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Bridging service and bridging network element inspection method and apparatus

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WO2016165491A1
WO2016165491A1 PCT/CN2016/074452 CN2016074452W WO2016165491A1 WO 2016165491 A1 WO2016165491 A1 WO 2016165491A1 CN 2016074452 W CN2016074452 W CN 2016074452W WO 2016165491 A1 WO2016165491 A1 WO 2016165491A1
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bridging
service
network
inspection
element
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PCT/CN2016/074452
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French (fr)
Chinese (zh)
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郑颖
张磊
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中兴通讯股份有限公司
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance or administration or management of packet switching networks

Abstract

A bridging service and bridging network element inspection method and apparatus. The method comprises the following steps: selecting a device to be checked in a network according to an inspection solution of a bridging service and a bridging network element; acquiring an L2VPN service passing through the device; identifying the bridging service and the bridging network element related to the device in the network by analyzing a configuration of an output service port of a trunking network element of the L2VPN service; and inspecting the bridging service and the bridging network element according to the inspection solution of the bridging service and the bridging network element. The technical solution of the present invention greatly reduces the difficulty of the bridging service inspection, improves the inspection accuracy and the inspection efficiency, and greatly reduces the investment in manpower cost.

Description

一种桥接业务和桥接网元的巡检方法及装置 One kind of a bridge and the bridge NE service inspection method and apparatus 技术领域 FIELD

本文涉及桥接业务和桥接网元的巡检技术领域,具体地说,涉及一种桥接业务和桥接网元的巡检方法及装置。 Field inspection to herein bridging and bridging service network element, in particular, to a method and apparatus for bridge inspection and service bridged network element.

背景技术 Background technique

随着数据通信与多媒体业务需求的发展,数据通讯网络已经遍布全球,既要利用相关数据通讯网络为用户提供低成本网络通信,又要兼容并适应新增数据通信业务需求,移动网关桥接业务配置方案在数据通信网络中得到广范应用。 With the development of data communications and multimedia business needs, data communications network has been all over the world, both to take advantage of data communication networks to provide users with low-cost network communications, but also data communication is compatible with and adapt to new business needs, bridging mobile gateway service configuration the application of broad embodiment in a data communications network.

目前,网络中常用的以太网桥接业务配置方案有多对一VSI(Virtual Switch Interface,虚拟交换接口)方案、多对一VLAN(Virtual Local Area Network,虚拟局域网)汇聚方案等,其共同特点是多个基站二层以太网业务汇聚到核心层上相同的桥接网元。 Currently, the network commonly used in Ethernet bridging service configuration program has many-VSI (Virtual Switch Interface, virtual switching interface) program, many-to-VLAN (Virtual Local Area Network, a virtual local area network) convergence programs, their common feature is more than base station Ethernet service convergence to the same core network element level bridging. 因此,一个桥接网元下可能挂几千个基站,一个桥接网元上可能有几千条基站业务经过,一个桥接网元上可配置大量的桥接关系对。 Accordingly, in a bridged network element may be linked to thousands of base stations, a base station may have thousands of traffic through the network bridge element, a large amount of configurable bridge bridging relationship on the NE. 全网中由于区域分布的要求,会有多个桥接网元并存。 The whole network due to the regional distribution requirements, there will be more bridged network elements coexist. 另外,桥接业务本身配置复杂、关联配置项繁多,而且基于业务的高可靠性的要求,桥接网元多是互为主备成对出现,主备桥接网元之间有很强的数据关联性。 In addition, the bridge itself is complicated configuration service, configuration items associated with many, but also on traffic requiring high reliability, bridged NE mostly mutual backup pairs, there is a strong correlation between a primary and a data bridging NE . 再则,在不同的运营商应用场景中,桥接业务的配置要求也有很大的差异。 Furthermore, the different operators scenario, configuration requirements bridging services are also very different.

因此网络运维工作中,巡检桥接业务是一项重要并且需要经常执行的工作。 Therefore, network operation and maintenance work, bridge inspection business is an important and frequently performed work needs. 但是人工巡检,其工作量非常巨大,难度非常高,效率非常低,而且很难保证检查结果的准确性、完整性。 However, manual inspection, its workload is enormous, the difficulty is very high, efficiency is very low and it is difficult to ensure the accuracy of test results, integrity.

目前有一些可借助的工具,如:网络管理系统、或某些直连设备的检查工具,但是这些工具在应用上都有一些局限性。 There are a number of tools can help, such as: NMS, or some direct-attach equipment inspection tools, but these tools have some limitations in the application. 如,网络管理系统主要侧重于设备当前配置及状态的实时呈现。 For example, network management system focused primarily on the current status of the device configuration and real-time rendering. 但桥接业务是一个逻辑概念,需要组合多个关联配置才能形成桥接业务,并且主备桥接网元之间的数据关联性很高。 However, bridging the business logic is a concept requires a combination of a plurality of associated business arranged to form a bridge, and the standby data association bridge between the highly NEs. 检查桥接业务及桥接点的规范性需要实时数据的基础上按照特定规则进行数 据分析才能得出判断,因此网管系统不能满足要求。 Normative basis for checking bridges and bridge business point of need real-time data on the data analysis carried out in order to obtain judgment in accordance with specific rules, so the network management system can not meet the requirements. 又如,直连设备的检查工具可以直接向设备下发命令查询设备配置及状态,但这种工具主要是点对点检查设备基础配置,如果想找出桥接业务及桥接网元,必须遍历全网设备,效率较低。 Again, check the tool directly connected devices can send commands directly to the device under device configuration and status inquiry, but this is the main tool to check basic configurations of the point, if you want to find a bridge bridging business and network elements, must traverse the entire network equipment and less efficient. 另外,这种工具对于呈现设备上相对独立的功能的当前配置及状态比较适用,如检查设备温度、内存使用率等,但无法检查业务逻辑复杂、配置项较多、设备之间业务耦合度高的复杂业务配置,例如桥接业务。 Further, such a tool for rendering on the device independent function of the current configuration and state of the comparator apply inspection device temperature, memory usage, etc., but can not check the business logic complexity, high coupling between the service more configuration items, the device the business complex configurations, such as bridging business. 再者,这种工具从设备上获取的数据不直观,对用户的专业技能要求很高,因此直连设备的检查工具也不能满足要求。 Furthermore, this tool to obtain data from the device is not intuitive, very high requirements for user expertise, thus directly connected devices can not meet the requirements of the inspection tool.

发明内容 SUMMARY

本发明的目的在于提供桥接业务和桥接网元的巡检方法及装置,以解决相关技术中桥接业务巡检难度大,且准确性和效率低的问题。 Object of the present invention to provide a method and apparatus for bridge inspection and service bridged network element, in order to solve the related art bridge inspection operations difficult, and a low accuracy and efficiency.

为了解决上述技术问题,采用如下技术方案: In order to solve the above problem, the following technical solution:

一种桥接业务和桥接网元的巡检方法,包括以下步骤: One kind of bridging service and inspection of the bridge network element, comprising the steps of:

根据桥接业务和桥接网元的巡检方案,选择网络中待检查的设备; The bridge and the bridge NE service inspection programs, select devices in the network to be examined;

获取途经所述设备的L2VPN业务; Acquiring L2VPN service via the device;

通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务和桥接网元; By analyzing the output port of said service configuration landing L2VPN service NE, identify the device associated with the network bridge and the bridge service network element;

根据所述桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检; The bridged and the bridging NE service inspection programs, operations of the bridge and the bridge inspection network element;

其中,所述L2VPN业务是指二层虚拟专用网络业务。 Wherein said means L2VPN service layer 2 virtual private network service.

可选地,该方法还包括: Optionally, the method further comprising:

获取与所述设备相关联的伪线保护组数据; Protection group pseudowire data acquisition associated with the device;

通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元。 By analyzing the data protection group pseudowire recognizes that the primary and standby bridge bridging NE NE from the bridge network element.

可选地,所述通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务的步骤包括: Alternatively, the L2VPN service by analyzing the landing configuration NE output traffic port, identifies the network associated with the bridge device service comprises:

通过分析所述L2VPN业务落地网元的输出业务端口的配置,过滤出所述L2VPN业务落地网元的输出业务端口为二层虚接口或二层虚子接口的L2VPN业务; Analysis by configuring the L2VPN service floor NE output traffic port, filtered off the floor L2VPN service business NE output port, or a virtual interface Layer Layer virtual sub-L2VPN service interface;

判断所过滤出的L2VPN业务是否为带桥接L2VPN业务; Determining whether the traffic is filtered out with a bridge L2VPN L2VPN service;

当判断所过滤出的L2VPN业务为带桥接L2VPN业务时,则将所述L2VPN业务确定为桥接业务。 When it is determined by the L2VPN service is filtered off with bridging L2VPN service, service L2VPN service will be identified as the bridge.

