CN106301571A

CN106301571A - Cross time-slot connects the method and apparatus of configuration

Info

Publication number: CN106301571A
Application number: CN201510367435.4A
Authority: CN
Inventors: 程海霞
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2015-06-26
Filing date: 2015-06-26
Publication date: 2017-01-04
Also published as: WO2016206469A1

Abstract

The invention discloses a kind of cross time-slot connect configuration method, including: obtain single board information, input/output end port information, scheduling port information and three between hierarchical relationship；Single board information, input/output end port information, hierarchical relationship between scheduling port information and three are converted to tree-shaped link model, and generate configurable cross-coupled graphical interfaces according to tree-shaped link model；Receive the operational order coming from graphical interfaces, increase newly between each scheduling port in graphical interfaces according to operational order or delete line；Generate configuration information according to the annexation between scheduling port information each in graphical interfaces, and send to the network equipment and complete configuration.The invention also discloses a kind of cross time-slot and connect the device of configuration.The present invention uses the hierarchical relationship reflecting port to be configured of tree-like figure objective interface, easy to operate simply, it is achieved that visual configuration, and configuration result and business move towards very clear, is conducive to improving the efficiency of configuration.

Description

Cross time-slot connects the method and apparatus of configuration

Technical field

The present invention relates to communication technique field, the method and apparatus connecting configuration particularly to cross time-slot.

Background technology

In communication technique field, it is referred to as net for managing the NMS of optical fiber transmission network equipment Pipe software.The unification to optical fiber transmission network equipment all in optical transfer network can be completed by webmastering software Centralized management.Data on optical fiber transmission network equipment can be configured and read by webmastering software, from And make the business of optical fiber transmission network equipment properly functioning.

Interconnection configuration is the core configuration function in fiber-optic transfer webmaster software, by configuration schedules end Interconnection between Kou, it is achieved the cross scheduling of appliance services time slot.Current webmastering software is typically adopted With the mode of text time slot configuration realize interconnection configuration, i.e. in webmastering software in the way of form in Reveal the interconnection between scheduling port, and carry out additions and deletions on this basis and change and look into.This form Configuration mode when newly-increased record, need to select source point and the resource of place point, the level between port closes System is not directly perceived, and configuration workload is big, is easily caused configuration and makes mistakes, especially this data volume is big when Drawback is the most prominent.

Summary of the invention

The method and apparatus that the main object of the present invention connects configuration for providing a kind of cross time-slot, makes configuration Mode is more directly perceived, it is achieved simple visual configuration.

The present invention proposes a kind of method that cross time-slot connects configuration, including step:

Obtain in the network equipment possess the single board information of cross time-slot scheduling feature, input/output end port information, Hierarchical relationship between scheduling port information and three；

By described single board information, input/output end port information, scheduling port information and three between level Relation is converted to tree-shaped link model, and generates configurable cross-coupled according to described tree-shaped link model Graphical interfaces；

Receive the operational order coming from described graphical interfaces, according to described operational order at described figure circle Newly-increased or deletion line between each scheduling port in face；

Configuration information is generated according to the annexation between scheduling port information each in described graphical interfaces, and Send and complete to configure to the described network equipment.

Preferably, described respectively scheduling in described graphical interfaces according to operational order increases newly between port or deletes Except the step of line includes:

When the operational order received includes selecting two scheduling ports in described graphical interfaces and selection institute When stating the connection control in the guidance panel of graphical interfaces, then newly-increased between two the scheduling ports selected Line；

When the operational order received includes selecting a line in described graphical interfaces and the described figure of selection During deletion control in the guidance panel at shape interface, delete the line selected.

Preferably, the described step increasing line between two the scheduling ports selected newly includes:

When the operational order received include selecting in described guidance panel when being bi-directionally connected control, in choosing Newly-increased line between the scheduling port of the scheduling port of the input port selected and the output port of selection, and look into Look for the scheduling port dispatching the relative output port of port of the input port of selection and the output selected The scheduling port dispatching the relative input port of port of port, at the scheduling port of relative output port And newly-increased line between the scheduling port of relative input port；

When the operational order received includes the unidirectional connection control selected in described guidance panel, in choosing Newly-increased line between the scheduling port of the scheduling port of the input port selected and the output port of selection.

