfaces and the like are solved.

Description

Multi-type software cooperation processing method based on drive attributes

Technical Field

The invention relates to the field of software cooperation processing, in particular to a multi-type software cooperation processing method based on drive attributes.

Background

Various types of software with huge quantity and wide application range can be used in daily life or work, and for various types of software, certain risk of error reporting still exists in cooperative application processing, the reasons include that uplink data and downlink data do not correspond, port error reporting or abnormal driving, and the like.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a method for collaboratively processing various types of software based on driving attributes.

In order to achieve the above object, the present invention provides a method for processing multiple types of software collaboratively based on driver attributes, comprising:

obtaining the position characteristics of the software to be coordinated according to the deployment condition of the software to be coordinated;

acquiring the software type of software to be coordinated, and performing initialization processing according to the position characteristics of the software to be coordinated to obtain an initialization coordination result;

completing complete cooperation processing according to the initialization cooperation result;

wherein, the deployment condition is the device type set by the software.

Preferably, the obtaining of the location characteristics of the software to be coordinated according to the deployment condition of the software to be coordinated includes:

judging whether the deployment conditions of the basic cooperation software and the software to be cooperated are the same, if so, determining that the position characteristics of the software to be cooperated are the same, otherwise, acquiring the position characteristics of the software to be cooperated by utilizing the deployment conditions of the basic cooperation software and the software to be cooperated;

the basic cooperation software is a cooperation reference object of the software to be cooperated, and the deployment condition is the equipment type set by the software.

Further, the obtaining of the location characteristics of the software to be coordinated according to the deployment condition of the basic coordination software and the deployment condition of the software to be coordinated includes:

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are the same, the path address of the basic cooperation software and the path address of the software to be cooperated are used as the position characteristics of the software to be cooperated;

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are different, acquiring a path address of the basic cooperation software and a path address of the software to be cooperated;

obtaining the corresponding relation between the path address of the basic cooperation software and the path address of the software to be cooperated by utilizing the path address of the basic cooperation software and the path address of the software to be cooperated as the position characteristic of the software to be cooperated;

wherein, the device environment address is the installation path of the software on the device.

Preferably, the acquiring the software type of the software to be collaborated and performing initialization processing according to the position characteristics of the software to be collaborated to obtain an initialization collaboration result includes:

acquiring the driving attribute of the software to be cooperated according to basic cooperation software by utilizing the position characteristic of the software to be cooperated;

establishing main characteristics of the software to be cooperated by using the driving attribute of the software to be cooperated and the software type of the software to be cooperated;

acquiring the mapping of the driving attribute of the software to be cooperated on the equipment environment address to establish the secondary characteristics of the software to be cooperated;

initializing according to basic cooperation software by using the main characteristics of the software to be cooperated and the secondary characteristics of the software to be cooperated to obtain an initialized cooperation result;

the software type comprises system software and application software.

Further, the obtaining of the initialization cooperation result by performing initialization processing according to the basic cooperation software by using the main features of the software to be cooperated and the secondary features of the software to be cooperated includes:

performing data unification processing by using the main characteristics of the software to be cooperated according to the software type of basic cooperation software to obtain a main characteristic data unification result;

performing reverse mapping addressing processing according to the driving attribute of basic cooperation software by using the secondary features of the software to be cooperated to obtain a secondary feature data addressing result;

and utilizing the primary feature data uniformity result and the secondary feature data addressing result as an initialization cooperation result.

Further, the step of performing data unification processing according to the software type of the basic collaboration software by using the main characteristics of the software to be collaborated to obtain a main characteristic data unification result includes:

and judging whether the software type of the basic cooperation software is system software, if so, not needing processing, and otherwise, obtaining a main characteristic data uniformity result according to the data port of the basic cooperation software and the data port of the software to be cooperated.

Further, obtaining the main feature data uniformity result according to the data port of the basic collaboration software and the data port of the software to be collaborated comprises:

when the data port of the basic cooperation software is the same as that of the software to be cooperated, no processing is needed;

when the data port of the basic cooperation software is different from the data port of the software to be cooperated, judging whether the data transmission attribute between the data port of the basic cooperation software and the data port of the software to be cooperated is the same, if so, processing is not needed, otherwise, processing is abandoned;

the data transmission attribute is transmission mode, transmission protocol and data format.