可选地,所述判断所过滤出的L2VPN业务是否为带桥接L2VPN业务的步骤包括: Alternatively, the determination of whether or not the L2VPN service is filtered off with bridging L2VPN service step comprises:

若所述L2VPN业务落地网元的输出业务的二层虚接口与三层虚接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务;或者 If the landing NE L2VPN service traffic output interface Layer Layer virtual virtual interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service; or

若所述L2VPN业务落地网元的输出业务的二层虚子接口与三层虚子接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务。 If the service floor L2VPN service NE output interface Layer Layer virtual child virtual sub-interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service.

可选地,所述通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接网元的步骤包括: Alternatively, the L2VPN service by analyzing the landing configuration NE output traffic port, identifies the network associated with the device bridge network element comprises:

将所述L2VPN业务落地网元的输出业务的二层虚接口所在的节点作为桥接网元;或者 Layer L2VPN service node said output floor NE service virtual interface where the network element as a bridge; or

将所述L2VPN业务落地网元的输出业务的二层虚子接口所在的节点作为桥接网元。 Layer virtual child node L2VPN service floor of the outgoing traffic of the network element is located as a bridge interface to the network element.

可选地,所述通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元的步骤包括: Alternatively, the protective group pseudowire analyzing the data, identifies the master network element and standby bridge bridging network from the bridge element in the network element comprises:

通过分析所述伪线保护组数据,过滤出单发双收伪线双归保护组; By analyzing the data protection group pseudowire, filtered dual-income single dual-homing protection group pseudowire;

根据所述单发双收伪线双归保护组,过滤出所述桥接业务服务层伪线是单发双收伪线双归保护组的第一桥接业务; The said single dual-income group pseudowire dual-homing protection, the filtered pseudo wire service layer bridging service is a first single dual-income bridged pseudo wire service dual-homing protection group;

将所述第一桥接业务上的两个桥接网元作为主用桥接网元和备用桥接网元。 The two bridges on the first network element as the master bridge bridging service and spare bridged NE NE.

可选地,所述根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接 网元进行巡检的步骤包括: Alternatively, the step in accordance with the bridge and the bridge NE service inspection programs, operations of the bridge and the bridge inspection network element comprises:

根据桥接业务和桥接网元的巡检方案,获取桥接业务对应的桥接网元、主用桥接网元以及备用桥接网元的配置参数及状态数据; The bridge and the bridge NE service inspection programs, corresponding to the service acquired bridge bridging NE, NE, and the primary standby bridge bridging NE configuration parameters and status data;

根据所述配置参数及状态数据对桥接业务和桥接网元进行巡检。 And a bridge for bridging NE service inspection according to the configuration parameters and status data.

可选地,所述桥接业务和桥接网元的巡检方案包括多个检查规则;其中,对于不同待检查设备的桥接业务和桥接网元的巡检方案调用不同的检查规则。 Alternatively, the bridge and the bridge service NE comprises a plurality of patrol inspection program rules; wherein, for the bridge and the bridge NE service patrol inspection apparatus of the embodiment to be different call different checking rules.

一种桥接业务和桥接网元的巡检装置,包括选择模块、获取L2VPN业务模块、识别模块和巡检模块,其中 One kind of a bridge and the bridge NE service inspection apparatus, comprising a selection module, obtaining L2VPN service module, the identification module, and inspection module, wherein

所述选择模块设置成:根据桥接业务和桥接网元的巡检方案,选择网络中待检查的设备; The selection module is configured to: according to the bridge and the bridge NE service patrol program, select devices in the network to be examined;

所述获取L2VPN业务模块设置成:获取途经所述设备的L2VPN业务; The L2VPN service acquisition module is configured to: acquire L2VPN service via the device;

所述识别模块设置成:通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务和桥接网元; The identification module is configured to: configuring the L2VPN service by analyzing landing NE output traffic port, identify the device associated with the network bridge and the bridge service network element;

所述巡检模块设置成:根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检。 The inspection module is configured to: according to the bridge and the bridge network traffic patrol program element, and a bridge on the bridge service network element polling.

可选地,该装置还包括:获取伪线保护组数据单元, Optionally, the apparatus further comprising: a protection group pseudowire data acquisition unit,

所述获取伪线保护组数据单元设置成:获取与所述设备相关联的伪线保护组数据;通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元。 The obtaining of data protection group pseudowire unit is configured to: acquire data protection group pseudowire associated with the device; by analyzing the data protection group pseudowire recognizes that the primary bridge network from the network element bridging element alternate bridging and network element.

可选地,所述识别模块设置成按照如下方式通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务: Alternatively, the identification module is arranged in the following manner by analyzing the configuration of the output traffic port landing L2VPN service NE, the network identification associated with the device bridge service:

通过分析所述L2VPN业务落地网元的输出业务端口的配置,过滤出所述L2VPN业务落地网元的输出业务端口为二层虚接口或二层虚子接口的L2VPN业务; Analysis by configuring the L2VPN service floor NE output traffic port, filtered off the floor L2VPN service business NE output port, or a virtual interface Layer Layer virtual sub-L2VPN service interface;

判断所过滤出的L2VPN业务是否为带桥接L2VPN业务; Determining whether the traffic is filtered out with a bridge L2VPN L2VPN service;

当判断所过滤出的L2VPN业务为带桥接L2VPN业务时,则将所述L2VPN业务确定为桥接业务。 When it is determined by the L2VPN service is filtered off with bridging L2VPN service, service L2VPN service will be identified as the bridge.

可选地,所述识别模块设置成按照如下方式判断所过滤出的L2VPN业务是否为带桥接L2VPN业务: Alternatively, the identification module is configured to judge as follows filtered out whether L2VPN services with bridges L2VPN service:

若所述L2VPN业务落地网元的输出业务的二层虚接口与三层虚接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务;或者 If the landing NE L2VPN service traffic output interface Layer Layer virtual virtual interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service; or

若所述L2VPN业务落地网元的输出业务的二层虚子接口与三层虚子接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务。 If the service floor L2VPN service NE output interface Layer Layer virtual child virtual sub-interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service.

可选地,所述识别模块设置成按照如下方式通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接网元的步骤包括: Alternatively, the identification module is arranged in the following manner by analyzing the configuration of the output traffic port landing L2VPN service NE, the network identification associated with the device bridge network element comprises:

将所述L2VPN业务落地网元的输出业务的二层虚接口所在的节点作为桥接网元;或者 Layer L2VPN service node said output floor NE service virtual interface where the network element as a bridge; or

将所述L2VPN业务落地网元的输出业务的二层虚子接口所在的节点作为桥接网元。 Layer virtual child node L2VPN service floor of the outgoing traffic of the network element is located as a bridge interface to the network element.

可选地,所述获取伪线保护组数据单元设置成按照如下方式通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元: Alternatively, the data acquisition unit protection group pseudowire arranged by analyzing the data protection group pseudowire, from the bridge to identify the network element follows the primary and standby bridge bridging NE NE:

通过分析所述伪线保护组数据,过滤出单发双收伪线双归保护组; By analyzing the data protection group pseudowire, filtered dual-income single dual-homing protection group pseudowire;

根据所述单发双收伪线双归保护组,过滤出所述桥接业务服务层伪线是单发双收伪线双归保护组的第一桥接业务; The said single dual-income group pseudowire dual-homing protection, the filtered pseudo wire service layer bridging service is a first single dual-income bridged pseudo wire service dual-homing protection group;

将所述第一桥接业务上的两个桥接网元作为主用桥接网元和备用桥接网元。 The two bridges on the first network element as the master bridge bridging service and spare bridged NE NE.

可选地,所述巡检模块设置成按照如下方式根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检: Alternatively, the inspection module is configured in the following manner in accordance with the bridge and the bridge NE service inspection programs, operations of the bridge and the bridge inspection network element:

根据桥接业务和桥接网元的巡检方案,获取桥接业务对应的桥接网元、主用桥接网元以及备用桥接网元的配置参数及状态数据; The bridge and the bridge NE service inspection programs, corresponding to the service acquired bridge bridging NE, NE, and the primary standby bridge bridging NE configuration parameters and status data;

根据所述配置参数及状态数据对桥接业务和桥接网元进行巡检。 And a bridge for bridging NE service inspection according to the configuration parameters and status data.

