CN101977128A - Interface detection method and device for communication equipment - Google Patents

Interface detection method and device for communication equipment Download PDF

Info

Publication number
CN101977128A
CN101977128A CN 201010282152 CN201010282152A CN101977128A CN 101977128 A CN101977128 A CN 101977128A CN 201010282152 CN201010282152 CN 201010282152 CN 201010282152 A CN201010282152 A CN 201010282152A CN 101977128 A CN101977128 A CN 101977128A
Authority
CN
Grant status
Application
Patent type
Prior art keywords
interface
detection
error
method
control
Prior art date
Application number
CN 201010282152
Other languages
Chinese (zh)
Other versions
CN101977128B (en )
Inventor
严非
李健聪
赵贵余
Original Assignee
中兴通讯股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/07Responding to the occurrence of a fault, e.g. fault tolerance
    • G06F11/0703Error or fault processing not based on redundancy, i.e. by taking additional measures to deal with the error or fault not making use of redundancy in operation, in hardware, or in data representation
    • G06F11/0751Error or fault detection not based on redundancy
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/30Monitoring
    • G06F11/3003Monitoring arrangements specially adapted to the computing system or computing system component being monitored
    • G06F11/3041Monitoring arrangements specially adapted to the computing system or computing system component being monitored where the computing system component is an input/output interface
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/30Monitoring
    • G06F11/3055Monitoring arrangements for monitoring the status of the computing system or of the computing system component, e.g. monitoring if the computing system is on, off, available, not available

Abstract

The invention discloses an interface detection method and an interface detection device for communication equipment. The detection method comprises the following steps of: transmitting a detection data packet to a single board by a master control unit according to a received detection command so as to detect the connection state of an interface between the master control unit and the single board; when the interface is disconnected, acquiring operating data of the master control unit and the single board; and positioning error type of the interface according to the acquired operating data and a pre-stored interface error judgment rule. In the method and the device, the master control unit is controlled through the detection command to automatically detect the connection state of the single-board interface and the error type of the interface can be automatically positioned through the error judgment rule, so that the time and the labor for detecting the interface are saved and the efficiency for detecting the interface is improved.

Description

用于通讯设备的接口检测方法和装置 Interface detection method and apparatus for communications equipment

技术领域 FIELD

[0001] 本发明涉及通讯设备的检测领域,尤其涉及一种用于通讯设备的接口检测方法和装置。 [0001] relates to a communication device of the present invention detects the art, in particular, it relates to an interface method and apparatus for detecting communication devices.

背景技术 Background technique

[0002] 通讯设备的系统框架通常包括:网元管理系统EMS (ElementsManagement System)、主控单元(代理层或控制平面)和底层设备单板。 Framework [0002] The communication device typically comprises: Element Management System EMS (ElementsManagement System), the main control unit (or a control plane proxy layer) and the underlying device board. 与设备运行和工程维护息息相关的是主控单元和底层设备单板,这两者之间的接口状态直接反映出设备稳定性。 And equipment operation and maintenance of the project is closely related to the main control unit and the bottom of the device board, the interface between the two states directly reflects the stability of the equipment. 例如,在工程现网,若上下层通讯接口的通信状态不通或者断断续续,则会导致业务中断,给工程运行带来很大麻烦。 For example, in engineering the existing network, if the communication state of the underlying communication interface unreasonable or off, it will result in service interruption to the operation of the project a lot of trouble.

[0003] 目前,涉及设备通讯接口的检测仍然没有一种较好的技术来解决。 [0003] Currently, detection involves device communication interface is still not a better technology to solve. 现有的方法主要还是以人工操作为主,通过终端命令登陆到设备主控单元上,手动敲入待执行的命令,来检测设备通讯接口连接状态。 In the conventional method mainly in manual operation, by the terminal landing command to the device control unit, manually typing the command to be executed, the communication device detects the connection state of the interface. 并且,当出现接口不通时,也要人为操作输入一系列命令来采集现场信息以定位接口错误。 And, when there is nowhere interfaces, but also a series of commands to a human operation input acquisition site information to locate the interface error. 这样的接口检测方式,当设备规模小时,可以采用;而对于大规模的现网,若遇到接口状态不稳定情况较严重时,这种以人为干预为主的检测方式,将会花费相当大的时间和人力,检测效率非常低。 Such an interface detection method, when the size of equipment hours, can be used; and for large-scale network now, if the encounter interfaces unstable situation is more serious that this kind of human intervention-based detection methods, will take considerable time and manpower, the detection efficiency is very low.

发明内容 SUMMARY

[0004] 本发明的主要目的在于提供一种用于通讯设备的接口检测方法和装置,以解决现有的接口检测方式检测效率低的问题。 [0004] The main object of the present invention to provide a method and apparatus for detecting an interface for a communication device to solve the conventional interface detecting low mode detector efficiency.

[0005] 根据本发明的一个方面,提供了一种用于通讯设备的接口检测方法,包括:主控单元根据所接收的检测命令向单板发送检测数据包以检测主控单元与单板之间的接口的连接状态;当接口的连接状态为断开时,采集主控单元和单板的运行数据;根据所采集的运行数据以及预存的接口错误评判规则定位接口的错误类型。 [0005] In accordance with one aspect of the present invention, there is provided a method for detecting an interface for a communication device, comprising: a master unit transmits to the board based on the received check command packet to the main control unit and the detecting of the board connection state between the interface; if the interface is connected is turned off, the master unit and acquisition board operational data; error type based on the collected operational data, and an interface positioning error judgment rule stored interface.

[0006] 进一步地,主控单元根据所接收的检测命令向单板发送检测数据包以检测主控单元与单板之间的接口的连接状态之前还包括:按预定规则筛选出需检测的通讯设备以及该通讯设备需检测的接口。 [0006] Further, the main control unit transmits the detection data to the board in accordance with the detection command packet received prior to the connection state of the interface between the detection unit and the main control board further comprises: a communication filter according to a predetermined rule to be detected the communication device and an interface device to be detected.

[0007] 进一步地,预定规则为仅检测在线通讯设备的在线单板。 [0007] Further, the predetermined rule is detected online communication device online boards only.

[0008] 进一步地,主控单元根据所接收的检测命令向单板发送检测数据包以检测主控单元与单板之间的接口的连接状态包括:主控单元按预定次数和预定时间间隔向单板发送检测数据包;当主控单元在预定时间段内未收到单板的反馈信息,则判定接口的连接状态为断开。 [0008] Further, the main control unit transmits the detection data to the board according to the received command packet to the detected connection state of the interface between the master unit and the detection board comprising: a master unit interval to a predetermined time and a predetermined number of times detecting packet transmission board; master unit when the feedback information is not received within a predetermined period veneer, it is determined that the connection state of the interface is disconnected.