Preferably, also include before the described step increasing line between two the scheduling ports selected newly:

Judge whether two selected scheduling ports meet configurable condition；

If it is, perform the step of newly-increased line between two the scheduling ports selected.

When the operational order received includes the interconnection control one to one that selects in described guidance panel Time, the company of increasing newly between the scheduling port of the output port dispatching port and selection of the input port selected Line；

When the operational order received includes the one-to-many interconnection control that selects in described guidance panel Time, the company of increasing newly between the scheduling port of the output port dispatching port and selection of the input port selected The scheduling port of the output port in line, and the described graphical interfaces that reception user is the newly selected again, in choosing Newly-increased line between scheduling port and the scheduling port of the newly selected output port of the input port selected；

When the operational order received includes the many-one interconnection control that selects in described guidance panel Time, the company of increasing newly between the scheduling port of the output port dispatching port and selection of the input port selected The scheduling port of the input port in line, and the described graphical interfaces that reception user is the newly selected again, newly Newly-increased line between the scheduling port of the scheduling port of the input port selected and the output port of selection.

The present invention also proposes a kind of cross time-slot and connects the device of configuration, including:

Acquisition module, possesses the single board information of cross time-slot scheduling feature, defeated for obtaining in the network equipment Enter/output port information, scheduling port information and three between hierarchical relationship；

Interface generation module, for by described single board information, input/output end port information, dispatching terminal message Hierarchical relationship between breath and three is converted to tree-shaped link model, and raw according to described tree-shaped link model Become configurable cross-coupled graphical interfaces；

Configuration module, for receiving the operational order coming from described graphical interfaces, refers to according to described operation Order increases newly between each scheduling port in described graphical interfaces or deletes line；According in described graphical interfaces Annexation between each scheduling port information generates configuration information；

Sending module, is used for sending described configuration information to the described network equipment and completes configuration.

Preferably, described configuration module is additionally operable to:

Judge whether two selected scheduling ports meet configurable condition；

If it is, increase line newly between two the scheduling ports selected.

Preferably, described configuration module is additionally operable to:

What the present invention used tree-like figure objective interface reflects each veneer in optical fiber transmission network, input/defeated Go out the hierarchical relationship between port and scheduling port, when configuring cross-connection relationship, it is only necessary at figure Select to need the scheduling port of configuration on interface, lookup scheduling port money in layer need not be gone again Source, easy to operate simply, it is achieved that visual configuration, and configuration result and business move towards very clear, Be conducive to improving the efficiency of configuration.

Accompanying drawing explanation

Fig. 1 is the flow chart that cross time-slot of the present invention connects the first embodiment of the method for configuration；

Fig. 2 is the flow chart that cross time-slot of the present invention connects the second embodiment of the method for configuration；

Fig. 3 is the flow chart that cross time-slot of the present invention connects the 3rd embodiment of the method for configuration；

Fig. 4 is the flow chart that cross time-slot of the present invention connects the 4th embodiment of the method for configuration；

Fig. 5 is the flow chart that cross time-slot of the present invention connects the 5th embodiment of the method for configuration；

Fig. 6 is the module diagram that cross time-slot of the present invention connects the device embodiment of configuration；

Fig. 7 is the schematic diagram of the graphical interfaces that cross time-slot connects configuration in the embodiment of the present invention.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, do referring to the drawings further Explanation.

Detailed description of the invention

Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not used to limit Determine the present invention.

As it is shown in figure 1, Fig. 1 is the stream that cross time-slot of the present invention connects the first embodiment of the method for configuration Cheng Tu.The cross time-slot that the present embodiment is mentioned connects the method for configuration, including:

Step S10, obtains in the network equipment and possesses the single board information of cross time-slot scheduling feature, input/defeated Go out port information, the hierarchical relationship dispatched between port information and three；

The network management system of the present embodiment reads all veneers in the network equipment from network element, according to veneer Type identification, can filter out the veneer possessing business time-slot cross scheduling function, and get these Port information on veneer and business map information.One intersection veneer can include multiple input port (source Point) and output port (place point), include multiple tune under each input port and output port the most respectively Degree port.Between veneer, input/output end port, scheduling port, there is hierarchical relationship, input/output end port Being under the jurisdiction of veneer, scheduling port is under the jurisdiction of input/output end port.Inquire about the scheduling port of these intersection veneers Configuration information, thus draw the scheduling port list that can carry out cross-over configuration connection on these veneers.