与相关技术相比较,本发明的有益效果在于: Compared with the related art, the beneficial effects of the present invention:

本发明技术方案中,用户可以定制巡检方案并可重用巡检方案,系统可以识别全网络中L2VPN桥接业务及桥接网元,完成全网络中桥接业务和桥接网元配置及状态检查。 Aspect of the present invention, the user can customize the patrol inspection program can reuse scheme, the whole system may identify network traffic L2VPN bridge and the bridge network element, to complete the whole network bridge and the bridge NE service configuration and status checks. 极大地降低了桥接业务和桥接网元巡检的人工投入成本,降低了桥接业务和桥接网元巡检的难度,提高了巡检的准确性和巡检的效率,大幅缩减了人力成本投入。 Greatly reduces bridging business and labor inspection bridge network element input costs, reduced bridging business and the difficulty of bridging inspection of network elements, improve the accuracy and efficiency of the inspection of the inspection, a significant reduction in labor cost inputs.

附图概述 Brief Description

图1是本发明实施例提供的一种桥接业务和桥接网元的巡检方法流程图; FIG 1 is a bridge and the bridge NE service patrol embodiment of a flowchart of a method embodiment of the present invention;

图2是本发明实施例提供的一种桥接业务和桥接网元的巡检装置的结构图; FIG 2 is a configuration diagram of a bridge and the bridge NE service inspection apparatus according to an embodiment of the present invention;

图3是本发明实施例提供的桥接业务和桥接网元的巡检系统的框架图; FIG 3 is a bridge frame bridging service and network element according to an embodiment of the inspection system of the present invention;

图4是本发明第一实施例提供的桥接业务和桥接网元的巡检方法的流程图; FIG 4 is a flowchart of a method of bridging service and inspection of the bridge network element a first embodiment of the present invention;

图5是本发明第二实施例提供的桥接业务和桥接网元的巡检方法的流程图。 5 is a flowchart of the method of inspection and service bridging bridged network element to a second embodiment of the present invention is provided.

本发明的较佳实施方式 Preferred embodiment of the present invention.

以下是对本文详细描述的主题的概述。 The following is an overview of the subject matter described in detail herein. 本概述并非是为了限制权利要求的保护范围。 This Summary is not intended to limit the scope of the claims.

以下结合附图对本发明的优选实施例进行详细说明,应当理解,以下所说明的优选实施例仅用于说明和解释本发明,并不用于限定本发明。 Preferred embodiments of the present invention, the following detailed description in conjunction with the accompanying drawings, it should be understood that the preferred embodiments described below are only used to illustrate and explain the present invention and are not intended to limit the present invention.

图1是本发明实施例提供的一种桥接业务和桥接网元的巡检方法流程图,如图1所示,包括以下步骤: FIG 1 is a flowchart of embodiments of the present invention, the inspection method of bridging and bridging service provided by the network element of the embodiment shown in Figure 1, comprising the steps of:

步骤S101:根据桥接业务和桥接网元的巡检方案,选择网络中待检查的设备; Step S101: The bridge and the bridge NE service patrol program, select devices in the network to be examined;

步骤S102:获取途经所述设备的L2VPN业务; The step S102: acquiring L2VPN service via the device;

步骤S103:通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务和桥接网元; Step S103: configuring the L2VPN service by analyzing landing NE output traffic port, identify the device associated with the network bridge and the bridge service network element;

步骤S104:根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检; Step S104: The bridge and the bridge NE service inspection programs, operations of the bridge and the bridge inspection network element;

其中,所述L2VPN业务是指二层虚拟专用网络业务。 Wherein said means L2VPN service layer 2 virtual private network service.

本发明实施例还包括:获取与所述设备相关联的伪线保护组数据;通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元。 Embodiments of the invention further comprises: obtaining a data protection group pseudowire associated with the device; by analyzing the data protection group pseudowire recognizes that the primary and standby bridge bridged network element from the network element in the bridge network element .

其中,所述的通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务包括:通过分析所述L2VPN业务落地网元的输出业务端口的配置,过滤出所述L2VPN业务落地网元的输出业务端口为二层虚接口或二层虚子接口的L2VPN业务;判断所过滤出的L2VPN业务是否为带桥接L2VPN业务;当判断所过滤出的L2VPN业务为带桥接L2VPN业务时,则将所述L2VPN业务确定为桥接业务。 Wherein said L2VPN service by analyzing the landing configuration NE output traffic port, identifies the network associated with the service bridge device comprising: configuring the L2VPN service by analyzing landing NE output traffic port filtered off the floor L2VPN service business NE output port L2VPN service Layer Layer virtual sub-interface or virtual interface; determining whether the traffic is filtered out with a bridge L2VPN L2VPN service; when it is judged by the L2VPN service filtered is bridged with L2VPN service, then the service is determined to bridge L2VPN service. 所述的判断所过滤出的L2VPN业务是否为带桥接L2VPN业务包括:若所述L2VPN业务落地网元的输出业务的二层虚接口与三层虚接口有一对一绑定关系,则判断所过滤出的L2VPN业务为带桥接L2VPN业务;或者若所述L2VPN业务落地网元的输出业务的二层虚子接口与三层虚子接口有一对一绑定关系,则判断所过滤出的L2VPN业务为带桥接L2VPN业务。 The determination whether the traffic is filtered out, and a bridged L2VPN L2VPN service comprises: if the NE floor L2VPN service traffic output interface Layer Layer virtual virtual interface has one binding relationship, it is determined whether the filter L2VPN service is out of the bridge with L2VPN services; or if the virtual sub-L2VPN Layer Layer interfaces with the virtual sub-interface service NE floor has one service export binding relationship, it is determined whether the traffic is filtered out, and a bridged L2VPN L2VPN service.

其中,所述的通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接网元包括:将所述L2VPN业务落地网元的输出业务的二层虚接口所在的节点作为桥接网元;或者将所述L2VPN业务落地网元的输出业务的二层虚子接口所在的节点作为桥接网元。 Wherein said L2VPN service by analyzing the landing configuration NE output traffic port, identifies the network associated with the network element bridging device comprising: said Layer-2 service floor L2VPN service NE output where the virtual interface node as a bridge network element; Layer virtual child nodes or the floor L2VPN service business NE output interface is located as a bridge network element. 所述的通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元包括:通过分析所述伪线保护组数据,过滤出单发双收伪线双归 保护组;根据所述单发双收伪线双归保护组,过滤出所述桥接业务服务层伪线是单发双收伪线双归保护组的第一桥接业务;将所述第一桥接业务上的两个桥接网元作为主用桥接网元和备用桥接网元。 Said protection line by analyzing the pseudo data set, identifying the bridge from the master network element NE and standby bridge bridged network element comprising: a dummy line protection by analyzing the set of data, dual-income filtered single dual homing protection group pseudowire; single dual-income according to the dual-homing protection group pseudowire, filtered off the bridge business service layer is a first pseudo wire service bridge dual-income single dual-homing protection pseudo wire group; the He said two bridges on a first network element as the master bridge bridging service and spare bridged NE NE.

其中,根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检包括:根据桥接业务和桥接网元的巡检方案,获取桥接业务对应的桥接网元、主用桥接网元以及备用桥接网元的配置参数及状态数据;根据所述配置参数及状态数据对桥接业务和桥接网元进行巡检。 Wherein, according to the bridge and the bridge NE service inspection programs, operations of the bridge and the bridge inspection network element comprising: the bridge and the bridge NE service inspection programs, corresponding to the service acquired bridge bridging NE, the master bridge and a spare bridged NE NE configuration parameters and status data; according to the configuration parameters and status data service bridge and the bridge network element polling. 具体地说,所述桥接业务和桥接网元的巡检方案包括多个检查规则;其中,对于不同待检查设备的桥接业务和桥接网元的巡检方案调用不同的检查规则。 Specifically, the bridge and the bridge service NE comprises a plurality of patrol inspection program rules; wherein, for the bridge and the bridge NE service patrol inspection apparatus of the embodiment to be different call different checking rules.

图2是本发明实施例提供的一种桥接业务和桥接网元的巡检装置的结构图,如图2所示,包括:选择模块201、获取L2VPN业务模块202、识别模块203以及巡检模块204。 FIG 2 is a configuration diagram of an inspection apparatus of the bridge and the bridge service network element according to an embodiment of the present invention, shown in Figure 2, comprising: a selection module 201, L2VPN service acquisition module 202, identification module 203 and the inspection module 204.