[0009] 进一步地,在采集所述主控单元和所述单板的运行数据之后还包括:根据所采集的运行数据生成信息文档。 [0009] Further, after the data collection operation of the board and the master unit further comprises: generating operation information of the document in accordance with the collected data.

[0010] 进一步地,运行数据还包括:通讯设备的IP地址、单板的槽位号以及检测的开始和结束时间。 [0010] Further, the operational data further includes: IP address of the communication device, and a card slot number detecting start and end times. [0011 ] 进一步地,根据所采集的运行数据以及预存的接口错误评判规则定位接口的错误类型包括:将运行数据中表征接口状态的字段值与预存的接口错误评判规则进行匹配;根据匹配结果定位接口的错误类型。 [0011] Further, according to the type of error collected operational data, and an interface error evaluation rules positioning interface prestored comprising: a field value characterizing the interface state operation data match with the interface error evaluation rule prestored; according to the matching result Location error type interface.

[0012] 进一步地,检测数据包为ping包。 [0012] Further, the detected packet is a ping packet.

[0013] 根据本发明的另一方面,提供了一种用于通讯设备的接口检测装置,包括:检测单元,用于根据所接收到的检测命令向单板发送检测数据包以检测主控单元与单板之间的接口的连接状态;数据采集单元,用于当检测单元检测到接口的连接状态为断开时,采集主控单元和单板的运行数据;定位分析单元,用于根据数据采集单元所采集的运行数据以及预存的接口错误评判规则定位接口的错误类型。 [0013] According to another aspect of the present invention, there is provided an interface means for detecting a communication apparatus, comprising: a detection unit for detecting a data transmission board according to the received detection command packet to the main control unit detecting the connection state of the interface between the board; data acquisition unit, when the detection means detects the connection state of the interface is disconnected, the master unit and data collection operation board; location analysis unit, based on the data for acquisition unit, and the collected operational data prestored interface error evaluation rule locate the error type interface.

[0014] 进一步地,检测装置还包括:预处理单元,用于按预定规则筛选出需检测的通讯设备以及该通讯设备需检测的接口。 [0014] Further, the detection means further comprising: a preprocessing unit, an interface for screening according to a predetermined rule communication apparatus to be detected and the communication device to be detected.

[0015] 在本发明中,通过检测命令来控制主控单元自动化地检测单板的接口连接状态, 并通过错误评判规则自动地定位接口的错误类型,从而节省了接口检测的时间和人力,提高了接口检测的效率。 [0015] In the present invention, the command interface is controlled by detecting the connection state of the main control unit detects automated board, and automatically locate the error by the error judgment type of interface rules, thereby saving time and labor interface detection, improved the efficiency of the interface detection.

附图说明 BRIEF DESCRIPTION

[0016] 此处所说明的附图用来提供对本发明的进一步理解,构成本申请的一部分,本发明的示意性实施例及其说明用于解释本发明,并不构成对本发明的不当限定。 [0016] The drawings described herein are provided for further understanding of the present invention, constitute a part of this application, exemplary embodiments of the present invention are used to explain the present invention without unduly limiting the present invention. 在附图中: In the drawings:

[0017] 图1示出了本发明实施例的接口检测方法流程图; [0017] FIG. 1 shows a flowchart for the detection method of the present invention embodiment;

[0018] 图2示出了本发明实施例的接口检测装置框图; [0018] FIG. 2 shows a block diagram of an interface device of the present invention detects the embodiment;

[0019] 图3示出了本发明实施例一的接口检测方法流程图; [0019] FIG. 3 shows a flow diagram of the present invention is a method of detection of the interface;

[0020] 图4示出了本发明实施例二的接口检测装置框图; [0020] FIG. 4 shows a block diagram of a detection apparatus of the present invention according to the second embodiment of the interface;

[0021] 图5示出了实施例二中的预处理单元处理流程图; [0021] FIG. 5 shows a flowchart of pre-processing unit of the second embodiment;

[0022] 图6示出了实施例二中的检测单元处理流程图; [0022] FIG. 6 shows a flowchart of the detection process unit of the second embodiment;

[0023] 图7示出了实施例二中的文档输出单元处理流程图;以及 [0023] FIG. 7 shows a flowchart of a document output processing unit according to a second embodiment; and

[0024] 图8示出了实施例二中的定位分析单元处理流程图。 [0024] FIG. 8 shows a second embodiment of the positioning unit processing flowchart analysis.

具体实施方式 detailed description

[0025] 下文中将参考附图并结合实施例来详细说明本发明。 [0025] Hereinafter with reference to the accompanying drawings and embodiments of the present invention will be described in detail. 需要说明的是,在不冲突的情况下,本申请中的实施例及实施例中的特征可以相互组合。 Incidentally, in the case of no conflict, embodiments and features of the embodiments of the present application can be combined with each other.

[0026] 图1示出了本发明实施例的接口检测方法流程图。 [0026] FIG. 1 shows a flowchart for the present invention, the detection method of the embodiment. 如图1所示,包括以下步骤: As shown in FIG 1, comprising the steps of:

[0027] 步骤S102,主控单元根据所接收的检测命令向单板发送检测数据包以检测主控单元与单板之间的接口的连接状态。 [0027] Step S102, the main control unit transmits the detection data packet connection state of the interface between the detection unit and the main control board in accordance with the received detection command to the board.

[0028] 步骤S104,当接口的连接状态为断开时,采集主控单元和单板的运行数据。 [0028] step S104, when the connection state of the interface is disconnected, the master unit and data collection operation board. 以及 as well as

[0029] 步骤S106,根据所采集的运行数据以及预存的接口错误评判规则定位接口的错误类型。 [0029] step S106, based on the collected operational data and the pre-stored rules to target interface error judgment error type interface.

[0030] 在上述方法中,通过检测命令来控制主控单元自动化地检测单板的接口连接状态,并通过错误评判规则自动地定位接口的错误类型,从而节省了接口检测的时间和人力, 提高了接口检测的效率。 [0030] In the above process, it is controlled by a connection state detection command unit host interface board automated detection and automatically locate the error by the error judgment type of interface rules, thereby saving time and labor interface detection, improved the efficiency of the interface detection.

4[0031] 在上述步骤S102之前还包括:按预定规则筛选出需检测的通讯设备以及该通讯设备需检测的接口,预定规则可以为仅检测在线通讯设备的在线单板。 4 [0031] Prior to step S102 described above further comprising: a screening apparatus to be detected, and communication interfaces, the predetermined rule communication apparatus to be detected can detect only the board online online communication apparatus according to a predetermined rule.