Step S20, by single board information, input/output end port information, dispatches between port information and three Hierarchical relationship be converted to tree-shaped link model, and generate configurable interconnection according to tree-shaped link model Graphical interfaces；

There is hierarchical relationship between veneer, input/output end port and scheduling port, meet tree data structure, Veneer is orientated as the superiors' father node, and input/output end port is the child node of veneer, and scheduling port is defeated Enter/the child node of output port, according to these information, generate tree-shaped data model, respectively save at tree The configurable cross-coupled object of mark in point, configurable cross-coupled resource is positioned at father and son's node Bottom, interconnection configuration is finally to configure interconnection between two or more scheduling ports, single Plate and port information are the location marks of scheduling port, it is impossible to configuration interconnection.The tree that will have generated Type link model passes through recursive algorithm, generates tree-shaped annexation figure, i.e. Fig. 7 institute with graphical programming language The graphical interfaces shown, presents each veneer, input/output terminal in each tree node element in graphical interfaces Mouth, scheduling port.

Step S30, receives the operational order coming from graphical interfaces, according to operational order in graphical interfaces Newly-increased or deletion line between each scheduling port；

Whether the interface element that network management system is monitored in graphical interfaces has event to change, and according to preset rules Generate corresponding operational order.Operational order may be included in newly-increased between two scheduling ports or deletes line. Newly-increased or deletion line mode can have multiple.Such as, mouse choose veneer A input port IN1 it Under scheduling port 3 and veneer A output port OUT1 under scheduling port 1, when the two adjust Degree port original and be not connected with how other scheduling ports time, giving tacit consent to this operation is attended operation, this two Newly-increased line A-IN1-3 to A-OUT1-1 between individual scheduling port；If selected the two dispatching terminal Existing line between Kou, mouse is chosen two scheduling ports or chooses the line between two scheduling ports, then Giving tacit consent to this operation is deletion action, deletes the two and dispatches the line between port.The most such as, at figure There is a guidance panel by interface, this guidance panel includes connect control and delete control, if mouse is first Guidance panel is chosen connection control, then on graphical interfaces, chooses two scheduling ports, then this operation For attended operation, newly-increased line between the two scheduling port；If mouse first selects on guidance panel Middle deletion control, then on graphical interfaces, choose two scheduling ports connected or choose two scheduling ports Between line, then this operation is for deletion action, deletes the line between the two scheduling port.

Step S40, generates configuration letter according to the annexation between scheduling port information each in graphical interfaces Breath, and send to the network equipment complete configuration.

Network management system resolves the line in graphical interfaces between each scheduling port information, according to predefined friendship Fork connect data structure annexation is converted to configuration information, this configuration information include source point element, Place point element and link information.Configuration information is handed down to the network equipment by network management system, completes configuration.

The present embodiment use tree-like figure objective interface reflect each veneer in optical fiber transmission network, input/ Hierarchical relationship between output port and scheduling port, when configuring cross-connection relationship, it is only necessary at figure Select to need the scheduling port of configuration on shape interface, lookup scheduling port in layer need not be removed again Resource, easy to operate simply, it is achieved that visual configuration, and configuration result and business move towards very clear, Be conducive to improving the efficiency of configuration.

As in figure 2 it is shown, Fig. 2 is the stream that cross time-slot of the present invention connects the second embodiment of the method for configuration Cheng Tu.The present embodiment includes that the step of embodiment illustrated in fig. 1, step S30 therein include:

Step S31, the operational order received includes selecting two scheduling ports in graphical interfaces and selection Connection control in the guidance panel of graphical interfaces；

Step S32, newly-increased line between two the scheduling ports selected；

Step S33, the operational order received includes selecting a line in graphical interfaces and selection figure Deletion control in the guidance panel at interface；

Step S34, deletes the line selected.