所述选择模块201,设置成:根据桥接业务和桥接网元的巡检方案,选择网络中待检查的设备; The selection module 201, configured to: The bridge and the bridge NE service patrol program, select devices in the network to be examined;

所述获取L2VPN业务模块202,设置成:获取途经所述设备的L2VPN业务; The L2VPN service acquisition module 202, configured to: obtain L2VPN service via the device;

所述识别模块203,设置成:通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务和桥接网元; The identification module 203, configured to: configuring the L2VPN service by analyzing landing NE output traffic port, identify the device associated with the network bridge and the bridge service network element;

所述巡检模块204,设置成:根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检。 The inspection module 204, configured to: The bridge and the bridge NE service inspection programs, operations of the bridge and the bridge network element polling.

本发明实施例还包括获取伪线保护组数据单元,设置成:获取与所述设备相关联的伪线保护组数据;其中,通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元。 Embodiment of the present invention further comprises a protection group pseudowire data acquisition unit arranged to: protection group pseudowire acquiring data associated with the device; and wherein, by analyzing the data protection group pseudowire, from the bridge network element identify the primary and standby bridge bridging NE NE.

可选地,所述识别模块设置成按照如下方式通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务: Alternatively, the identification module is arranged in the following manner by analyzing the configuration of the output traffic port landing L2VPN service NE, the network identification associated with the device bridge service:

通过分析所述L2VPN业务落地网元的输出业务端口的配置,过滤出所述L2VPN业务落地网元的输出业务端口为二层虚接口或二层虚子接口的 L2VPN业务; Analysis by configuring the L2VPN service floor NE output traffic port, filtered off the floor L2VPN service business NE output port, or a virtual interface Layer Layer virtual sub-L2VPN service interface;

判断所过滤出的L2VPN业务是否为带桥接L2VPN业务; Determining whether the traffic is filtered out with a bridge L2VPN L2VPN service;

当判断所过滤出的L2VPN业务为带桥接L2VPN业务时,则将所述L2VPN业务确定为桥接业务。 When it is determined by the L2VPN service is filtered off with bridging L2VPN service, service L2VPN service will be identified as the bridge.

可选地,所述识别模块设置成按照如下方式判断所过滤出的L2VPN业务是否为带桥接L2VPN业务: Alternatively, the identification module is configured to judge as follows filtered out whether L2VPN services with bridges L2VPN service:

若所述L2VPN业务落地网元的输出业务的二层虚接口与三层虚接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务;或者 If the landing NE L2VPN service traffic output interface Layer Layer virtual virtual interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service; or

若所述L2VPN业务落地网元的输出业务的二层虚子接口与三层虚子接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务。 If the service floor L2VPN service NE output interface Layer Layer virtual child virtual sub-interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service.

可选地,所述识别模块设置成按照如下方式通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接网元的步骤包括: Alternatively, the identification module is arranged in the following manner by analyzing the configuration of the output traffic port landing L2VPN service NE, the network identification associated with the device bridge network element comprises:

将所述L2VPN业务落地网元的输出业务的二层虚接口所在的节点作为桥接网元;或者 Layer L2VPN service node said output floor NE service virtual interface where the network element as a bridge; or

将所述L2VPN业务落地网元的输出业务的二层虚子接口所在的节点作为桥接网元。 Layer virtual child node L2VPN service floor of the outgoing traffic of the network element is located as a bridge interface to the network element.

可选地,所述获取伪线保护组数据单元设置成按照如下方式通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元: Alternatively, the data acquisition unit protection group pseudowire arranged by analyzing the data protection group pseudowire, from the bridge to identify the network element follows the primary and standby bridge bridging NE NE:

通过分析所述伪线保护组数据,过滤出单发双收伪线双归保护组; By analyzing the data protection group pseudowire, filtered dual-income single dual-homing protection group pseudowire;

根据所述单发双收伪线双归保护组,过滤出所述桥接业务服务层伪线是单发双收伪线双归保护组的第一桥接业务; The said single dual-income group pseudowire dual-homing protection, the filtered pseudo wire service layer bridging service is a first single dual-income bridged pseudo wire service dual-homing protection group;

将所述第一桥接业务上的两个桥接网元作为主用桥接网元和备用桥接网元。 The two bridges on the first network element as the master bridge bridging service and spare bridged NE NE.

可选地,所述巡检模块设置成按照如下方式根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检: Alternatively, the inspection module is configured in the following manner in accordance with the bridge and the bridge NE service inspection programs, operations of the bridge and the bridge inspection network element:

根据桥接业务和桥接网元的巡检方案,获取桥接业务对应的桥接网元、主用桥接网元以及备用桥接网元的配置参数及状态数据; The bridge and the bridge NE service inspection programs, corresponding to the service acquired bridge bridging NE, NE, and the primary standby bridge bridging NE configuration parameters and status data;

根据所述配置参数及状态数据对桥接业务和桥接网元进行巡检。 And a bridge for bridging NE service inspection according to the configuration parameters and status data.

可选地,所述桥接业务和桥接网元的巡检方案包括多个检查规则;其中,所述巡检模块对于不同待检查设备的桥接业务和桥接网元的巡检方案调用不同的检查规则。 Alternatively, the bridge and the bridge service NE comprises a plurality of patrol inspection program rules; wherein said inspection module checks rules call for different operational bridge and the bridge network elements of different programs to be examined inspection apparatus .

图3显示了本发明实施例提供的桥接业务和桥接网元的巡检系统的框架图,如图3所示,包括:定制巡检方案模块301,采集数据模块302、识别桥接业务和桥接网元模块303、巡检桥接业务和桥接网元模块304。 Figure 3 shows the frame of FIG inspection system bridge and the bridge service network element according to an embodiment of the present invention, shown in Figure 3, comprising: a custom logging scheme module 301, data acquisition module 302, identifying the bridge and the bridge network traffic meta-module 303, a bridge inspection services and network elements bridging module 304.

所述定制巡检方案模块301,根据现场巡检的要求,选择检查规则,定制桥接业务巡检方案,一个方案中支持选择多项检查规则,支持定制多套巡检方案,巡检方案可以保存为模板,方案模板可以重用。 The inspection program customization module 301, according to the site requirements of the inspection, inspection rule selected, custom business bridge inspection program, a program selection support multiple check rules, supporting custom sets of inspection program, the program may be stored patrol as a template, program templates can be reused. 巡检方案支持检查多种设备类型,检查多端设备。 Check the inspection program supports multiple device types, check multiport devices.

所述采集数据模块302,根据定制的巡检方案,采集网络中基站业务(主要指L2VPN业务,下文简称为L2VPN业务,采集与所选设备关联的伪线保护组。 The data acquisition module 302, according to the customized patrol, the acquisition network station traffic (mainly L2VPN service, hereinafter referred to as L2VPN service, the acquisition device associated with the selected protection group pseudowire.

所述识别桥接业务和桥接网元模块303,系统从采集的L2VPN业务中,识别出L2VPN桥接业务和桥接网元。 The bridge identified service module 303 and the bridge network element, the system collected from L2VPN service, the service identified L2VPN bridge and the bridge network element. 系统从采集的伪线保护组中过滤出单发双收伪线双归保护组。 The system was filtered off dual-income single dual-homing protection pseudo wire group from a protected group pseudowire acquired in. 通过L2VPN桥接业务与单发双收伪线保护组的对应关系,识别出互为主备的桥接网元。 Hair correspondence relationship between dual-income group pseudowire protected by a single business L2VPN bridge, the bridge network element identified in the master spare. 一个桥接网元上有多条L2VPN桥接业务经过,有多对桥接对;并且在全网中,桥接网元会有多个,并且多数互为主备,成对出现。 A plurality bar element on a bridged network traffic passes L2VPN bridge, bridging a plurality pairs; and in the entire network, the bridge will have a plurality of network elements, and most mutual backup, in pairs. 系统会识别出现网中全部与选择设备相关的L2VPN桥接业务、桥接网元、互为主备桥接网元。 The system identifies all appear related to the selected network device L2VPN service bridge, the bridge network element, NE bridged mutual backup.