[0032] 上述步骤S102包括:主控单元按预定次数和预定时间间隔向单板发送检测数据包;当主控单元在预定时间段内未收到单板的反馈信息,则判定接口的连接状态为断开,其中检测数据包可以采用Ping包。 [0032] The step S102 comprises: the master unit detects a packet transmission interval to a predetermined number of times and the board predetermined time; when the master unit does not receive the feedback information in a predetermined period of time card, it is determined that the connection state of the interface OFF, the packet may be employed wherein detection Ping packet.

[0033] 在上述步骤S104之后还包括:根据所采集的运行数据生成信息文档,其中,运行数据还包括:通讯设备的IP地址、单板的槽位号以及检测的开始和结束时间。 [0033] In the step S104, after further comprising: generating a document based on information collected operational data, wherein the operational data further includes: IP address, the communication card slot number detecting device and the start and end times.

[0034] 上述步骤S106包括:将运行数据中表征接口状态的字段值与预存的接口错误评判规则进行匹配;根据匹配结果定位接口的错误类型。 [0034] The step S106 comprises: a field value characterizing the operating status of the interface data interface matching prestored error evaluation rules; matching result according to the positioning error type interface.

[0035] 图2示出了本发明实施例的接口检测装置框图。 [0035] FIG. 2 shows a block diagram of an interface device of the present invention detects embodiment. 如图2所示,该接口检测装置包括:检测单元10、数据采集单元20和定位分析单元30。 As shown in FIG 2, the interface detecting apparatus comprising: a detection unit 10, the data acquisition unit 20 and the analyzing unit 30 is positioned. 检测单元10、数据采集单元20和定位分析单元30依次连接,其中,检测单元10,用于根据所接收到的检测命令向单板发送检测数据包以检测主控单元与单板之间的接口的连接状态;数据采集单元20,用于当检测单元10检测到接口的连接状态为断开时,采集主控单元和单板的运行数据;定位分析单元30,用于根据数据采集单元20所采集的运行数据以及预存的接口错误评判规则定位接口的错误类型。 Detection means 10, the data acquisition unit 20 and the positioning unit 30 are connected in sequence analysis, wherein the detection unit 10 for detecting the packet to the interface between the board and the master unit transmits the detection data to the board according to the received detection command connection state; a data acquisition unit 20, when the detection unit 10 detects a connection state of the interface is disconnected, the master unit and acquisition board operational data; positioning analysis unit 30, according to the data acquisition unit 20 collecting operational data and pre-stored rules to target interface error judgment error type interface.

[0036] 在上述的检测装置中,通过检测单元10自动化地检测单板的接口连接状态,并通过定位分析单元30自动地定位接口的错误类型,从而实现了通讯设备接口检测和定位的自动化,节省了接口检测的时间和人力,提高了接口检测的效率。 [0036] In the detection device, the detection unit 10 detected by the automated connection state of the interface board, and the interface automatically positioned by the positioning error type analyzing unit 30, the communication interface has automated detection and localization device, interface detection saves time and labor, improve the efficiency of the interface detection.

[0037] 实施例一 [0037] Example a

[0038] 本实施例描述了通讯设备的接口检测的详细流程,如图3所示,包括以下步骤: [0038] This example describes the detailed flow of communication interface detection device, 3, comprising the steps of:

[0039] 步骤S302,通过上层网元管理系统EMS,对全网设备和对应的单板槽位进行筛选。 [0039] In step S302, the upper layer network element management system through EMS, network equipment and the whole corresponding filter Slot.

[0040] 具体包括:对全网设备进行在线、离线或断链情况的扫描,只保留在线的设备类型和对应IP,保存在一个专门存放设备类型和IP的配置文件中;在所筛选出来的设备中,针对不同类型的设备,配以不同的筛选标准,继而过滤出确有必要进行接口状态检测的单板槽位号,保存在一个数组变量中。 [0040] Specifically comprising: scanning the whole network devices online, or offline situation chain scission, leaving only the device type and the corresponding IP-line, stored in a special storage device type and IP configuration file; screened out in devices for different types of devices, together with the different selection criteria, then filtered indeed necessary for detecting the state of the interface slot number, stored in an array variable.

[0041] 步骤S304,通过主控单元向单板发送命令,单板收到后在规定时间内反馈上报。 [0041] step S304, the master sends a command to the board by means feedback report within a predetermined time after receipt of the board.

[0042] 具体包括:对每台设备的每个需要检测的槽位单板,主控单元发送一定次数,一定时间间隔的命令数据包;单板在收到数据包后,应立即反馈上报给主控单元,否则,则认定该单板的接口出现通讯故障;若接口出现通讯异常,则需在检测完该设备后,立即采集主控单元的相关数据信息,并保存在日志文档中,同时将该设备类型和对应IP自动记录到统计文档中。 [0042] Specifically comprising: transmitting a certain number of slots for each board to be detected in each apparatus, the main control unit, the command packet a predetermined time interval; board after receiving a data packet, the feedback should be immediately reported to the the master unit, otherwise, the board finds that the failure of communication interface; if the interface communication error occurs, the need after detecting the device information data collected immediately master unit, and stored in a log file while the device type and the corresponding IP automatically record statistical document.

[0043] 步骤S306,检测运行时自动生成实时变化的统计文档和设备日志文档。 [0043] step S306, the automatic generation of real-time changes in the statistical documents and the document detection device logs running.

[0044] 具体包括以下步骤:先获取统计文档中出现接口异常的设备IP ;在设备日志文档集中搜索出现接口异常的设备IP地址,获得设备的日志文档;在日志文档中,获取采集的主控单元的相关信息。 [0044] includes the following steps: first acquire an interface device IP anomalies appear statistical documentation; abnormal device IP address of the interface device logs appear in search documentation set, access to the log file device; in the log file, gets the collection of master Related information element.

[0045] 步骤S308,检测完所有设备接口后,获取输出文档相关信息,通过与错误评判规则匹配,自动定位接口错误。 [0045] step S308, the device interface After detecting all, obtain an output document related information, by matching the error judgment rule, automatic positioning interface error.

[0046] 实施例二[0047] 本实施例描述了一个实际运用中的接口检测装置,如图4所示,该接口检测装置包括:检测单元10、数据采集单元20、定位分析单元30、接口通讯单元40、预处理单元50和文档输出单元60。 [0046] Second Embodiment [0047] The present example describes a practical application of the interface detection means is shown in Figure 4, the interface detecting apparatus comprising: a detecting unit 10, data acquisition unit 20, the analysis unit 30 is positioned, the interface communication unit 40, the document pre-processing unit 50 and output unit 60. 接口通讯单元40、检测单元10、数据采集单元20和定位分析单元30依次连接,预处理单元50连接至检测单元10,文档输出单元60分别与数据采集单元20和定位分析单元20相连。 Interface communication unit 40, detecting unit 10, the data acquisition unit 20 and the positioning unit 30 analyzes sequentially connected, the preprocessing unit 50 is connected to the detection unit 10, a document output unit 60 and the data acquisition unit 20 and the positioning unit 20 is connected to the analysis.