Further, the obtaining of the secondary feature data addressing result by performing reverse mapping addressing processing on the secondary features of the software to be cooperated according to the driving attributes of the basic cooperation software comprises:

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are the same, acquiring the mapping of the basic cooperation software in the equipment environment as a basic mapping characteristic template;

judging whether the basic mapping feature template is the same as the secondary features of the software to be coordinated, if so, not needing processing, and otherwise, adjusting the data format of the input data of the software to be coordinated to be the same as the data format of the output data of the basic coordination software;

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are different, judging whether data transfer exists in data transmission between the basic cooperation software and the software to be cooperated, if so, performing reverse addressing processing on the basis of the driving attribute of the basic cooperation software by using the secondary feature of the software to be cooperated to obtain the equipment environment address of the basic cooperation software as the basic equipment environment address, otherwise, giving up the processing;

and judging whether the basic equipment environment address is the same as the equipment environment address of the basic cooperative software, if so, successfully performing reverse mapping addressing processing to obtain a secondary characteristic data addressing result, otherwise, failing the reverse mapping addressing processing, and giving up the processing.

Preferably, the completing the complete cooperation process according to the initialization cooperation result includes:

judging whether the initialization cooperation result meets the software cooperation processing standard, if so, finishing the complete cooperation processing, otherwise, utilizing the initialization cooperation result to perform data caching to finish the complete cooperation processing;

the software cooperation processing standard is that the primary feature data uniformity result is no-processing requirement and the secondary feature data addressing result is not processing abandonment.

Further, the step of performing data caching to complete cooperative processing by using the initialization cooperation result includes:

acquiring the main characteristics of the initialized cooperation result, caching data to the equipment environment address of basic cooperation software to obtain basic cooperation cache characteristics to complete cooperation processing;

and obtaining the secondary characteristics of the initialized cooperation result, caching the data to the equipment environment address of the software to be cooperated to obtain the cache characteristics to be cooperated to complete the complete cooperation processing.

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

the method has the advantages that data relation is established for the software to be mutually cooperated through the self-driving attribute of the software, meanwhile, a reliable cooperation establishment verification mode is provided for the conditions of different equipment environments or different software installation paths, the method has strong practicability for the access or output of non-homologous data in practical application, the cooperation interconnection efficiency among various types or multi-address software is greatly improved, and the problems that the cooperation process among the software cannot be carried out and the like caused by the problems of abnormal data format, error report of interfaces and the like are avoided.

Drawings

FIG. 1 is a flow chart of a method for collaboratively processing various types of software based on driver attributes provided by the invention.

Detailed Description

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

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1:

the invention provides a method for collaboratively processing various types of software based on drive attributes, which comprises the following steps of:

s1, obtaining the position characteristics of software to be coordinated according to the deployment condition of the software to be coordinated;

s2, acquiring the software type of the software to be coordinated, and performing initialization processing according to the position characteristics of the software to be coordinated to obtain an initialization coordination result;

s3, complete cooperation processing is completed according to the initialization cooperation result;

wherein, the deployment condition is the device type set by the software.

S1 specifically comprises the following steps:

s1-1, judging whether deployment conditions of basic cooperation software and software to be cooperated are the same, if so, determining that the position characteristics of the software to be cooperated are consistent, otherwise, acquiring the position characteristics of the software to be cooperated by utilizing the deployment conditions of the basic cooperation software and the software to be cooperated;

the basic cooperation software is a cooperation reference object of the software to be cooperated, and the deployment condition is the equipment type set by the software.

S1-1 specifically comprises:

s1-1-1, when the equipment environment addresses of the basic cooperation software and the software to be cooperated are the same, using the path address of the basic cooperation software and the path address of the software to be cooperated as the position characteristic of the software to be cooperated;

s1-1-2, when the equipment environment addresses of the basic cooperation software and the software to be cooperated are different, acquiring the path address of the basic cooperation software and the path address of the software to be cooperated;

s1-1-3, obtaining the corresponding relation between the path address of the basic cooperation software and the path address of the software to be cooperated by utilizing the path address of the basic cooperation software and the path address of the software to be cooperated as the position characteristic of the software to be cooperated;

wherein, the device environment address is the installation path of the software on the device.