所述巡检桥接业务和桥接网元模块304,调用巡检方案中检查规则处理流程,检查桥接业务和桥接网元。 The bridge inspection service NE and the bridge module 304, calls the inspection process flow scheme check rules to check the bridge and bridge service NE. 根据检查规则的需要可以从多途径获取数据源,例如,从网管上或者设备上获取与L2VPN桥接业务对应的桥接网元、主用桥接网元、备用桥接网元的配置及状态数据。 Data may be obtained from a multi-channel source needed to check the rules, for example, the bridge acquires L2VPN service corresponding to bridge the NMS from network elements or devices, the primary bridge NE NE standby bridge configuration and status data. 根据检查规则,检查桥接 业务配置数据是否符合配置规范,检查主用桥接网元、备用桥接网元之间关联数据是否符合配置规范,检查桥接业务运行状态。 The checking rule, the bridge checks whether the service configuration data configuration specification, check whether the correlation data between the primary bridge NE NE alternate bridge configuration meets specifications, the bridge inspection service running. 系统会检查覆盖所有与选择设备相关的L2VPN桥接业务。 The system will check to cover all related to the selected device L2VPN bridge business. 如果巡检方案中选择了多个检查规则,系统会调用多个检查规则处理流程,执行检查。 If the inspection program selected multiple inspection rules, the system will call multiple inspection rules processing process, perform the checks. 检查规则不同,获取的数据源不同,处理流程也不同。 Different checking rules, different data acquisition sources, the processing flow is different.

图4显示了本发明第一实施例提供的桥接业务和桥接网元的巡检方法的流程图,如图4所示,包括以下步骤: FIG. 4 shows a flow chart of a bridged service inspection and the bridge network element according to a first embodiment of the present invention, shown in Figure 4, comprising the steps of:

步骤S401:定制巡检方案; Step S401: customized inspection programs;

用户根据现场巡检的要求,选择检查规则,定制桥接业务巡检方案,一个方案中支持选择多项检查规则,支持定制多套巡检方案,巡检方案可以保存为模板,方案模板可以重用。 Site inspection in accordance with the requirements of the user, select the inspection rule, customized business bridge inspection program, select a program to support a number of checks rules to support multiple sets of customized inspection programs, inspection schemes can be saved as a template, program templates can be reused. 巡检方案支持检查多种设备类型,检查多端设备。 Check the inspection program supports multiple device types, check multiport devices.

步骤S402:采集L2VPN业务和伪线保护组; Step S402: Acquisition L2VPN service and protection group pseudowire;

系统根据定制的巡检方案,采集网络中途径所选设备的L2VPN业务和与所选设备关联的伪线保护组。 The inspection system of customized solutions, the chosen route of collecting network L2VPN services and devices associated with the selected device protection group pseudowire.

步骤S403:识别桥接业务和桥接网元; Step S403: service identification bridge and the bridge network element;

系统分析L2VPN业务,找到每条L2VPN业务的业务落地网元和输出业务端口,过滤出业务落地网元的输出业务端口为二层虚接口或虚子接口的L2VPN业务。 L2VPN service system analysis, to find each service floor L2VPN service NE and output port traffic, the traffic filter floor NE output port Layer virtual service interface or virtual sub-L2VPN service interface. 如果此二层虚接口与三层虚接口有一对一绑定关系,及相应二层虚子接口与三层虚子接口有对应关系,则认为此类L2VPN业务为带桥接的业务,即,桥接业务。 If there is one virtual interface binding relationship between this story and Layer 3 virtual interfaces, and the corresponding virtual Layer Layer 3 virtual sub-interface sub-interface corresponding relationship is considered such L2VPN business with bridging business, namely, bridging business. 输出业务的二层虚接口所在节点为桥接网元。 Layer virtual interface output node where traffic is bridged network element. 系统分析伪线保护组数据,过滤出单发双收伪线双归保护组。 Analysis system data protection group pseudowire, filtered single dual-income group pseudowire dual homing protection. 再从带桥接的L2VPN业务中过滤出其服务层伪线是单发双收的伪线双归保护组的L2VPN业务。 Then filtered L2VPN service PW service layer which is a single receiver could PW from the dual-homing protection group with the bridging L2VPN service. 如果此类L2VPN业务上有两个桥接网元,则这两个桥接网元为互为主备的桥接网元。 If there are two bridge network element, the network element which bridges the two L2VPN services such as mutual backup bridge NE. 目前网络中多使用多对一VSI、或者多对一VLAN汇聚的桥接业务配置方案,即,来自不同基站的多条业务汇聚并桥接到相同节点的不同桥接关系对上。 In the current network the VSI plurality Use many, or many-to-service VLAN aggregation bridge configuration scheme, i.e., multiple services from different base stations on different aggregation bridge and bridge to the relationship between the same node. 因此,一个桥接网元上会有多条带桥接的L2VPN业务经过,一个桥 接网元上会有多对桥接关系对,在全网中,桥接网元又会有多个,而且多是互为主备的成对出现。 Therefore, there will be a bridged network bridging multiple bands on the yuan L2VPN services through a network element on the bridge there will be more to bridge relations, in the entire network, bridging network elements and there will be more, but mostly each other the master and slave pairs. 系统需要识别出网络中全部与选择设备相关的带桥接的L2VPN业务、桥接网元、互为主备桥接网元。 The system needs to identify all of the network associated with the selected device with bridged L2VPN service, bridged network element, NE bridged mutual backup.

步骤S404:调用巡检处理流程检查桥接业务和桥接网元。 Step S404: call processing flow inspection to check the bridge bridging business and network elements.

系统根据巡检方案,调用相应的检查规则处理流程。 The inspection system embodiment, call processing flow corresponding check rules. 根据检查规则的需要可以从多个途径获取数据源,例如,从网管系统上或者设备上获取与L2VPN桥接业务对应的桥接网元、主用桥接网元、备用桥接网元的各项配置参数及状态数据。 The rules may be acquired from a plurality of inspection required route data sources, e.g., the bridge acquires L2VPN service corresponding to the NE from the bridge on the network management system or a device, the configuration parameters of the master bridge NE, NE and standby bridge state data. 依据检查规则,检查桥接业务和桥接网元配置数据是否符合配置规范,检查主用桥接网元、备用桥接网元之间关联数据是否符合配置规范,检查桥接业务运行状态。 Rule based inspection, and bridge inspection bridging service configuration data whether the NE configuration specifications, checking the master NE bridged, the bridging association between the secondary data element whether the network configuration specifications, the bridge inspection service running. 系统会检查所有与选择设备相关的L2VPN桥接业务。 The system checks all related to the selected device L2VPN bridge business. 如果巡检方案中选择了多个检查规则,系统会调用多个检查规则处理流程,执行检查。 If the inspection program selected multiple inspection rules, the system will call multiple inspection rules processing process, perform the checks. 检查规则不同,获取的数据源不同,处理流程也不同。 Different checking rules, different data acquisition sources, the processing flow is different.

图5显示了本发明第二实施例提供的桥接业务和桥接网元的巡检方法的流程图,如图5所示,首先定制一个巡检方案,包含一个检查规则:检查网络中桥接业务双网关配置是否符合规范。 5 shows a flowchart of a method of bridging service and inspection bridged network element to a second embodiment of the present invention provides, as shown in FIG. 5, a first custom inspection program, comprising a rule check: Check network traffic bridged bis gateway configuration for compliance. 桥接业务双网关,指带桥接的L2VPN业务上的两个互为主备的桥接网元。 Bridge Service double gateway network element means bridging the two cross-bridging with L2VPN services based device. 本例采用多对一VLAN汇聚的桥接业务配置方案,一个桥接网元上有多条L2VPN桥接业务经过,一个桥接网元上会有多对桥接对应关系,并且在全网中有多个桥接网元。 How the present embodiment uses a bridge configuration scheme many-service VLAN aggregation, a bridge bridging L2VPN service NE via article, there will be a network element on the bridge bridging pairs of corresponding relationship, and a plurality of network bridge in the entire network yuan. 具体包括以下步骤: It includes the following steps:

步骤S501:用户定制一个巡检方案,选择桥接业务双网关配置检查检查规则。 Step S501: a customized inspection program, select bridged bis gateway configuration service inspection rule check.

步骤S502:将定制的巡检方案保存为模板,可以重用。 Step S502: Save the customized inspection program as a template that can be reused.

步骤S503:根据巡检方案,选择网络中待检查的设备,支持多种设备类型。 Step S503: According to the inspection program, select devices in the network to be checked, supports multiple device types. 本实例选择网络中全部的设备。 In the present example all the selected network devices.

步骤S504:根据选择的设备集合,获取与所选设备关联的伪线保护组。 Step S504: The set of equipment selected, the protective group for the dummy line associated with the selected device.

步骤S505:系统根据选择的设备集合,获取途径所选设备的L2VPN业务。 Step S505: The collection device selection system, the chosen route of L2VPN service acquisition device.