Be provided with a guidance panel by the graphical interfaces of the present embodiment, this guidance panel includes connect control and Delete control.When user needs to connect two scheduling port configurations on graphical interfaces, available mouse On guidance panel, first choose connection control, then on graphical interfaces, choose two scheduling port, then webmasters System is newly-increased line between the two scheduling port.When user needs two tune on Delete Shape interface When spending the line between port, first on guidance panel, choose deletion control with mouse, then at graphical interfaces On choose two scheduling ports or choose the line between two scheduling ports connected, then network management system is deleted Except the line between the two scheduling port.Owing to the present embodiment have employed tree-like graphical interfaces, intuitively Reflect the hierarchical relationship between each veneer in optical fiber transmission network, input/output end port and scheduling port, User is when increasing newly or delete cross-connection relationship, it is only necessary to select to need the tune of configuration on graphical interfaces Degree port, easy to operate simply, it is achieved that visual configuration, be conducive to improving allocative efficiency.

As it is shown on figure 3, Fig. 3 is the stream that cross time-slot of the present invention connects the 3rd embodiment of the method for configuration Cheng Tu.The present embodiment includes that the step of embodiment illustrated in fig. 2, step S32 therein include:

Step S321, when the operational order received include selecting in guidance panel when being bi-directionally connected control, Newly-increased line between the scheduling port of the output port dispatching port and selection of the input port selected, And search the scheduling port of the scheduling relative output port of port of the input port of selection and select The scheduling port dispatching the relative input port of port of output port, in the scheduling of relative output port Newly-increased line between the scheduling port of port and relative input port；

Step S322, when the operational order received includes selecting the unidirectional connection control in guidance panel, Newly-increased line between the scheduling port of the output port dispatching port and selection of the input port selected.

Direction control, when generating graphical interfaces, is added to the operating surface of graphical interfaces by the present embodiment in the lump In plate, direction control can include unidirectional and two-way option.User is on the guidance panel of graphical interfaces Choice direction control, can realize scheduling port is bi-directionally or uni-directionally configured interconnection.As a example by Fig. 7, If user selects to be bi-directionally connected control, then chooses the scheduling port under the input port IN1 of board B 1 and board B output port OUT1 under scheduling port 4, then when newly-increased line, except at list The scheduling port 1 of the input port IN1 of plate B and the scheduling port 4 of the output port OUT1 of board B Between outside newly-increased line B-IN1-1 to B-OUT1-4, the most also search the input port IN1 of board B The relative port of scheduling port 1, i.e. the scheduling port 1 of the output port OUT1 of board B, and looking into Look for the relative port of the scheduling port 4 of the output port OUT1 of board B, the i.e. input port of board B The scheduling port 4 of IN1, and in the scheduling port 1 of output port OUT1 of board B and board B Newly-increased line B-IN1-4 to B-OUT1-1 between the scheduling port 4 of input port IN1.The present embodiment will Direction control adds in the operational controls of graphical interfaces, user by selecting direction control, it is achieved single To or two-way rapid configuration connect, and the directivity that configuration connects can be checked on graphical interfaces intuitively, Make interconnection configure simpler convenience, further increase allocative efficiency.

As shown in Figure 4, Fig. 4 is the stream that cross time-slot of the present invention connects the 4th embodiment of the method for configuration Cheng Tu.The present embodiment includes the step of embodiment illustrated in fig. 2, also includes before step S32:

Step S351, it is judged that whether two scheduling ports of selection meet configurable condition；If it is, Perform step S32；If it is not, then perform step S352；

Step S352, does not draw line.

The present embodiment is for avoiding configuration to make mistakes, and before configuration connects, to two the scheduling ports selected is also No meet configurable condition and judge.Such as, it is judged that whether the two to be judged scheduling port is in can Configuration status, whether scheduling port is not connected with other scheduling ports, the ODU between two scheduling ports (Oracle Database Unloader, Optical Channel Data Unit-k collect optical fiber distributing unit) granularity whether one Cause.Meet these conditions and just can generate new cross-coupled line, otherwise, do not draw line, or Eject prompting frame prompting user.Consequently, it is possible to avoid the problem that configuration makes mistakes, improve the standard of configuration Really property.