S2 specifically comprises the following steps:

s2-1, acquiring the driving attribute of the software to be coordinated according to basic coordination software by utilizing the position characteristic of the software to be coordinated;

s2-2, establishing main characteristics of the software to be cooperated by using the driving attribute of the software to be cooperated and the software type of the software to be cooperated;

s2-3, acquiring the mapping of the driving attribute of the software to be cooperated on the equipment environment address to establish the secondary characteristics of the software to be cooperated;

s2-4, initializing according to basic cooperation software by using the main features of the software to be cooperated and the secondary features of the software to be cooperated to obtain an initialization cooperation result;

the software type comprises system software and application software.

In this embodiment, a method for collaboratively processing multiple types of software based on a driver attribute includes:

PVOID CreateMapFileAndGetBaseAddr(PUNICODE_STRING FilePath, PSIZE_T Size)

{

#define SEC_IMAGE 0x01000000

PVOID MapFileBaseAddress = NULL;

HANDLE FileHandle = NULL;

HANDLE SectionHandle = NULL;

NTSTATUS status;

IO_STATUS_BLOCK IoStatus = { 0 };

OBJECT_ATTRIBUTES oa = { 0 };

InitializeObjectAttributes(

&oa,

FilePath,

OBJ_CASE_INSENSITIVE,

0,

0

);

status = ZwOpenFile(&FileHandle,

FILE_READ_DATA,

&oa,

&IoStatus,

FILE_SHARE_READ,

FILE_SYNCHRONOUS_IO_NONALERT);

if (!NT_SUCCESS(status))

{

KdPrint(("ZwOpenFile failed: 0x%x\n", status));

return NULL;

}

oa.ObjectName = 0;

status = ZwCreateSection(&SectionHandle,

SECTION_ALL_ACCESS,

&oa,

0,

PAGE_READONLY,

SEC_IMAGE,

FileHandle);

if (!NT_SUCCESS(status))

{

KdPrint(("ZwCreateSection failed: 0x%x\n", status));

ZwClose(FileHandle);

return NULL;

}

status = ZwMapViewOfSection(SectionHandle,

ZwCurrentProcess(),

&MapFileBaseAddress,

0,

0,

0,

Size,

ViewUnmap,

0,

PAGE_READONLY);

if (!NT_SUCCESS(status))

{

KdPrint(("ZwMapViewOfSection failed: 0x%x\n", status));

ZwClose(SectionHandle);

ZwClose(FileHandle);

return NULL;

}

ZwClose(SectionHandle);

ZwClose(FileHandle);

return MapFileBaseAddress;

}

in practical use, after the driving attribute of the software to be cooperated completes the mapping of the device environment address, the installation address with the cooperative software is returned, so that reverse mapping can be realized in the subsequent steps for reverse addressing verification.

S2-4 specifically comprises:

s2-4-1, performing data unification processing according to the software type of basic cooperation software by using the main characteristics of the software to be cooperated to obtain a main characteristic data unification result;

s2-4-2, performing reverse mapping addressing processing according to the driving attribute of the basic cooperation software by using the secondary feature of the software to be cooperated to obtain a secondary feature data addressing result;

and S2-4-3, using the primary characteristic data uniformity result and the secondary characteristic data addressing result as initialization cooperation results.

S2-4-1 specifically comprises:

s2-4-1-1, judging whether the software type of the basic cooperation software is system software, if so, not needing processing, and otherwise, obtaining a main characteristic data uniformity result according to the data port of the basic cooperation software and the data port of the software to be cooperated.

S2-4-1-1 specifically comprises:

s2-4-1-1-1, when the data port of the basic cooperation software is the same as that of the software to be cooperated, no processing is needed;

s2-4-1-1-2, when the data port of the basic cooperation software is different from the data port of the software to be cooperated, judging whether the data transmission attribute between the data port of the basic cooperation software and the data port of the software to be cooperated is the same, if so, processing is not needed, otherwise, processing is abandoned;

the data transmission attribute is transmission mode, transmission protocol and data format.

In this embodiment, a multi-type software cooperation processing method based on drive attributes is provided, where data transmission is performed only between basic cooperation software and a data port of software to be cooperated, and does not include issuing of a system or an application instruction, and data transmission between software ports is active transmission.

S2-4-2 specifically comprises:

s2-4-2-1, when the equipment environment addresses of the basic cooperation software and the software to be cooperated are the same, acquiring the mapping of the address of the basic cooperation software in the equipment environment as a basic mapping characteristic template;

s2-4-2-2, judging whether the basic mapping feature template is the same as the secondary features of the software to be coordinated, if so, not needing processing, and if not, adjusting the data format of the input data of the software to be coordinated to be the same as the data format of the output data of the basic coordination software;

s2-4-2-3, when the equipment environment addresses of the basic cooperation software and the to-be-cooperated software are different, judging whether data transfer exists in data transmission between the basic cooperation software and the to-be-cooperated software, if so, performing reverse addressing processing on the basis of the driving attribute of the basic cooperation software by using the secondary feature of the to-be-cooperated software to obtain the equipment environment address of the basic cooperation software as the basic equipment environment address, otherwise, abandoning the processing;

and S2-4-2-4, judging whether the basic equipment environment address is the same as the equipment environment address of the basic cooperative software, if so, successfully performing reverse mapping addressing to obtain a secondary characteristic data addressing result, otherwise, failing to perform reverse mapping addressing to abandon the processing.

In this embodiment, a multi-type software cooperation processing method based on a driving attribute is defined that data transfer is defined in such a way that data does not directly transfer among software and needs to enter software to be cooperated after being transferred in other ways.

S3 specifically comprises the following steps:

s3-1, judging whether the initialized cooperation result meets the software cooperation processing standard, if so, finishing complete cooperation processing, otherwise, caching data by using the initialized cooperation result to finish complete cooperation processing;

the software cooperation processing standard is that the primary feature data uniformity result is no need to be processed and the secondary feature data addressing result is not abandoned.

S3-1 specifically comprises:

s3-1-1, obtaining the main characteristics of the initialization cooperation result, caching the data to the equipment environment address of the basic cooperation software to obtain basic cooperation cache characteristics, and completing complete cooperation processing;

and S3-1-2, obtaining the secondary characteristics of the initialized cooperation result, caching data to the equipment environment address of the software to be cooperated to obtain the cache characteristics to be cooperated to complete the complete cooperation processing.

In this embodiment, a multi-type software cooperation processing method based on drive attributes is provided, where the basic cooperation cache feature and the cache feature to be cooperated are used to perform software cooperation step recording, and for an operation that is not successful due to multiple times of cooperation, the corresponding basic cooperation cache feature and cache feature to be cooperated are deleted, and the basic cooperation cache feature and the cache feature to be cooperated cannot perform attribute reverse speculation on each software, so that privacy of the operation is ensured while providing a history operation record.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

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

Claims (10)

1. A method for collaboratively processing various types of software based on drive attributes is characterized by comprising the following steps:

obtaining the position characteristics of the software to be coordinated according to the deployment condition of the software to be coordinated;

acquiring the software type of software to be coordinated, and performing initialization processing according to the position characteristics of the software to be coordinated to obtain an initialization coordination result;

completing complete cooperation processing according to the initialization cooperation result;

wherein, the deployment condition is the equipment type set by the software.

2. The method for the collaborative processing of the multiple kinds of software based on the drive attributes as claimed in claim 1, wherein obtaining the location features of the software to be collaborated according to the deployment situation of the software to be collaborated comprises:

judging whether the deployment conditions of the basic cooperation software and the software to be cooperated are the same, if so, determining that the position characteristics of the software to be cooperated are the same, otherwise, acquiring the position characteristics of the software to be cooperated by utilizing the deployment conditions of the basic cooperation software and the software to be cooperated;

the basic cooperation software is a cooperation reference object of the software to be cooperated, and the deployment condition is the equipment type set by the software.

3. The method for collaborative processing of multiple types of software based on drive attributes as claimed in claim 2, wherein the obtaining of the location features of the software to be collaborated by using the deployment situation of the basic collaboration software and the deployment situation of the software to be collaborated comprises:

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are the same, the path address of the basic cooperation software and the path address of the software to be cooperated are used as the position characteristics of the software to be cooperated;

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are different, acquiring the path address of the basic cooperation software and the path address of the software to be cooperated;

obtaining the corresponding relation between the path address of the basic cooperation software and the path address of the software to be cooperated by utilizing the path address of the basic cooperation software and the path address of the software to be cooperated as the position characteristic of the software to be cooperated;

wherein, the device environment address is the installation path of the software on the device.

4. The method for the cooperative processing of multiple types of software based on the drive attributes as recited in claim 1, wherein the obtaining of the software type of the software to be cooperative by performing initialization processing according to the position characteristics of the software to be cooperative to obtain an initialization cooperation result comprises:

acquiring the driving attribute of the software to be cooperated according to basic cooperation software by utilizing the position characteristic of the software to be cooperated;

establishing main characteristics of the software to be coordinated by using the driving attribute of the software to be coordinated and the software type of the software to be coordinated;

acquiring the mapping of the driving attribute of the software to be cooperated on the equipment environment address to establish the secondary characteristics of the software to be cooperated;

initializing according to basic cooperation software by using the main characteristics of the software to be cooperated and the secondary characteristics of the software to be cooperated to obtain an initialization cooperation result;

the software type comprises system software and application software.

5. The method for collaboratively processing various types of software based on the driver attributes as claimed in claim 4, wherein the step of performing initialization processing according to basic collaboration software by using the primary features of the software to be collaborated and the secondary features of the software to be collaborated to obtain the initialization collaboration result comprises the steps of:

performing data unification processing by using the main characteristics of the software to be cooperated according to the software type of basic cooperation software to obtain a main characteristic data unification result;

performing reverse mapping addressing processing according to the driving attribute of basic cooperation software by using the secondary features of the software to be cooperated to obtain a secondary feature data addressing result;

and utilizing the primary characteristic data uniformity result and the secondary characteristic data addressing result as an initialization cooperation result.

6. The method as claimed in claim 5, wherein the step of performing data unification processing on the main features of the software to be collaborated according to the software type of the basic collaboration software to obtain a main feature data unification result comprises:

and judging whether the software type of the basic cooperation software is system software, if so, not needing processing, and otherwise, obtaining a main characteristic data uniformity result according to the data port of the basic cooperation software and the data port of the software to be cooperated.

7. The method as claimed in claim 6, wherein the obtaining of the main feature data uniformity result according to the data port of the basic collaboration software and the data port of the software to be collaborated comprises:

when the data port of the basic cooperation software is the same as the data port of the software to be cooperated, processing is not needed;

when the data port of the basic cooperation software is different from the data port of the software to be cooperated, judging whether the data transmission attribute between the data port of the basic cooperation software and the data port of the software to be cooperated is the same, if so, processing is not needed, otherwise, processing is abandoned;

the data transmission attribute is transmission mode, transmission protocol and data format.

8. The method as claimed in claim 5, wherein the obtaining of the addressing result of the secondary feature data by performing reverse mapping addressing processing on the secondary features of the software to be cooperated according to the driving attributes of the basic cooperation software comprises:

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are the same, acquiring the mapping of the address of the basic cooperation software in the equipment environment as a basic mapping characteristic template;

judging whether the basic mapping feature template is the same as the secondary features of the software to be coordinated, if so, not needing processing, and otherwise, adjusting the data format of the input data of the software to be coordinated to be the same as the data format of the output data of the basic coordination software;

when the equipment environment addresses of the basic cooperation software and the software to be cooperated are different, judging whether data transfer exists in data transmission between the basic cooperation software and the software to be cooperated, if so, performing reverse addressing processing on the basis of the driving attribute of the basic cooperation software by using the secondary feature of the software to be cooperated to obtain the equipment environment address of the basic cooperation software as the basic equipment environment address, otherwise, giving up the processing;

and judging whether the basic equipment environment address is the same as the equipment environment address of the basic cooperative software, if so, successfully mapping and addressing the basic equipment environment address, and obtaining a secondary feature data addressing result, otherwise, failing to map and address the basic equipment environment address, and giving up the processing.

9. The method for cooperative processing of multiple types of software based on driver attributes as claimed in claim 1, wherein completing the complete cooperative processing according to the initialization cooperative result comprises:

judging whether the initialization cooperation result meets the software cooperation processing standard, if so, finishing the complete cooperation processing, otherwise, utilizing the initialization cooperation result to perform data caching to finish the complete cooperation processing;

the software cooperation processing standard is that the primary feature data uniformity result is no need to be processed and the secondary feature data addressing result is not abandoned.

10. The method for cooperative processing of multiple types of software based on driver attributes as claimed in claim 9, wherein the step of performing data caching by using the initialized cooperation result to complete the complete cooperation processing comprises:

acquiring the main characteristics of the initialized cooperation result, caching data to the equipment environment address of basic cooperation software to obtain basic cooperation cache characteristics to complete cooperation processing;

and acquiring the secondary characteristics of the initialized cooperation result, caching data to the equipment environment address of the software to be cooperated to obtain the cache characteristics to be cooperated to complete the complete cooperation processing.

Images