步骤S506:分析L2VPN业务,查找每条业务的业务落地网元和输出业务端口。 Step S506: analysis L2VPN service, find business landing NE and output ports of each business service.

步骤S507:过滤出业务落地网元的输出业务端口为二层虚接口或虚子接口的L2VPN业务。 Step S507: service floor filtered NE Layer virtual output traffic port interface or virtual sub-L2VPN service interface. 如果采集的L2VPN业务的业务落地网元的输出业务端口均不是二层虚接口,则流程结束。 If the acquired service floor NE L2VPN services are not output traffic ports Layer virtual interface, then flow ends.

步骤S508:检查L2VPN业务的业务落地网元的输出业务的二层虚接口是否与三层虚接口一对一绑定。 Step S508: check L2VPN service Layer 2 service landing NE output interface is a virtual business and Layer 3 virtual interfaces-one binding. 如果没有一对一绑定关系,则流程结束,如果有则向下执行步骤S509。 If no-one binding relationship, the process ends, if there is down to step S509.

步骤S509:过滤出业务落地网元的输出业务二层虚接口与三层虚接口有一对一绑定关系的L2VPN业务,此类L2VPN业务为带桥接的业务,即,桥接业务。 Step S509: service floor NE filtered output operations with the virtual interface Layer Layer L2VPN service virtual interface has one binding relationship, such as L2VPN services with bridging operations, i.e., bridging services.

步骤S510:L2VPN桥接业务输出业务的二层虚接口所在节点为桥接网元。 Step S510: the node where the virtual interface Layer L2VPN service bridge output service is a bridged network element.

步骤S511:系统分析伪线保护组数据,过滤出单发双收伪线双归保护组。 Step S511: The system analyzes data protection group pseudowire, filtered single dual-income group pseudowire dual homing protection.

步骤S512:分析带桥接的L2VPN业务集合,过滤出其服务层伪线是单发双收伪线双归保护组的L2VPN业务。 Step S512: Analysis L2VPN service set bridged with filtered pseudo wire service layer which is a single dual-income L2VPN service PW dual-homing protection group. 如果没有找到此类L2VPN业务,即,没有找可能带双网关的L2VPN业务,则本实例流程结束。 If such L2VPN service not found, that is, there is no possibility to find L2VPN services with dual gateway, then this instance the process ends.

步骤S513:如果其服务层伪线是单发双收伪线双归保护组的L2VPN业务上有两个桥接网元,则是带双网关的L2VPN桥接业务集合。 Step S513: If it is a pseudo wire service layer has two single bridges NE L2VPN service on dual-income dual-homing protection pseudo wire group are bridged with a double set of services gateway L2VPN.

步骤S514:每个带双网关的L2VPN桥接业务上有两个桥接网元,这两个桥接网元在当前业务中是互为主备的桥接网元。 Step S514: NE has two bridges each with double L2VPN service gateway bridge, bridging the two mutual backup network element is a network element in the bridge current business. 系统会识别出所有的主备桥接节点对。 The system will identify all standby bridging node pair.

步骤S515:根据定制的巡检方案中选择的检查规则的要求,系统从网管上获取桥接网元的设备类型。 Step S515: The customized programs selected patrol inspection rules, system acquisition bridged network element from the network management device type.

步骤S516:判断桥接网元的设备类型。 Step S516: determining the device type of bridged NE.

步骤S517:如果桥接网元是设备类型1,则系统分别向主用桥接网元和备用桥接网元下发命令,查询VRRP(Virtual Redundancy Routing Protocol,虚拟路由器冗余协议)配置状态。 Step S517: If the network element is a bridge type device 1, the system configuration state respectively and the alternate bridge bridging NE NE main transmitter command to query the VRRP (Virtual Redundancy Routing Protocol, Virtual Router Redundancy Protocol).

步骤S518:比较主用桥接网元和备用桥接网元的VRRP状态,状态是否一致,是否均等于目标值。 Step S518: Compare the primary and standby bridge bridging NE NE VRRP state, the state is consistent, whether the target value are equal.

步骤S519:如果主用桥接网元和备用桥接网元的VRRP状态一致并且均等于目标值,则认为当前桥接业务的双网关配置符合配置规范。 Step S519: If the main and standby bridge bridging NE NE VRRP state consistency and the target value are equal, the current that bridged bis gateway configuration service configuration specification compliance.

步骤S520:如果不是步骤S519的情况,则认为当前桥接业务的双网关配置不符合配置规范。 Step S520: If this is not the step S519, it is considered dual gateway configuration bridging service does not meet current configuration specifications.

步骤S521:如果桥接网元是不设备类型1,系统查询主用桥接网元上桥接关系中三层虚子接口的IP、MAC(Media Access Control,媒体访问控制)地址、掩码地址。 Step S521: If the bridge is not the device type of network element 1, a system query IP bridging relationship on the master network element bridging virtual sub-interface Layer, MAC (Media Access Control, media access control) address, mask address. 系统查询备用桥接网元上桥接关系中三层虚子接口的IP、MAC、掩码地址。 System queries bridge bridging relationship on an alternate virtual NE subinterface IP Layer, MAC, address mask.

步骤S522:比较步骤S521中查询到的主用桥接网元的IP、MAC、掩码地址与备用桥接网元的IP、MAC、掩码地址,是否对应相等,即,是否是主用桥接网元的IP等于备用桥接网元的IP,、主用桥接网元的MAC等于备用桥接网元的MAC,主用桥接网元的掩码地址等于备用桥接网元的掩码地址。 Step S522: Compare the query in step S521 to the master NE bridged IP, MAC, address to the standby bridged mask NE IP, MAC, address mask, corresponds equal, i.e., whether the primary bridge NE IP is equal to an IP bridge backup master ,, NE NE bridged alternate MAC is the MAC bridged network element, NE primary bridged mask address equal to the standby bridged NE mask address.

步骤S523:如果步骤S522中查询到的主用桥接网元的IP、MAC、掩码地址与备用桥接网元的IP、MAC、掩码地址,是对应相等的,则认为当前桥接业务的双网关配置符合配置规范。 Step S523: If the query in step S522 to the master bridge IP NE, MAC, address to the standby bridged mask NE IP, MAC, address mask, corresponding equal, that the current bridge service gateway bis configuration meets the configuration specification.

步骤S524:如果步骤S522中查询到的主用桥接网元的IP、MAC、掩码地址与备用桥接网元的IP、MAC、掩码地址,不是对应相等的,则认为当前桥接业务的双网关配置不符合配置规范。 Step S524: If the query in step S522 to the master bridge IP NE, MAC, address to the standby bridged mask NE IP, MAC, address mask, corresponding to not equal, that the current service bridged bis Gateway configuration configuration does not meet specifications.

步骤S525:判断是否检查完网络中所有的桥接业务的双网关配置。 Step S525: determining whether all of the network have been checked bridged bis gateway configuration service. 如果没有检查完毕,则进入步骤S515继续执行,如果检查完毕,则结束流程。 If not checked, then proceeds to step S515 to continue, if the inspection is completed, the process ends.

综上所述,本发明实施例通过分析业务落地网元的输出业务端口来识别桥接业务和桥接网元,即,输出业务端口是否是二层虚接口或虚子接口,相应二层虚接口与三层虚接口是否有一对一绑定关系,及相应二层虚子接口与三层虚子接口是否有对应关系。 In summary, embodiments of the present invention by analyzing the service floor NE identified output traffic port bridge and the bridge service NE, i.e., whether the output traffic port Layer virtual sub-interface or virtual interface, and three virtual interfaces corresponding Layer if there is one layer virtual interface binding relationship, and the corresponding virtual sub-layer layer interfaces with the virtual sub-interfaces if there is correspondence. 可选择多个处理流程检查桥接业务、桥接网元、及主备桥接网元关联的多个配置项。 A plurality of selectable items arranged a plurality of business process flow checks the bridge, the bridge network element and associated standby membered bridged network. 可以定制巡检方案,并且巡检方案 可形成模板支持巡检方案重用。 It can be customized inspection program and inspection program may support the form template inspection program reuse.

综上所述,本发明技术方案具有以下技术效果: In summary, the technical solution of the present invention has the following technical effects:

本发明技术方案中,用户可以定制巡检方案并可重用巡检方案,系统可以识别网络中L2VPN桥接业务及桥接网元,完成全网络中桥接业务和桥接网元配置及状态检查。 Aspect of the present invention, the user can customize the patrol inspection program can reuse scheme, the system may identify network traffic L2VPN bridge and the bridge network element, to complete the whole network bridge and the bridge NE service configuration and status checks. 极大地降低了桥接业务和桥接网元巡检的人工投入成本,降低了桥接业务和桥接网元巡检的难度,提高了巡检的效率,提高了巡检的准确性。 Greatly reduces bridging business and labor inspection bridge network element input costs, reduced bridging business and the difficulty of bridging inspection of network elements, improve the efficiency of inspection, improve the accuracy of the inspection.

本发明实施例还公开了一种计算机程序,包括程序指令,当该程序指令被计算机执行时,使得该计算机可执行上述任意的桥接业务和桥接网元的巡检方法。 Embodiments of the present invention also discloses a computer program, comprising program instructions, the program instructions when executed by a computer, such computer-executable inspection method of any of the above services and bridging bridged network element.

本发明实施例还公开了一种载有所述的计算机程序的载体。 Embodiments of the present invention also discloses a carrier of carrying the computer program.

在阅读并理解了附图和详细描述后,可以明白其他方面。 Upon reading and understanding the detailed description and the accompanying drawings, it is understood other.

本领域普通技术人员可以理解上述实施例的全部或部分步骤可以使用计算机程序流程来实现,所述计算机程序可以存储于一计算机可读存储介质中,所述计算机程序在相应的硬件平台上(如系统、设备、装置、器件等)执行,在执行时,包括方法实施例的步骤之一或其组合。 Those of ordinary skill in the art understand that all or part of the steps of the above-described embodiments may be implemented using a computer program process, the computer program may be stored in a computer-readable storage medium, the computer program on the respective hardware platform (e.g. system, apparatus, equipment, device) to perform, when executed, the method comprising the steps of the one embodiment or a combination thereof.

可选地,上述实施例的全部或部分步骤也可以使用集成电路来实现,这些步骤可以被分别制作成一个个集成电路模块,或者将它们中的多个模块或步骤制作成单个集成电路模块来实现。 Alternatively, all or part of the steps of the above-described embodiments may be implemented using an integrated circuit, these steps may be made into one integrated circuit modules, or by making them into a plurality of modules or steps single integrated circuit module achieve. 这样,本发明不限制于任何特定的硬件和软件结合。 Thus, the present invention is not limited to any particular hardware and software combination.

上述实施例中的各装置/功能模块/功能单元可以采用通用的计算装置来实现,它们可以集中在单个的计算装置上,也可以分布在多个计算装置所组成的网络上。 Each of the above embodiments of the apparatus / function module / function unit general purpose computing devices may be employed to implement, they can be integrated on a single computing device or distributed in a network composed of multiple computing devices.

上述实施例中的各装置/功能模块/功能单元以软件功能模块的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。 When each of the above-described embodiments of the apparatus / function module / functional unit is implemented as an independent product sold or used in the form of functional software modules may be stored in a computer-readable storage medium. 上述提到的计算机可读取存储介质可以是只读存储器,磁盘或光盘等。 The above-mentioned computer-readable storage medium may be a read-only memory, magnetic or optical disk.

任何熟悉本技术领域的技术人员在本发明揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本发明的保护范围之内。 Any skilled in the art in the art within the technical scope of the present invention is disclosed, variations or replacement that can be easily, shall fall within the protection scope of the present invention. 因此,本发明的保护范围应以权利要求所述的保护范围为准。 Accordingly, the scope of the present invention should be the scope of the claims and their equivalents.

工业实用性 Industrial Applicability

本发明技术方案中,用户可以定制巡检方案并可重用巡检方案,系统可以识别全网络中L2VPN桥接业务及桥接网元,完成全网络中桥接业务和桥接网元配置及状态检查。 Aspect of the present invention, the user can customize the patrol inspection program can reuse scheme, the whole system may identify network traffic L2VPN bridge and the bridge network element, to complete the whole network bridge and the bridge NE service configuration and status checks. 极大地降低了桥接业务和桥接网元巡检的人工投入成本,降低了桥接业务和桥接网元巡检的难度,提高了巡检的准确性和巡检的效率,大幅缩减了人力成本投入。 Greatly reduces bridging business and labor inspection bridge network element input costs, reduced bridging business and the difficulty of bridging inspection of network elements, improve the accuracy and efficiency of the inspection of the inspection, a significant reduction in labor cost inputs. 因此本发明具有很强的工业实用性。 Therefore, the present invention has a strong industrial applicability.

Claims (15)