[0048] 接口通讯单元40与通讯设备的主控单元相连,负责下发主控单元的命令数据和上报接口通讯状态。 [0048] Communication unit 40 is an interface connected to the main control unit communication apparatus, is responsible for commanding the master unit and data communication status reporting interfaces. 通过下发命令数据,并控制一定的反馈延时,来判断接口通讯状态是否良好,再将反馈信息上报给主控单元。 Issued by the command data, and feedback controlling a certain delay, the interface determines whether the communication state is good, then the feedback information to a main control unit.

[0049] 预处理单元50与主控单元相连,在主控单元下发命令数据给单板之前,为了做到不同现网环境的自适应性,支持不同网元管理系统,需要先对每台设备进行预处理,筛选并剔除一些不必要进行接口状态判断的设备、单板及其槽位,以缩短系统运行时间,进一步提升有效时间比例。 [0049] The preprocessing unit 50 is connected to the control unit, send command data to the master unit before the board, in order to achieve different adaptive current network environment and supports different network element management system, for each need pretreatment equipment, filter and eliminate unnecessary state of the device interface, the board and the slot determination to shorten the time of system operation, to further enhance the proportion of valid time. 另外,在本实施例中,还支持用户自定义输入设备类型的功能,即只针对输入的设备类型进行巡检,其余的不予理会。 Further, in the present embodiment, also supports user-defined device type input function, i.e., only for the inspection of the type of input device, the rest ignored.

[0050] 检测单元10的功能的实现是通过命令行终端登录到设备主控单元,对于每台单独的设备,接口通讯单元按照槽位号从小到大顺序,以固定的时间间隔和固定的次数发送命令数据,若在规定的时间内没有收到反馈信息,则认为该接口通讯状态出现异常,通过数据采集单元20采集主控单元相关数据。 [0050] The detection unit 10 realize the function of the command line is to log the terminal device to the control unit, for each individual device, the interface number in ascending order of the communication unit, at fixed intervals and fixed according to the slot number sending command data, if the feedback information is not received within a predetermined period of time, the communication interface is considered an abnormal condition occurs, the master unit related data collected by the data acquisition unit 20.

[0051] 数据采集单元20,在检测单元10检测到接口异常时,记录接口异常的设备的IP 和对应的单板槽位号,以及系统检测的开始、结束和运行时间,以及主控单元的现场运行数据,并将所采集的数据发送至文档输出单元60。 [0051] The data acquisition unit 20, when the abnormality detecting unit detects the interface 10, the interface abnormal recording apparatus and an IP corresponding slot number, and the system detects the start, end, and running time, and a control element field operating data, the collected data and transmits the document to the output unit 60.

[0052] 文档输出单元60,接收数据采集单元20所采集的相关数据,根据所采集的数据生成实时变化的信息文档,所生成的信息文档分为两种:统计文档:保存所有存在接口异常的设备的IP和对应的单板槽位号,以及系统检测的开始、结束和运行时间;设备日志文档: 以每台设备为单位,生成其对应的单板接口状态记录日志文档。 [0052] The document output unit 60, a reception data acquisition unit 20 acquired related data, based on the data collected for a real-time change in the document information, the generated information into two documents: Document Statistics: save all interfaces present abnormality start IP device and the corresponding slot number, and detected by the system, and the end of the running time; device log files: each device in the unit, the interface board generates a corresponding status log file. 文档中包含了每块单板接收接口通讯单元下发的命令数据和反馈的全过程,以及用于定位接开错误的主控单元的现场数据。 Document includes receiving command data delivered by the interface unit of each communication board and the entire process feedback, open field and for positioning the data access errors master unit.

[0053] 定位分析单元30通过获取文档输出单元60所生成的两类信息文档的相关数据, 按照相应的错误评判准则,定位并分析设备通讯接口的错误类型。 [0053] positioned analyzing unit 30 acquires the document data output unit 60 generates two types of information of the document, according to the corresponding error judgment criteria, the type of positioning error and the analysis apparatus communication interface.

[0054] 图5示出了实施例二中的预处理单元处理流程图,如图5所示,包括以下处理步骤: [0054] FIG. 5 shows a flowchart of pre-processing unit in the second embodiment, shown in Figure 5, comprising the following process steps:

[0055] 步骤S502,从网元管理系统EMS上导出全网中所有网元设备的报表表格。 [0055] step S502, export reports full table of all network elements in the network equipment from the element management system EMS. 由于不同现网所使用的EMS可能不一致,因此,需要考虑由于EMS版本不同所引起的报表格式不同的情况。 Due to the different network now used by EMS may be inconsistent, therefore, we need to be considered different because of the different versions of EMS due to the situation report format.

[0056] 步骤S504,判断所检测的设备类型是否是自定义设备类型。 [0056] step S504, the apparatus determines whether the detected type of a custom device type. 对于有用户自定义输入设备类型的情况,仅针对输入的类型进行检测,执行步骤S506 ;否则,按照默认支持的设备类型检测,执行步骤S510。 For the case of user-defined type of input device, input only for the type of detection, step S506; otherwise, according to the default type detecting devices supported, step S510.

[0057] 步骤S506,获取自定义的设备类型和IP地址。 [0057] step S506, the IP address acquisition device type and custom. 在本实施例中,待检测设备类型和IP地址是从步骤S502导出的表格中获取的。 In the present embodiment, the device type to be detected and acquired from the IP address is derived in step S502 the table. 具体的是通过对设备类型和IP所在表格中的行列数加以判断,来获取其值。 Specifically be judged by device type and IP number of rows in the table is located, to acquire its value. [0058] 步骤S508,从EMS获取自定义类型设备的在线状态。 [0058] step S508, the acquired device type custom online from EMS. 在网元管理系统EMS上,可在服务器端获取每个网元设备的在线、离线或断链的状态,在本实施例中,只考虑在线的设备。 On the Element Management System EMS, retrieve the state of online, offline, or chain scission of each network element device on the server side, in the present embodiment, only consider the online device.

[0059] 步骤S510,获取默认支持的设备类型和IP。 [0059] step S510, the acquired default supported device type and IP.

[0060] 步骤S512,从EMS获取默认支持的类型设备的在线状态 [0060] step S512, the online status acquiring device type supported by default from EMS

[0061] 步骤S514,在EMS上进一步判断待检测设备是否在线,如果否,则执行步骤S516, 将该设备过滤掉;如果是,则执行步骤S518。 [0061] step S514, the determination on the EMS further be detected device is online, if not, performing step S516, the filter off the apparatus; if yes, step S518.