As it is shown in figure 5, Fig. 5 is the stream that cross time-slot of the present invention connects the 5th embodiment of the method for configuration Cheng Tu.The present embodiment includes the step of embodiment illustrated in fig. 2, also includes in step S32:

Step S323, when the operational order received includes selecting the interconnection one to one in guidance panel During control, new between the scheduling port of the output port dispatching port and selection of the input port selected Increase line；

Step S324, when the operational order received includes selecting the one-to-many interconnection in guidance panel During control, new between the scheduling port of the output port dispatching port and selection of the input port selected The scheduling port of the output port in increasing line, and the graphical interfaces that reception user is the newly selected again, in choosing Newly-increased line between scheduling port and the scheduling port of the newly selected output port of the input port selected；

Step S325, when the operational order received includes selecting the many-one interconnection in guidance panel During control, new between the scheduling port of the output port dispatching port and selection of the input port selected The scheduling port of the input port in increasing line, and the graphical interfaces that reception user is the newly selected again, newly Newly-increased line between the scheduling port of the scheduling port of the input port selected and the output port of selection.

Cross type control, when generating graphical interfaces, is added to the behaviour of graphical interfaces by the present embodiment in the lump Making in panel, this cross type control can include one to one, one-to-many and many-to-one option.User exists On the guidance panel of graphical interfaces select cross type control, can realize to scheduling port one to one, a pair Many or many-to-one configuration interconnection.As a example by Fig. 7, if user selects one-to-many interconnection control Part, then choose the scheduling port 1 under the input port IN1 of veneer A and the output port of board B Scheduling port 2 under OUT1, then when newly-increased line, except the input port IN1 in veneer A Scheduling port 1 and board B output port 1 scheduling port 2 between newly-increased line A-IN1-1 extremely Outside B-OUT1-2, the most also prompting user the newly selected scheduling port, such as user in output port is new Select the scheduling port 3 of output port 1 of board B, then at the dispatching terminal of input port 1 of veneer A Between the scheduling port 3 of the output port 1 of mouth 1 and the newly selected board B, newly-increased line A-IN1-1 is extremely B-OUT1-3.In like manner, if user selects many-one interconnection control, then the input of veneer A is chosen Scheduling port 2 under port 1 and the scheduling port 3 under the output port 1 of veneer A, then newly When increasing line, except scheduling port 2 and the output port 1 of veneer A of the input port 1 in veneer A Scheduling port 3 between outside newly-increased line A-IN1-2 to A-OUT1-3, the most also prompting user is in input The scheduling port of the input port 1 of a newly selected scheduling the newly selected veneer A of port, such as user in port 4, then in the scheduling port 4 of input port 1 of the newly selected veneer A and original veneer A selected Newly-increased line A-IN1-4 to A-OUT1-3 between the scheduling port 3 of output port 1.Further, it is also possible to Arranging one-to-many or many-to-one scope, such as a pair two, three to first-class.The present embodiment is by cross type Control adds in the operational controls of graphical interfaces, this cross type control of user by selecting, it is achieved One, one-to-many and many-to-one rapid configuration are connected, and configuration can be checked on graphical interfaces intuitively The multiformity connected, makes interconnection configure simpler convenience, improves allocative efficiency, carry further High allocative efficiency.

As shown in Figure 6, Fig. 6 is the module signal that cross time-slot of the present invention connects the device embodiment of configuration Figure.The cross time-slot that the present embodiment is mentioned connects the device of configuration, including:

Acquisition module 10, for obtain the network equipment possesses cross time-slot scheduling feature single board information, Input/output end port information, the hierarchical relationship dispatched between port information and three；

Interface generation module 20, for by single board information, input/output end port information, scheduling port information With the hierarchical relationship between three is converted to tree-shaped link model, and generates can join according to tree-shaped link model Put cross-coupled graphical interfaces；

Configuration module 30, for receiving the operational order coming from graphical interfaces, according to operational order at figure Newly-increased or deletion line between each scheduling port in shape interface；According to graphical interfaces is respectively dispatched port information Between annexation generate configuration information；

Sending module 40, is used for sending configuration information to the network equipment and completes configuration.

The cross time-slot of the present embodiment connects the device of configuration and is arranged in network management system, and network management system is from net Read all veneers in the network equipment in unit, according to the type identification of veneer, can filter out and possess industry The veneer of business time-slot cross scheduling feature, and get the port information on these veneers and business is reflected Penetrate information.One intersection veneer can include multiple input port (source point) and output port (place point), often Multiple scheduling port is included the most respectively under one input port and output port.Veneer, input/output terminal Having hierarchical relationship between mouth, scheduling port, input/output end port is under the jurisdiction of veneer, and scheduling port is subordinate to In input/output end port.Inquire about the scheduling port configuration information of these intersection veneers, thus show that these are single The scheduling port list of cross-over configuration connection can be carried out on plate.