  1. 一种桥接业务和桥接网元的巡检方法,包括以下步骤: One kind of bridging service and inspection of the bridge network element, comprising the steps of:
    根据桥接业务和桥接网元的巡检方案,选择网络中待检查的设备; The bridge and the bridge NE service inspection programs, select devices in the network to be examined;
    获取途经所述设备的L2VPN业务; Acquiring L2VPN service via the device;
    通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务和桥接网元; By analyzing the output port of said service configuration landing L2VPN service NE, identify the device associated with the network bridge and the bridge service network element;
    根据所述桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检; The bridged and the bridging NE service inspection programs, operations of the bridge and the bridge inspection network element;
    其中,所述L2VPN业务是指二层虚拟专用网络业务。 Wherein said means L2VPN service layer 2 virtual private network service.
  2. 根据权利要求1所述的桥接业务和桥接网元的巡检方法,该方法还包括: The bridge and the bridge NE service inspection method according to claim 1, the method further comprising:
    获取与所述设备相关联的伪线保护组数据; Protection group pseudowire data acquisition associated with the device;
    通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元。 By analyzing the data protection group pseudowire recognizes that the primary and standby bridge bridging NE NE from the bridge network element.
  3. 根据权利要求2所述的桥接业务和桥接网元的巡检方法,其中,所述通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务的步骤包括: The bridge and the bridge NE service inspection method according to claim 2, wherein said configuration by analyzing the L2VPN service floor NE output traffic port, identifies the network associated with the device bridge service the steps include:
    通过分析所述L2VPN业务落地网元的输出业务端口的配置,过滤出所述L2VPN业务落地网元的输出业务端口为二层虚接口或二层虚子接口的L2VPN业务; Analysis by configuring the L2VPN service floor NE output traffic port, filtered off the floor L2VPN service business NE output port, or a virtual interface Layer Layer virtual sub-L2VPN service interface;
    判断所过滤出的L2VPN业务是否为带桥接L2VPN业务; Determining whether the traffic is filtered out with a bridge L2VPN L2VPN service;
    当判断所过滤出的L2VPN业务为带桥接L2VPN业务时,则将所述L2VPN业务确定为桥接业务。 When it is determined by the L2VPN service is filtered off with bridging L2VPN service, service L2VPN service will be identified as the bridge.
  4. 根据权利要求3所述的桥接业务和桥接网元的巡检方法,其中,所述判断所过滤出的L2VPN业务是否为带桥接L2VPN业务的步骤包括: The bridge and the bridge NE service inspection method according to claim 3, wherein said determining whether the traffic is filtered out, and a bridged L2VPN L2VPN service comprises:
    若所述L2VPN业务落地网元的输出业务的二层虚接口与三层虚接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务;或 者 If the landing NE L2VPN service traffic output interface Layer Layer virtual virtual interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service; or
    若所述L2VPN业务落地网元的输出业务的二层虚子接口与三层虚子接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务。 If the service floor L2VPN service NE output interface Layer Layer virtual child virtual sub-interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service.
  5. 根据权利要求3所述的桥接业务和桥接网元的巡检方法,其中,所述通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接网元的步骤包括: Bridge Service bridged network element and the inspection method according to claim 3, wherein said configuration by analyzing the L2VPN service floor NE output traffic port, identifies the network associated with the network bridge device element comprises:
    将所述L2VPN业务落地网元的输出业务的二层虚接口所在的节点作为桥接网元;或者 Layer L2VPN service node said output floor NE service virtual interface where the network element as a bridge; or
    将所述L2VPN业务落地网元的输出业务的二层虚子接口所在的节点作为桥接网元。 Layer virtual child node L2VPN service floor of the outgoing traffic of the network element is located as a bridge interface to the network element.
  6. 根据权利要求5所述的桥接业务和桥接网元的巡检方法,其中,所述通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元的步骤包括: The bridge and the bridge NE service inspection method according to claim 5, wherein said analyzing the data protection group pseudowire by identifying the primary and standby bridge NE bridged network from the bridge network element element comprises:
    通过分析所述伪线保护组数据,过滤出单发双收伪线双归保护组; By analyzing the data protection group pseudowire, filtered dual-income single dual-homing protection group pseudowire;
    根据所述单发双收伪线双归保护组,过滤出所述桥接业务服务层伪线是单发双收伪线双归保护组的第一桥接业务; The said single dual-income group pseudowire dual-homing protection, the filtered pseudo wire service layer bridging service is a first single dual-income bridged pseudo wire service dual-homing protection group;
    将所述第一桥接业务上的两个桥接网元作为主用桥接网元和备用桥接网元。 The two bridges on the first network element as the master bridge bridging service and spare bridged NE NE.
  7. 根据权利要求6所述的桥接业务和桥接网元的巡检方法,其中,所述根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检的步骤包括: The step of bridging service and inspection method bridged network element according to claim 6, wherein, according to the bridge and the bridge NE service inspection programs, operations of the bridge and the bridge inspection network element comprises:
    根据桥接业务和桥接网元的巡检方案,获取桥接业务对应的桥接网元、主用桥接网元以及备用桥接网元的配置参数及状态数据; The bridge and the bridge NE service inspection programs, corresponding to the service acquired bridge bridging NE, NE, and the primary standby bridge bridging NE configuration parameters and status data;
    根据所述配置参数及状态数据对桥接业务和桥接网元进行巡检。 And a bridge for bridging NE service inspection according to the configuration parameters and status data.
  8. 根据权利要求7所述的桥接业务和桥接网元的巡检方法,其中,所述桥接业务和桥接网元的巡检方案包括多个检查规则;其中,对于不同待检查设备的桥接业务和桥接网元的巡检方案调用不同的检查规则。 The bridge and the bridge NE service inspection method according to claim 7, wherein the bridge and the bridge service NE comprises a plurality of patrol inspection program rules; wherein, for bridging the different services to be examined and the bridge devices NE patrol program calls different inspection rules.
  9. 一种桥接业务和桥接网元的巡检装置,包括选择模块、获取L2VPN业务模块、识别模块和巡检模块,其中 One kind of a bridge and the bridge NE service inspection apparatus, comprising a selection module, obtaining L2VPN service module, the identification module, and inspection module, wherein
    所述选择模块设置成:根据桥接业务和桥接网元的巡检方案,选择网络中待检查的设备; The selection module is configured to: according to the bridge and the bridge NE service patrol program, select devices in the network to be examined;
    所述获取L2VPN业务模块设置成:获取途经所述设备的L2VPN业务; The L2VPN service acquisition module is configured to: acquire L2VPN service via the device;
    所述识别模块设置成:通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务和桥接网元; The identification module is configured to: configuring the L2VPN service by analyzing landing NE output traffic port, identify the device associated with the network bridge and the bridge service network element;
    所述巡检模块设置成:根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检。 The inspection module is configured to: according to the bridge and the bridge network traffic patrol program element, and a bridge on the bridge service network element polling.
  10. 根据权利要求9所述的桥接业务和桥接网元的巡检装置,该装置还包括:获取伪线保护组数据单元, The bridge and the bridge NE service inspection apparatus according to claim 9, the apparatus further comprising: a protection group pseudowire data acquisition unit,
    所述获取伪线保护组数据单元设置成:获取与所述设备相关联的伪线保护组数据;通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元。 The obtaining of data protection group pseudowire unit is configured to: acquire data protection group pseudowire associated with the device; by analyzing the data protection group pseudowire recognizes that the primary bridge network from the network element bridging element alternate bridging and network element.
  11. 根据权利要求10所述的桥接业务和桥接网元的巡检装置,其中,所述识别模块设置成按照如下方式通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接业务: The bridge and the bridge NE service inspection apparatus according to claim 10, wherein the identification module is arranged in the following manner by arranging the output traffic port analysis L2VPN service floor NE, the network and identify the bridging apparatus related operations:
    通过分析所述L2VPN业务落地网元的输出业务端口的配置,过滤出所述L2VPN业务落地网元的输出业务端口为二层虚接口或二层虚子接口的L2VPN业务; Analysis by configuring the L2VPN service floor NE output traffic port, filtered off the floor L2VPN service business NE output port, or a virtual interface Layer Layer virtual sub-L2VPN service interface;
    判断所过滤出的L2VPN业务是否为带桥接L2VPN业务; Determining whether the traffic is filtered out with a bridge L2VPN L2VPN service;
    当判断所过滤出的L2VPN业务为带桥接L2VPN业务时,则将所述L2VPN业务确定为桥接业务。 When it is determined by the L2VPN service is filtered off with bridging L2VPN service, service L2VPN service will be identified as the bridge.
  12. 根据权利要求11所述的桥接业务和桥接网元的巡检装置,其中,所述识别模块设置成按照如下方式判断所过滤出的L2VPN业务是否为带桥接L2VPN业务: The bridge and the bridge NE service inspection apparatus according to claim 11, wherein the identification module is arranged in such a manner determined by the L2VPN service filtered with a bridge whether L2VPN service:
    若所述L2VPN业务落地网元的输出业务的二层虚接口与三层虚接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务;或 者 If the landing NE L2VPN service traffic output interface Layer Layer virtual virtual interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service; or
    若所述L2VPN业务落地网元的输出业务的二层虚子接口与三层虚子接口有一对一绑定关系,则判定所过滤出的L2VPN业务为带桥接L2VPN业务。 If the service floor L2VPN service NE output interface Layer Layer virtual child virtual sub-interface has one binding relationship, it is determined that the L2VPN service is filtered with a bridge L2VPN service.
  13. 根据权利要求11所述的桥接业务和桥接网元的巡检装置,其中,所述识别模块设置成按照如下方式通过分析所述L2VPN业务落地网元的输出业务端口的配置,识别出网络中与所述设备相关的桥接网元的步骤包括: The bridge and the bridge NE service inspection apparatus according to claim 11, wherein the identification module is arranged in the following manner by analyzing the L2VPN service floor arranged NE service port output, and identify the network the bridging device associated network element comprises the step of:
    将所述L2VPN业务落地网元的输出业务的二层虚接口所在的节点作为桥接网元;或者 Layer L2VPN service node said output floor NE service virtual interface where the network element as a bridge; or
    将所述L2VPN业务落地网元的输出业务的二层虚子接口所在的节点作为桥接网元。 Layer virtual child node L2VPN service floor of the outgoing traffic of the network element is located as a bridge interface to the network element.
  14. 根据权利要求13所述的桥接业务和桥接网元的巡检装置,其中,所述获取伪线保护组数据单元设置成按照如下方式通过分析所述伪线保护组数据,从所述桥接网元中识别出主用桥接网元和备用桥接网元: The bridge and the bridge NE service inspection apparatus according to claim 13, wherein said acquiring means of data protection group pseudowire is arranged in such a manner by analyzing the data protection group pseudowire, from the bridge network element identified in the primary and standby bridge bridging NE NE:
    通过分析所述伪线保护组数据,过滤出单发双收伪线双归保护组; By analyzing the data protection group pseudowire, filtered dual-income single dual-homing protection group pseudowire;
    根据所述单发双收伪线双归保护组,过滤出所述桥接业务服务层伪线是单发双收伪线双归保护组的第一桥接业务; The said single dual-income group pseudowire dual-homing protection, the filtered pseudo wire service layer bridging service is a first single dual-income bridged pseudo wire service dual-homing protection group;
    将所述第一桥接业务上的两个桥接网元作为主用桥接网元和备用桥接网元。 The two bridges on the first network element as the master bridge bridging service and spare bridged NE NE.
  15. 根据权利要求14所述的桥接业务和桥接网元的巡检装置,其中,所述巡检模块设置成按照如下方式根据桥接业务和桥接网元的巡检方案,对桥接业务和桥接网元进行巡检: The bridge and the bridge NE service inspection apparatus according to claim 14, wherein the inspection module is configured according to the bridge and the bridge NE service inspection programs, operations of the bridge and the bridge network element as follows inspection:
    根据桥接业务和桥接网元的巡检方案,获取桥接业务对应的桥接网元、主用桥接网元以及备用桥接网元的配置参数及状态数据; The bridge and the bridge NE service inspection programs, corresponding to the service acquired bridge bridging NE, NE, and the primary standby bridge bridging NE configuration parameters and status data;
    根据所述配置参数及状态数据对桥接业务和桥接网元进行巡检。 And a bridge for bridging NE service inspection according to the configuration parameters and status data.
PCT/CN2016/074452 2015-08-26 2016-02-24 Bridging service and bridging network element inspection method and apparatus WO2016165491A1 (en)

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