[0062] 步骤S516,过滤掉不在线的通讯设备。 [0062] step S516, filter out online communications equipment.

[0063] 步骤S518,得到所有符合条件的设备的类型和IP地址。 [0063] Step S518, to obtain all types of equipment and qualified IP address. 可将设备的类型和IP保存在一个配置文件中,配置文件的每一行代表一台设备类型及其IP。 IP type of device and can be stored in a configuration file, each line represents a profile of the type of device and its IP.

[0064] 步骤S520,设备的单板所在的槽位筛选。 [0064] step S520, the card is located in the slot screening device. 针对不同类型的通讯设备,尤其是MSTP 设备,需要进行检测的单板的槽位是完全不同的,且都是只需检测一部分槽位。 For different types of communications equipment, especially the MSTP equipment, slot board needs to be detected it is completely different, and are detected only a portion of the slot. 所以为了节省巡检时间,提高有效时间比,必须先进行各种类型设备的槽位筛选,筛选结果可以保存到一个临时的数组变量中。 So in order to save inspection time and increase the effective time ratio, the slot must first be screened for various types of equipment, screening results can be saved to a temporary array variable.

[0065] 步骤S522,槽位在线检测。 [0065] Step S522, the slot-line detection.

[0066] 步骤S524,判断槽位是否在线,对步骤S520中保存的结果,还要进行槽位在线的判断,即该槽位是否插有单板。 [0066] Step S524, determines whether the slot line, stored in step S520 to result, but also for determining the slot-line, i.e., whether the inserted board slot. 同样为了节省时间,只对在线的槽位进行检测。 Also in order to save time, only online slot detected.

[0067] 步骤S526,得到需要检测的设备,以及该设备需要检测的单板接口。 [0067] Step S526, to give the desired detection device, and an interface board of the device to be detected. 筛选的结果可以保存到最终的数组变量中。 Screening results can be saved into the final array variable.

[0068] 图6示出了实施例二中的检测单元处理流程图。 [0068] FIG. 6 shows a flowchart of the detection process unit of the second embodiment. 在本实施例中通过检测单板所插的槽位来检测单板接口,如图6所示,包括以下步骤: In the present embodiment, the board is detected by detecting the insertion slot board interface shown in FIG. 6, comprising the steps of:

[0069] 步骤S602,初始化当前槽位号和异常标识。 [0069] step S602, and initializes the current slot number abnormality flag. 在本实施例中,初始化当前槽位号η = 0,异常标识flag = 0。 In the present embodiment, the initialization current slot number η = 0, abnormality flag flag = 0.

[0070] 步骤S604,当前槽位接收上层接口通讯单元发送来的Ping包,ping包大小、次数和时间间隔可以预先设定。 [0070] step S604, the current upper interface communication unit receives the slot transmitted Ping packet, of ping packet size, and the number of time intervals may be preset.

[0071] 步骤S606,判断单板是否在规定的时间段内上报反馈。 [0071] step S606, the predetermined time period is determined whether the board for reporting feedback. 如果在指定时间内,单板上报了所有Ping包的反馈信息给接口通讯单元,则该单板通讯接口正常,执行步骤S610 ;否则执行步骤S608。 If within the specified time, the feedback information reported by all the board Ping packet communication unit to the interface, the communication interface board normally, step S610; otherwise, to step S608.

[0072] 步骤S608,若在指定时间内,单板通讯接口没有上报反馈信息给主控单元,或者说接口通讯单元没有接收到反馈,则对于该ping包,回显timeout字样,并置flag= 1。 [0072] step S608, if the specified time, the communication interface board not reported feedback information to the control unit, the interface or the communication unit does not receive the feedback, then for the ping packet timeout echo words, juxtaposed flag = 1. 在此步骤中,需传递设备日志文档信号给文档输出单元。 In this step, a signal to be passed to the device log file document output unit.

[0073] 步骤S610,转至下一个槽位。 [0073] step S610, the go to the next slot.

[0074] 步骤S612,判断当前槽位的槽位号η是否大于该设备的最大槽位号。 [0074] step S612, the determination whether the current slot is slot number η greater than the maximum slot number of the device. 若η <最大槽位号,则η = η+1,并跳转回步骤S604继续接收接口通讯单元发给下一个槽位的ping包; 如果η等于最大槽位号,则执行步骤S614。 If η <maximum slot number is η = η + 1, and jumps back to step S604 to continue receiving communications interface unit delivers the slot of a ping packet; if [eta] is equal to the maximum slot number, step S614.

[0075] 步骤S614,判断异常标识flag的值。 [0075] step S614, the determination value of the abnormality flag flag. 若flag = 1,则表明出现了超时现象,则执行步骤S616 ;否则,执行步骤S618。 If the flag = 1, it indicates that there has been a timeout phenomenon, execute step S616; otherwise, to step S618.

[0076] 步骤S616,采集主控单元现场数据。 [0076] Step S616, the main control unit of field data collection. 即在检测完该设备后,执行一系列命令采集当前主控单元相关数据,并同时给文档输出单元发送共有信号,要求其输出超时的设备信息,包括设备类型、IP地址、超时的槽位号和采集的定位信息。 After detecting that the device performs a series of commands acquisition of the current master unit related data, and simultaneously transmits a signal to a consensus document output means which outputs a timeout requires device information includes a device type, IP address, timeout slot number and positioning information collection.

[0077] 步骤S618,若该设备所有待测槽位都已检测完,且flag = 0则自动登录到下一台设备的主控单元,继续接收命令。 [0077] Step S618, if the apparatus has been detected in all slots End tested, and flag = 0 is automatically logged to the master unit next device continues to receive commands. 同时传递设备日志文档信号给文档输出单元。 A signal transfer apparatus while the log file to the document output unit.

[0078] 步骤S620,生成信息文档。 [0078] step S620, the document information is generated.

[0079] 图7示出了实施例二中的文档输出单元处理流程图。 [0079] FIG. 7 shows a flowchart of a document output processing unit in the second embodiment. 如图7所示,包括以下步骤: As shown in FIG 7, comprising the steps of:

[0080] 步骤S702,获取系统开始运行的时间,输出到统计文档的第一行。 [0080] step S702, the acquisition time the system starts running, output to the first line of the document statistics.