Further, configuration module 30 is additionally operable to:

When the operational order received includes selecting two scheduling ports in graphical interfaces and selection figure circle During connection control in the guidance panel in face, then newly-increased line between two the scheduling ports selected；

When the operational order received includes selecting a line in graphical interfaces and selection graphical interfaces During deletion control in guidance panel, delete the line selected.

Further, configuration module 30 is additionally operable to:

When the operational order received include selecting in guidance panel when being bi-directionally connected control, select Newly-increased line between the scheduling port of the scheduling port of input port and the output port of selection, and search choosing The scheduling port dispatching the relative output port of port of the input port selected and the output port selected The scheduling port of the scheduling relative input port of port, in scheduling port and the phase of relative output port To input port scheduling port between newly-increased line；

When the operational order received includes selecting the unidirectional connection control in guidance panel, select Newly-increased line between the scheduling port of the scheduling port of input port and the output port of selection.

Further, configuration module 30 is additionally operable to:

Judge whether two selected scheduling ports meet configurable condition；

If it is, increase line newly between two the scheduling ports selected.

Further, configuration module 30 is additionally operable to:

When the operational order received includes selecting the control of interconnection one to one in guidance panel, Newly-increased line between the scheduling port of the scheduling port of the input port selected and the output port of selection；

When the operational order received includes selecting the one-to-many interconnection control in guidance panel, Newly-increased line between the scheduling port of the scheduling port of the input port selected and the output port of selection, and The scheduling port of the output port in the graphical interfaces that reception user is the newly selected again, at the input selected Newly-increased line between scheduling port and the scheduling port of the newly selected output port of mouth；

When the operational order received includes selecting the many-one interconnection control in guidance panel, Newly-increased line between the scheduling port of the scheduling port of the input port selected and the output port of selection, and The scheduling port of the input port in the graphical interfaces that reception user is the newly selected again, in the newly selected input Newly-increased line between the scheduling port of the scheduling port of port and the output port of selection.

The foregoing is only the preferred embodiments of the present invention, not thereby limit the scope of the claims of the present invention, Every equivalent structure utilizing description of the invention and accompanying drawing content to be made or equivalence flow process conversion, or directly Or indirectly it is used in other relevant technical fields, the most in like manner it is included in the scope of patent protection of the present invention.

Claims

1. the method that a cross time-slot connects configuration, it is characterised in that include step:

Obtain and the network equipment possesses the single board information of cross time-slot scheduling feature, input/output end port letter Breath, the hierarchical relationship dispatched between port information and three；

2. the method that cross time-slot as claimed in claim 1 connects configuration, it is characterised in that described The step increasing or deleting line according to operational order in described graphical interfaces between each scheduling port newly includes:

3. the method that cross time-slot as claimed in claim 2 connects configuration, it is characterised in that described Between two the scheduling ports selected, the step of newly-increased line includes:

4. the method that cross time-slot as claimed in claim 2 connects configuration, it is characterised in that described Also include before the step of newly-increased line between two the scheduling ports selected:

Judge whether two selected scheduling ports meet configurable condition；

5. the method that cross time-slot as claimed in claim 2 connects configuration, it is characterised in that described Between two the scheduling ports selected, the step of newly-increased line includes:

6. a cross time-slot connects the device configured, it is characterised in that including:

7. cross time-slot as claimed in claim 6 connects the device of configuration, it is characterised in that described in join Put module to be additionally operable to:

8. cross time-slot as claimed in claim 7 connects the device of configuration, it is characterised in that described in join Put module to be additionally operable to:

9. cross time-slot as claimed in claim 7 connects the device of configuration, it is characterised in that described in join Put module to be additionally operable to:

Judge whether two selected scheduling ports meet configurable condition；

If it is, increase line newly between two the scheduling ports selected.

10. cross time-slot as claimed in claim 7 connects the device of configuration, it is characterised in that described Configuration module is additionally operable to: