CN1486093A

CN1486093A - Channel scheduling device based on operation system in embedded system

Info

Publication number: CN1486093A
Application number: CNA021371814A
Authority: CN
Inventors: 张建林; 樊迅; 陈德怀; 裴民; 王迎; 陈明; 孔令山
Original assignee: Alcatel Lucent Shanghai Bell Co Ltd
Current assignee: Nokia Shanghai Bell Co Ltd
Priority date: 2002-09-27
Filing date: 2002-09-27
Publication date: 2004-03-31
Anticipated expiration: 2022-09-27
Also published as: CN1242348C

Abstract

The invention is a communication adjusting device based on operation system in embedded system. It realizes the communication among upper models between operation system of embedded system and several application models which are high relation and has no rival, and provides the communication interface for upper application with external application task. The device and the adjusted upper application model are used as a task of the operation system together. The device is made up of adjusting model, information pool model, upper application interface model, operation system interface model, application registered table model.

Description

In the embedded system based on the channel scheduling device of operating system

(1) technical field

This patent relates in a kind of embedded system the channel scheduling device based on operating system.

(2) background technology

The application module that usually will have certain function in the embedded system is as the task on the operating system, and the scheduling of application task is finished by operating system with mutual communicating by letter.Concurrency and real-time that design although it is so can provide higher by seizing in advance between task, performance is good in the single relatively system of function, but when system complex, such design will make the task on the too much operating system, thereby over-burden to cause the scheduling of operating system, system effectiveness is not high, and too much task also brought inconvenience to test, and being not still more all needs " seizing in advance " between all application.

In order to address this problem, general way is with some correlation degree height, and the application module task that need not to seize is in advance each other merged into a task, finishes the scheduling of these application modules in task inside.Usually but the function with scheduling feature and application module does not separate conventional method clearly in task inside, the designer of task will take into account the function of scheduling and application function when exploitation, workload is big, and because the fuzzy maintenance inconvenience that has caused task of boundary, the concurrent development difficulty of a plurality of application modules is big in the task.

(3) summary of the invention

The objective of the invention is to propose in a kind of embedded system based on the channel scheduling device of operating system, the task that not only can solve in traditional complicated embedded system on the operating system is too much, and the scheduling burden is heavy, the problem that efficient is not high; But also can be by the interface of level and standard is clearly arranged between channel scheduling device provided by the invention and upper application module, realize cutting apart of scheduling details and application function, so not only can reduce the difficulty of application and development, but also can improve the efficient of exploitation greatly, and has very strong maintainability by concurrent development.

In a kind of embedded system provided by the present invention based on the channel scheduling device of operating system, be used for embedded system operating system and correlation degree height, between the some application modules that need not each other to seize in advance, the scheduling of finishing upper application module with communicate by letter, and to upper layer application provide and other peripheral applications tasks between communication interface, this device and the upper application module that is scheduled are together as a task on the operating system, it is characterized in that, it comprises scheduler module, the message pool module, the upper layer application interface module, operating system interface module and application registry module, wherein: scheduler module, its respectively with the message pool module, the upper layer application interface module, the operating system interface module links to each other with the application registry module, carry out the scheduling controlling of upper application module according to the purpose sign of message in the message pool and the sign of registered application, and scheduling strategy is provided; The message pool module, it links to each other with scheduler module with upper layer application interface module, operating system interface module respectively, be used to store interactive messages between upper application module and peripheral applications task module and mail to the message of upper application module, provide convenience for scheduler module, upper layer application interface module and operating system interface module and to insert the interface of message pool, carry out the access control of message pool; The upper layer application interface module, it links to each other with scheduler module, message pool module, operating system interface module and application registry module respectively, receive the message send request of upper application module, judge the purpose and the route that send message, can activate upper application module, and to the upper application module pond access capability that gives information; The operating system interface module, it links to each other with scheduler module, message pool module, upper layer application interface module and application registry module respectively, finish message sink from operating system, message inspection, format conversion, message stores, accept external message and send request, format conversion, the message by operating system send; The application registry module, it links to each other with scheduler module, upper layer application interface module and operating system interface module respectively, public informations such as the sign of storage upper application module, message processing function inlet.

In the channel scheduling device based on operating system in above-mentioned embedded system, the message pool module comprises message stores submodule, message pool interface sub-module and message pool access control submodule, wherein: the message stores submodule, it links to each other with message pool access control submodule with the message pool interface sub-module respectively, as the memory block of message, the access capability that gives information; The message pool interface sub-module, it links to each other with message pool access control submodule with the message stores submodule respectively, the interface that the message pool of externally providing convenience inserts is internally finished the access of message in the message stores submodule by the control information of message pool access control submodule; Message pool access control submodule, it links to each other with the message pool interface sub-module with the message stores submodule respectively, the information of the situation that the recording messages sub module stored is used, number as message in the message pool, the position of first message, information such as the position of first free storage provide the access control ability.

Adopted above-mentioned technical solution, replace scheduling that operating system finishes application module and communicate by letter based on the shell on operating system mechanism channel scheduling device, shell mechanism channel scheduling device and the upper application module that is scheduled are together as a task on the operating system in form, the task that solved in traditional embedded system on the operating system is too much, the scheduling burden is heavy, the problem that efficient is not high; Simultaneously, the interface of level and standard is clearly arranged between channel scheduling device provided by the invention and upper application module, realized cutting apart of scheduling details and application function, not only can reduce the difficulty of application and development, but also can improve the efficient of exploitation greatly, and has very strong maintainability by concurrent development.When the upgrading of dispatching method is upgraded,, very flexible as long as interface remains unchanged and also can not influence upper application module.

(4) description of drawings

Fig. 1 is based on the structural representation of the channel scheduling device of operating system in the embedded system of the present invention;

Fig. 2 is the structural representation of message pool module among the present invention.

(5) embodiment

The present invention represents unique communication interface to peripheral application module, and scheduling feature is arranged, the function of the SHELL (shell) in some similar operations system in form, so we define it and are " shell mechanism channel scheduling device ".

As shown in Figure 1, shell mechanism channel scheduling device 1 of the present invention is used between embedded system operating system 2 and the some application modules 3, the scheduling of finishing upper application module 3 with communicate by letter, and to upper application module 3 provide and other peripheral applications task modules 4 between communication interface, what operating system adopted in our environment is Vxworks (a kind of popular embedded OS), upper application module comprises the RRC with specific function (Radio Resource control) the Application of Interface module that is partitioned into by function in NBAP (node B application part) agreement from WCDMA (Wideband Code Division Multiple Access (WCDMA)), SaalUni (signaling asynchronous transmission mode adaptive layer user network agreement) Application of Interface module, ALCAP (access link application controls agreement) Application of Interface module, message route and composite software are handled application module, NBAP (node B application part) protocol software is handled application module, NBAP (node B application part) protocol module management software application module etc., these upper application module have very strong incidence relation, and need not between them to seize in advance, NBAP (node B application part) protocol function is finished in cooperation jointly under the scheduling of shell mechanism dispatching device 1, shell mechanism dispatching device 1 and these upper application module 3 are designed to a NBAP (node B application part) the agreement task on the operating system together, have unique task inlet and message queue.

This device is made up of scheduler module 11, message pool module 12, upper layer application interface module 13, operating system interface module 14, application registry module 15.All modules are designed to function, are called when activating, and return response by function.

Scheduler module 11 is carried out the scheduling controlling of upper application module according to the sign of the application of the purpose of the message in message pool sign and registration, and scheduling strategy is provided.