[0081] 步骤S704,接收信号。 [0081] step S704, the reception signal. 所接收的信号分为三种:一种只是针对设备日志文档,第二种是针对统计文档,第三种信号是两类输出文档共有的共有信号,其中,第一种信号来自接口检测单元,第二种信号来自定位分析单元,第三种信号是既可以来自接口检测单元也可以来自定位分析单元。 The received signal is divided into three: one device only for log files, document statistics for a second, a third signal is a total of two types of common document output signal, wherein a first detection signal from the interface unit, positioning a second signal from the analysis unit, the third signal may be detected from the interface unit may be positioned from the analysis unit.

[0082] 步骤S706,判断是否是设备日志文档信号,如果是则执行步骤S708 ;否则,执行步骤S714。 [0082] step S706, the apparatus determines whether the signal log file, if yes, performs step S708; otherwise, to step S714.

[0083] 步骤S708,实时更新日志文档。 [0083] step S708, real-time updates log file. 对于设备日志文档的信号,由于是实时的信号,需要不断地写入日志。 For signal device logs document, because it is real-time signal, you need to constantly written to the log. 该步骤由图6中所示的步骤S608触发。 The step S608 is triggered by the steps shown in FIG. 当图6中所示步骤S618切换网元设备时,要新建设备日志,日志文件名为设备类型+设备IP+当前系统时间。 When step S618 in FIG. 6 NEs switch to the new device log, a log file called device type equipment + IP + current system time.

[0084] 步骤S710,判断当前设备日志信息是否输出完成,如果是执行步骤S712,如果否, 执行步骤S708。 [0084] step S710, the apparatus determines whether the current output log information is completed, if the implementation of step S712, the if not, to step S708.

[0085] 步骤S712,新建下一台设备的日志文档。 [0085] step S712, the new log file of the next device.

[0086] 步骤S714,判断是否是统计文档信号,如果是则执行步骤S720 ;否则,执行步骤S716。 [0086] step S714, to determine whether the signal is a statistical document, if it is executing step S720; otherwise, to step S716.

[0087] 步骤S716,在统计文档中对应的槽位号后面添加定位分析得出的结论。 [0087] Step S716, add back analysis concluded positioning slot number corresponding to the document in the statistics.

[0088] 步骤S718,判断是否是共有信号,如果是则执行步骤S720。 [0088] Step S718, determines whether the total signal, if yes, performs step S720.

[0089] 步骤S720,同时在两个文档中输出信息。 [0089] step S720, the information is simultaneously output in two documents. 当接收到图6所示的步骤S616触发的信号时,即共有信号,表明出现了接口通讯状态异常,此时需要立即在统计文档中添加一行当前出现接口通讯故障的设备类型和对应的IP地址,同时在设备日志文档中,要输出采集的主控单元现场数据。 When the signal is received in the step shown in FIG. 6 S616 triggered, i.e. a total signal indicating the communication interface in an abnormal state occurs, then need to add a line type of the interface apparatus and the communication failure corresponding IP addresses currently appear in the document immediately statistics while in the log file in the device, the main control unit to the output field data collected.

[0090] 步骤S722,判断是否所有设备的信息均输出完成,如果是,则执行步骤S724 ;如果否,则执行步骤S704,即循环执行上述的输出流程。 [0090] Step S722, determining whether all the information output apparatus are completed, if yes, performing step S724; if NO, step S704 is performed, i.e., executes the output process loop.

[0091] 步骤S724,获取系统结束的时间,同时计算系统运行时间,并输出到统计文档的最下方。 [0091] Step S724, acquiring the end of the system time and run-time computing systems, and statistical output to the bottom of the document.

[0092] 图8示出了实施例二中的定位分析单元处理流程图。 [0092] FIG. 8 shows a second embodiment of the positioning unit processing flowchart analysis. 如图8所示,包括以下步骤: 8, comprising the steps of:

[0093] 步骤S802,将当前相关字段数置零。 [0093] step S802, the number of fields related to the current zero.

[0094] 步骤S804,在检测完一台设备所有通讯接口之后,获取设备日志文档中采集的现场数据。 [0094] step S804, the after all tests are completed, a communication interface apparatus, acquiring field data acquisition device logs the document.

[0095] 步骤S806,根据添加的错误评判规则,对数据中相关字段值与规则进行对比。 [0095] step S806, the evaluation rules in accordance with the error added, the data associated with the rule field value are compared.

[0096] 步骤S808,判断相关字段的值是否与错误评判规则中的某条规则相匹配,如果是, 则执行步骤S810 ;如果否,则执行步骤S814。 [0096] step S808, the determination whether the value of the related field matches the error evaluation rules a rule, if yes, performing step S810; if NO, step S814.

[0097] 步骤S810,匹配成功,得出定位结论。 [0097] step S810, the matching is successful, the positioning draw conclusions.

[0098] 步骤S812,向文档输出单元发出信号,要求在统计文档中添加定位结论,使用户更实时和直观了解造成接口不通的原因。 [0098] step S812, the signal is sent to the document output means, positioned require the addition of statistical conclusions on the document, allowing users in real time and causes more intuitive understanding of the interface barrier causing.

[0099] 步骤S814,比较下一个相关字段。 [0099] step S814, the next comparison relevant fields. 设总共有M条规则,m为当前待比较的字段,则若当前第m个字段与规则比较失败,则m = m+1,继续比较下一条规则。 There are provided a total of M rules, m to be compared to the current field, if the current field and the m-th rule comparison fails, then m = m + 1, the comparison continues next rule.

[0100] 步骤S816,判断当前字段是否大于最大规则数,如果是,则执行步骤S818 ;如果否,则执行步骤S806。 [0100] Step S816, determines whether the current field is greater than the maximum number of rules, and if so, step S818; if NO, step S806.

[0101] 步骤S818,gm>M,即没有找到匹配的规则,列入遗留问题队列,有待人工分析定位,并在错误评价规则中添加新的规则,转至步骤S810。 [0101] step S818, gm> M, that is, no rules match is found, the remaining issues included in the queue to be analyzed manually locate and add a new rule in the error evaluation rules, go to step S810.

[0102] 在本发明的上述实施例中,通过检测命令来控制主控单元自动化地检测单板接口的连接状态,从而节省了接口检测的时间和人力,提高了接口检测的效率。 [0102] In the above embodiment of the present invention, the main control unit to detect a connection state automatic detection command through the interface board, thus saving time and labor interface detection, the interface improves the efficiency of detection. 操作简单,唯一需要手动操作的只是安装运行脚本程序的软件,以及在脚本刚开始运行时需输入的几个简单变量;并且在检测的过程中,会自动生成输出文档,包括统计信息文档和与每台设备通讯接口通讯的全过程记录文档,文档中包含了全部定位所需数据,将人为参与分析定位转变成系统自动定位,减少了人为定位问题所带来的繁琐和费时;另外,上述的接口检测方法能够自适应各种传输网的现网环境,支持不同网元管理系统和不同类型的通讯设备尤其是MSTP设备。 Simple, the only manual operation is required only to install the software to run scripts, and just a few simple variables in the script starts running to be entered; and in the process of detection, automatically generate output documents, including documents and statistics and each communication interface for communication equipment during the whole recording document, the document contains all of the desired positioning data, the analysis of human involvement is positioned into automatic positioning system, the positioning reduces the problems caused by human tedious and time consuming; Further, the above-described interface detection method can adaptively various existing network environment transmission network, different network element management system supports different types of communications equipment and especially the MSTP equipment.

[0103] 显然,本领域的技术人员应该明白,上述的本发明的各模块或各步骤可以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,或者分布在多个计算装置所组成的网络上,可选地,它们可以用计算装置可执行的程序代码来实现,从而,可以将它们存储在存储装置中由计算装置来执行,并且在某些情况下,可以以不同于此处的顺序执行所示出或描述的步骤,或者将它们分别制作成各个集成电路模块,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。 [0103] Obviously, those skilled in the art should understand that the modules or steps of the present invention described above can be used general-purpose computing device, they can be integrated in a single computing device or distributed across multiple computing devices available on the Internet, optionally, they can be implemented with program codes executable by a computing device, so that, to be performed by a computing device stored in a storage means, and in some cases, may be different from this at step sequence shown or described, or they are made into integrated circuit modules, or by making them of a plurality of modules or steps in a single integrated circuit module. 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.

[0104] 以上所述仅为本发明的优选实施例而已,并不用于限制本发明,对于本领域的技术人员来说,本发明可以有各种更改和变化。 [0104] The foregoing is only preferred embodiments of the present invention, it is not intended to limit the invention to those skilled in the art, the present invention may have various changes and variations. 凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。 Any modification within the spirit and principle of the present invention, made, equivalent substitutions, improvements, etc., should be included within the scope of the present invention.

Claims (10)

  1. 一种用于通讯设备的接口检测方法,其特征在于,包括:主控单元根据所接收的检测命令向单板发送检测数据包以检测所述主控单元与所述单板之间的接口的连接状态;当所述接口的连接状态为断开时,采集所述主控单元和所述单板的运行数据;根据所采集的所述运行数据以及预存的接口错误评判规则定位所述接口的错误类型。 An interface apparatus for detecting communication method, characterized by comprising: a main control unit transmits the detection command according to the received data packet to the veneer detectors to detect an interface between the master unit and the board a connection state; when the connection state of the interface is disconnected, the main control unit and collecting data of said operation board; positioning said interface based on the collected operational data and interface errors of judgment rule stored the type of error.
  2. 2.根据权利要求1所述的接口检测方法,其特征在于,主控单元根据所接收的检测命令向单板发送检测数据包以检测所述主控单元与所述单板之间的接口的连接状态之前还包括:按预定规则筛选出需检测的通讯设备以及该通讯设备需检测的接口。 2. The interface detection method according to claim 1, wherein the master unit transmits data packets to the veneer detectors to detect an interface between the master unit and the board based on the received detection command before the connection status further comprising: a filter interface communication equipment to be detected and the communication apparatus to be detected according to a predetermined rule.
  3. 3.根据权利要求2所述的接口检测方法,其特征在于,所述预定规则为仅检测在线通讯设备的在线单板。 3. The interface detection method according to claim 2, wherein said predetermined rule is detected online communication device online boards only.
  4. 4.根据权利要求1所述的接口检测方法,其特征在于,主控单元根据所接收的检测命令向单板发送检测数据包以检测所述主控单元与所述单板之间的接口的连接状态包括:所述主控单元按预定次数和预定时间间隔向所述单板发送所述检测数据包;当所述主控单元在预定时间段内未收到所述单板的反馈信息,则判定所述接口的连接状态为断开。 4. The interface detection method according to claim 1, wherein the master unit transmits data packets to the veneer detectors to detect an interface between the master unit and the board based on the received detection command connection status comprises: the master unit and a predetermined number of times said predetermined time interval to send the veneer detection data packet; feedback information is not received the master unit to the board when the predetermined period of time, it is determined that the connection state of the interface is disconnected.
  5. 5.根据权利要求1至4中任一项所述的接口检测方法,其特征在于,在采集所述主控单元和所述单板的运行数据之后还包括:根据所采集的运行数据生成信息文档。 1 according to the interface of the detection method according to claim 4, wherein, after acquiring the operation data of the master unit and the board further comprising: generating information based on operational data collected documents.
  6. 6.根据权利要求5所述的接口检测方法,其特征在于,所述运行数据还包括:所述通讯设备的IP地址、所述单板的槽位号以及检测的开始和结束时间。 6. The interface detection method as claimed in claim 5, wherein the operational data further includes: IP address of the communication device, the slot number of the board and the start and end time of detection.
  7. 7.根据权利要求1所述的接口检测方法,其特征在于,根据所采集的所述运行数据以及预存的接口错误评判规则定位所述接口的错误类型包括:将所述运行数据中表征所述接口状态的字段值与所述预存的接口错误评判规则进行匹配;根据匹配结果定位所述接口的错误类型。 7. The interface detection method according to claim 1, characterized in that the error type based on the collected operational data and the error evaluation rules stored interface positioning said interface comprises: characterizing the operating data Interface status field values ​​to match the interface of the prestored error evaluation rules; targeting error type interface according to the matching result.
  8. 8.根据权利要求1至4、7中任一项所述的接口检测方法,其特征在于,所述检测数据包为ping包。 8.1 to 4,7 interface detection method according to any one of the preceding claims, wherein said data packet is detected ping packet.
  9. 9. 一种用于通讯设备的接口检测装置,其特征在于,包括:检测单元,用于根据所接收到的检测命令向单板发送检测数据包以检测所述主控单元与所述单板之间的接口的连接状态;数据采集单元,用于当所述检测单元检测到所述接口的连接状态为断开时,采集所述主控单元和所述单板的运行数据;定位分析单元,用于根据所述数据采集单元所采集的所述运行数据以及预存的接口错误评判规则定位所述接口的错误类型。 Interface detection means 9. An apparatus for communication, characterized by comprising: a detection unit for detecting a data packet transmitted to the master unit and the detecting board to board according to the received command is detected a connection state of the interface between; data acquisition unit, when the detecting unit detects a connection state of the interface is disconnected, the main control unit and collecting data of said operation board; location analysis unit , the type of error for positioning of the interface according to the operational data collected by the data acquisition unit and the interface error evaluation rule prestored.
  10. 10.根据权利要求9所述的接口检测装置,其特征在于,还包括:预处理单元,用于按预定规则筛选出需检测的通讯设备以及该通讯设备需检测的接 10. The interface detection apparatus according to claim 9, characterized in that, further comprising: a preprocessing unit for screening according to a predetermined rule communication apparatus to be detected and connected to the communication apparatus to be detected
CN 201010282152 2010-09-14 2010-09-14 Interface detection method and device for communication equipment CN101977128B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201010282152 CN101977128B (en) 2010-09-14 2010-09-14 Interface detection method and device for communication equipment