When operating system interface module 14 receives the message of issuing certain upper application module 3 and deposits it in message pool by intercommunicating standard message format from the message queue of operating system 2 after, to activate scheduler module 11, the purpose of scheduler module 11 taking-up message identifies also and the application identities of registration in the application registry module 15 compares, if the neither one registered application is marking matched, with this message in the request message pond module 12 release message ponds, if find the upper layer application sign of coupling, request upper layer application interface module 13 is activated the function of upper application module 3.After upper layer application interface module 13 certain upper layer application of indication are finished, scheduler module 11 will continue the purpose sign of next message in the request message pond module 12 taking-up message pool and compare, carry out repeated operation, in message pool module 12 Indication message ponds, do not have message till.

Scheduler module 11 can provide different scheduling strategies as required, as the scheduling of message first-in first-out, message priority scheduling etc.Adopt no message priority first-in first-out scheduling in our realization, this scheduling mode is realized simple, and scheduler module 11 always request message pond module 12 is taken out the message identifier that enters message pool at first, and the upper application module 3 of dispatching response.

Message pool module 12: storage 3 interactive messages of upper application module and peripheral applications task module 4 mail to the message of upper application module 3; Provide convenience for scheduler module 11, upper layer application interface module 13 and operating system interface module 14 and to insert the interface of message pool; Carry out the access control of message pool.

Message pool module 12 and scheduler module 11, upper layer application interface module 13, operating system interface module 14 interfaces mail to the access function of the message of upper application module 3 for they provide 3 interactive messages of upper application module and peripheral applications task module 4.As Fig. 2: message pool module 12 is divided into three submodules and realizes: message stores submodule 122, message pool interface sub-module 123 and message pool access control submodule 121.Message stores submodule 122 is the memory block of message, the access capability that gives information.The interface that the message pool that message pool interface sub-module 123 is externally provided convenience inserts is internally finished the access of message in message stores submodule 122 by the control information of message pool access control submodule 121.The information of the situation that message pool access control submodule 121 recording messages sub module stored 122 are used, as the number of message in the message pool, the position of first message, information such as the position of first free storage provide the access control ability.

When operating system interface module 14 receives the message of issuing certain upper application module 3 and finishes the conversion of intercommunication standard message format from the message queue of operating system 2 after, carry out the storage of message with activating message pool module 12, message pool module 12 is carried out access control according to the information that message pool access control submodule 121 provides, if accept the storage request, to carry out corresponding storage operation, and the response that returns success, otherwise return the storage failure response.

When scheduler module 11 need be cancelled breath purpose sign and carries out scheduling controlling from message pool module 12, message pool module 12 will be activated, if message is arranged in the message pool, just return the required message purpose identification information of scheduler module 11, if there is not message, also notify scheduler module 11.Also having a kind of abnormal conditions is to find when scheduler module 11 that cancellation breath purpose is identified at from message pool module 12 to can not find any one application identities in the application registry module when corresponding, also with requesting activation message pool module 12 with this message in the release message pond, after message pool module 12 is finished message release, notice scheduler module 11, if any unusual generation, will report to the police.

When the reading and writing, control etc. that need carry out message pool when upper layer application interface module 13 insert request, activate message pool module 12 and carry out associative operation, message pool module 12 is carried out access control according to the information that message pool access control submodule 121 provides, if accept, to carry out corresponding storage operation, and the response that returns success, otherwise return failure response.

Upper layer application interface module 13: receive the message send request of upper application module 3, judge the purpose and the route that send message; The activation of upper application module 3; To the upper application module 3 pond access capability that gives information.