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN 201010282152 CN101977128B (en) 2010-09-14 2010-09-14 Interface detection method and device for communication equipment
PCT/CN2011/070360 WO2012034366A1 (en) 2010-09-14 2011-01-18 Method and apparatus for detecting interface of communcation device

Publications (2)

Publication Number Publication Date
CN101977128A true true CN101977128A (en) 2011-02-16
CN101977128B CN101977128B (en) 2015-04-01

Family

ID=43576975

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201010282152 CN101977128B (en) 2010-09-14 2010-09-14 Interface detection method and device for communication equipment

Country Status (2)

Country Link
CN (1) CN101977128B (en)
WO (1) WO2012034366A1 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105049239A (en) * 2015-06-25 2015-11-11 北京百度网讯科技有限公司 Interface connection relation identification method and system
WO2017088815A1 (en) * 2015-11-27 2017-06-01 华为技术有限公司 Status detection method and wireless network node

Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20020194547A1 (en) * 2001-05-07 2002-12-19 Christensen Daniel D. Wiring fault detection, diagnosis and reporting for process control systems
CN1735047A (en) * 2004-08-12 2006-02-15 华为技术有限公司 Fault self-diagnosis method and device
CN1832417A (en) * 2005-03-10 2006-09-13 华为技术有限公司 Data collecting method and system
CN1968481A (en) * 2006-04-12 2007-05-23 华为技术有限公司 Method for detecting interior hardware interface failure of base station
US7315181B1 (en) * 2005-12-01 2008-01-01 At&T Corp. Method for automatically identifying component failure in a communication network
CN100370747C (en) * 2004-12-02 2008-02-20 华为技术有限公司 Communication equipment and its internal link fault positioning method
CN101136806A (en) * 2007-07-04 2008-03-05 中兴通讯股份有限公司 Label VLAN based switching chip port detecting method and apparatus
CN101145970A (en) * 2007-10-11 2008-03-19 中兴通讯股份有限公司 System and method for online location of communication system device failures
CN101699410A (en) * 2009-11-11 2010-04-28 中兴通讯股份有限公司 Single plate hardware fault detection method and device
CN101707503A (en) * 2009-07-03 2010-05-12 中兴通讯股份有限公司 Embedded method and device for controlling automatic positioning of channel communication failure

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101227346B (en) * 2008-02-05 2012-05-16 中兴通讯股份有限公司 Method and apparatus for failure monitoring in the course of communication equipment automatization testing

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20020194547A1 (en) * 2001-05-07 2002-12-19 Christensen Daniel D. Wiring fault detection, diagnosis and reporting for process control systems
CN1735047A (en) * 2004-08-12 2006-02-15 华为技术有限公司 Fault self-diagnosis method and device
CN100370747C (en) * 2004-12-02 2008-02-20 华为技术有限公司 Communication equipment and its internal link fault positioning method
CN1832417A (en) * 2005-03-10 2006-09-13 华为技术有限公司 Data collecting method and system
US7315181B1 (en) * 2005-12-01 2008-01-01 At&T Corp. Method for automatically identifying component failure in a communication network
CN1968481A (en) * 2006-04-12 2007-05-23 华为技术有限公司 Method for detecting interior hardware interface failure of base station
CN101136806A (en) * 2007-07-04 2008-03-05 中兴通讯股份有限公司 Label VLAN based switching chip port detecting method and apparatus
CN101145970A (en) * 2007-10-11 2008-03-19 中兴通讯股份有限公司 System and method for online location of communication system device failures
CN101707503A (en) * 2009-07-03 2010-05-12 中兴通讯股份有限公司 Embedded method and device for controlling automatic positioning of channel communication failure
CN101699410A (en) * 2009-11-11 2010-04-28 中兴通讯股份有限公司 Single plate hardware fault detection method and device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105049239A (en) * 2015-06-25 2015-11-11 北京百度网讯科技有限公司 Interface connection relation identification method and system
CN105049239B (en) * 2015-06-25 2018-05-25 北京百度网讯科技有限公司 Connection relationship identification method and system interface
WO2017088815A1 (en) * 2015-11-27 2017-06-01 华为技术有限公司 Status detection method and wireless network node

Also Published As

Publication number Publication date Type
WO2012034366A1 (en) 2012-03-22 application
CN101977128B (en) 2015-04-01 grant

Similar Documents

Publication Publication Date Title
US20050262233A1 (en) Methods and systems for history analysis for access paths in networks
US20070297349A1 (en) Method and System for Collecting Information Relating to a Communication Network
US7281040B1 (en) Diagnostic/remote monitoring by email
US6993683B2 (en) Analysis of pipelined networks
US6144961A (en) Method and system for non-intrusive measurement of transaction response times on a network
US20050050189A1 (en) Accessing results of network diagnostic functions in a distributed system
US20080222287A1 (en) Constructing an Inference Graph for a Network
US20080133978A1 (en) System and Method for Determining Fault Isolation in an Enterprise Computing System
US5761486A (en) Method and apparatus for simulating a computer network system through collected data from the network
US20040015857A1 (en) Remotely managing a data processing system via a communications network
US8204980B1 (en) Storage array network path impact analysis server for path selection in a host-based I/O multi-path system
KR20110074096A (en) Method, device and system for monitoring trouble of distributed home-network
US20030212785A1 (en) System and method for isolating faulty connections in a storage area network
US20020103900A1 (en) Remotely monitoring a data processing system via a communications network
US7430688B2 (en) Network monitoring method and apparatus
US20110154119A1 (en) Device and Method for Detecting and Diagnosing Correlated Network Anomalies
US20020091969A1 (en) Computer-based switch for testing network servers
US20090070639A1 (en) Administering Correlated Error Logs In A Computer System
US20050111063A1 (en) Modular scanning system for cabling systems
US20080016206A1 (en) Server checking using health probe chaining
WO2002025870A1 (en) Method, system, and computer program product for managing storage resources
US7836341B1 (en) System and method for automatically diagnosing protocol errors from packet traces
US7631064B1 (en) Method and apparatus for determining interconnections of network devices
US20100031093A1 (en) Internal tracing method for network attack detection
CN102323499A (en) Method for automatically testing relay protection equipment

Legal Events

Date Code Title Description
C06 Publication
C10 Entry into substantive examination
C14 Grant of patent or utility model