When upper layer application will send message, activate upper layer application interface module 13, upper layer application interface module 13 will judge whether the purpose of message is another upper application module 3 that is scheduled, if, to send the message stores request to message pool module 12 and finish message stores, and accept to reply and return to upper application module 3 from message pool module 12, otherwise, solicit operation system interface module 14 is sent a message to peripheral applications task module 4, and accept operating system interface module 14 reply and return to upper application module 3.When the function of certain upper application module 3 of scheduler module 11 request schedulings, upper layer application interface module 13 also is activated and obtains the message processing function entry address of this upper application module 3 from application registry module 15, and activate this upper application module 3, when upper layer application is returned, return response and give scheduler module 11.When oneself the message that upper application module 3 request is read in the message pool maybe will be carried out control operation to message pool, as when discharging already used message, upper layer application interface module 13 also is activated and sends corresponding request to message pool module 12, and notifies upper application module 3 after the response of receiving message pool module 12.

Operating system interface module 14 is finished from the message sink of operating system 2 message inspection, format conversion, message stores; Accept external message and send request, format conversion, the message by operating system 2 send.

When from the message queue of operating system 2, receiving message, operating system interface module 14 is activated and carries out the message purpose and judge, purpose sign as message is consistent with certain application identities in the application registry module 15, just will accept message conversion and be the inside story form of standard and carry out message stores to 12 message stores requests of message pool module, and accept replying of message pool module 12, as failure, will send alarm.When upper layer application interface module 13 asks to the periphery application task module 4 to send, operating system interface module 14 conversion of inside story form and PERCOM peripheral communication form of column criterion of going forward side by side that is activated, and send to operating system 2 request messages.

Application registry module 15 is designed to a structural array from see in form, and each structure all comprises the sign of storing upper application module 3 and corresponding message processing function inlet information.The information of our application registry is static, configures when NBAP (node B application part) agreement task initialization, can only read in the running, can not change.

Claims

In the embedded system based on the channel scheduling device of operating system, be used for embedded system operating system and correlation degree height, between the some application modules that need not each other to seize in advance, the scheduling of finishing upper application module with communicate by letter, and to upper layer application provide and other peripheral applications tasks between communication interface, this device and the upper application module that is scheduled are together as a task on the operating system, it is characterized in that, it comprises scheduler module, the message pool module, the upper layer application interface module, operating system interface module and application registry module, wherein:

Scheduler module, it links to each other with message pool module, upper layer application interface module, operating system interface module and application registry module respectively, carry out the scheduling controlling of upper application module according to the purpose sign of message in the message pool and the sign of registered application, and scheduling strategy is provided;

The message pool module, it links to each other with scheduler module with upper layer application interface module, operating system interface module respectively, be used to store interactive messages between upper application module and peripheral applications task module and mail to the message of upper application module, provide convenience for scheduler module, upper layer application interface module and operating system interface module and to insert the interface of message pool, carry out the access control of message pool;

The upper layer application interface module, it links to each other with scheduler module, message pool module, operating system interface module and application registry module respectively, receive the message send request of upper application module, judge the purpose and the route that send message, can activate upper application module, and to the upper application module pond access capability that gives information;

The operating system interface module, it links to each other with scheduler module, message pool module, upper layer application interface module and application registry module respectively, finish message sink from operating system, message inspection, format conversion, message stores, accept external message and send request, format conversion, the message by operating system send;

The application registry module, it links to each other with scheduler module, upper layer application interface module and operating system interface module respectively, storage public information, the i.e. sign of upper application module, message processing function inlet.
2. based on the channel scheduling device of operating system, it is characterized in that in a kind of embedded system according to claim 1: described message pool module comprises message stores submodule, message pool interface sub-module and message pool access control submodule, wherein:

The message stores submodule, it links to each other with message pool access control submodule with the message pool interface sub-module respectively, as the memory block of message, the access capability that gives information;

The message pool interface sub-module, it links to each other with message pool access control submodule with the message stores submodule respectively, the interface that the message pool of externally providing convenience inserts is internally finished the access of message in the message stores submodule by the control information of message pool access control submodule;

Message pool access control submodule, it links to each other with the message pool interface sub-module with the message stores submodule respectively, the information of the situation that the recording messages sub module stored is used, number as message in the message pool, the position of first message, information such as the position of first free storage provide the access control ability.