CN107888443A - A kind of method, transmitter and the trunking of network servicequality monitoring - Google Patents

Abstract

The invention discloses method, transmitter and the trunking of a kind of network servicequality monitoring, wherein, methods described includes：Transmitter receives the first message for the startup monitoring that webmaster is sent；The transmitter determines the identification information for the first trunking that needs monitor, wherein, first trunking is the trunking being joined directly together with the transmitter；First message described in the transmitter response, monitor request message is sent to the first trunking according to the identification information of first trunking；The transmitter receives the monitoring response message that first trunking is sent, wherein, the monitoring response message is the response message of the monitor request message；The transmitter sends the monitoring response message to the webmaster.

Description

A kind of method, transmitter and the trunking of network servicequality monitoring

Technical field

The present invention relates to Packet Transport Network (Packet Transport Network) field, more particularly to a kind of network industry Method, transmitter and the trunking of business quality-monitoring.

Background technology

With mobile service IP (Internet Protocol, the agreement interconnected between the network) development changed and LTE The demand of (Long Term Evolution, Long Term Evolution) service bearer, requirement more and more higher of the mobile retransmission to bearer network, It is required that the core layer in bearer network introduces L3 (Layer 3：OSI (Open System Interconnection, open system Interconnection) network model Internet) scheduling, and access network still uses simple L2 (Layer 2：The link of OSI network model Layer) networking, form the carrying of L2+L3VPN (Virtual Private Network, VPN) network of uniqueness Structure.

L2+L3VPN networking structures are advantageous to the network planning and construction, but due to the network carrying business by L2 and L3VPN has carried out a part for network segmentation, L2VPN and L3VPN bearer service paths, the end-to-end (End-to- of business End) quality-monitoring and sectional monitoring are inconvenient.

The demand monitored for the business end-to-end quality of IPization, TWAMP (RFC 5357：A Two-Way Active Measurement Protocol, two-way active measurement agreement) provide abundant IP layer performance measurement functions.TWAMP agreements Support accurate measurement unidirectionally between the end points that two are supported TWAMP and two-way performance, including connectedness, time delay, delay variation and Packet loss etc..But the TWAMP agreements of standard only have quality of service monitoring function end to end, it is impossible to sectional monitoring function is provided, Made troubles for segmentation quality management and Breakdown Maintenance.

The content of the invention

To solve the technical problem mentioned in background technology, the embodiment of the present invention provides a kind of network servicequality monitoring Method, transmitter and trunking, delay in phases performance monitoring can be realized, and then can effectively implemented to user traffic flow To tracking, and realize the analysis of quick segment failure and positioning.

To reach above-mentioned purpose, what the technical scheme of the embodiment of the present invention was realized in：

In a first aspect, the embodiment of the present invention provides a kind of method of network servicequality monitoring, methods described includes：

Transmitter receives the first message for the startup monitoring that webmaster is sent；

The transmitter determines the identification information for the first trunking that needs monitor, wherein, first trunking It is the trunking being joined directly together with the transmitter；

First message described in the transmitter response, set according to the identification information of first trunking to the first relaying Preparation send monitor request message；

The transmitter receives the monitoring response message that first trunking is sent, wherein, the monitoring response report Text is the response message of the monitor request message；

The transmitter sends the monitoring response message to the webmaster.

Second aspect, the embodiment of the present invention provide a kind of method of network servicequality sectional monitoring, it is characterised in that institute The method of stating includes：

The monitor request message that first trunking receiver transmitter is sent；

First trunking parses the monitor request message, determines the type of the monitor request message, wherein, The type of the monitor request message includes：Monitor latency type and monitoring link-state type；

First trunking sends monitoring response report according to the type of the monitor request message to the transmitter Text, wherein, the monitoring response message is the response message of the monitor request message；

First trunking determines the identification information of the next-hop device of first trunking, wherein described The next-hop device of one trunking is the second trunking or purpose equipment；

First trunking is according to the identification information of the next-hop device of first trunking to described first The next-hop device of trunking sends the monitor request message.

The third aspect, the embodiment of the present invention provide a kind of transmitter of network servicequality monitoring system, the transmitter Including：

First receiving module, the first message of the startup monitoring for receiving webmaster transmission；

First determining module, the identification information of the first trunking monitored for determining needs, wherein, in described first It is the trunking being joined directly together with the transmitter after equipment；

First sending module, for responding the first message, according to the identification information of first trunking to One trunking sends monitor request message；

Second receiving module, the monitoring response message sent for receiving first trunking, wherein, the monitoring Response message is the response message of the monitor request message；

Second sending module, for sending the monitoring response message to the webmaster.

Fourth aspect, the embodiment of the present invention provide a kind of first trunking of network servicequality sectional monitoring system, First trunking includes：

3rd receiving module, the monitor request message sent for receiver transmitter；

Second determining module, for parsing the monitor request message, the type of the monitor request message is determined, its In, the type of the monitor request message includes：Monitor latency type and monitoring link-state type；

4th sending module, for the type according to the monitor request message, monitoring response is sent to the transmitter Message, wherein, the monitoring response message is the response message of the monitor request message；

3rd determining module, the identification information of the next-hop device for determining first trunking, wherein described The next-hop device of first trunking is the second trunking or purpose equipment；

5th sending module, the identification information for the next-hop device according to first trunking is to described first The next-hop device of trunking sends the monitor request message.

The embodiment of the invention discloses method, transmitter and the trunking of a kind of network servicequality monitoring, wherein, institute The method of stating includes：Transmitter determines the identification information for the first trunking that needs monitor, wherein, first trunking is The trunking being joined directly together with the transmitter；The transmitter receives the first message for the startup monitoring that webmaster is sent；Institute First message described in transmitter response is stated, is sent and monitored to the first trunking according to the identification information of first trunking Request message；The transmitter receives the monitoring response message that first trunking is sent, wherein, the monitoring response report Text is the response message of the monitor request message；The transmitter sends the monitoring response message to the webmaster；In this way, Delay in phases performance monitoring can be realized, and then can effectively implement the tracking to customer service flow direction, and is realized quick Segment failure analysis and positioning.

Brief description of the drawings

Fig. 1 is the implementation process schematic diagram of the method for the network servicequality of the embodiment of the present invention one monitoring；

Fig. 2 is the implementation process schematic diagram of the method for the network servicequality of the embodiment of the present invention two monitoring；

Fig. 3-1 is the implementation process schematic diagram of the PE node reflector sectional monitoring Message processings of the embodiment of the present invention three；

Fig. 3-2 is the implementation process schematic diagram of the intermediate P-node MIP sectional monitoring Message processings of the embodiment of the present invention three；

Fig. 3-3 is the implementation process schematic diagram of three layer of two PE node sectional monitoring Message processing of the embodiment of the present invention；

Fig. 4 is the composition structural representation of the system of the network servicequality of the embodiment of the present invention four monitoring.

Embodiment

Embodiment one

In order to solve technical problem present in background technology, the embodiment of the present invention provides a kind of network servicequality monitoring Method, applied to network servicequality monitoring system, Fig. 1 is the method for the network servicequality of the embodiment of the present invention one monitoring Implementation process schematic diagram, as shown in figure 1, methods described includes：

Step S101, transmitter receive the first message for the startup monitoring that webmaster is sent；

Step S102, the transmitter determine the identification information for the first trunking that needs monitor；

Here, first trunking is the trunking being joined directly together with the transmitter, the transmitter storage There is a Label Forwarding Information Base, the Label Forwarding Information Base is used for the identification information of recording transmitter the machine and first relaying is set Standby identification information.

Step S103, first message described in the transmitter response, according to the identification information of first trunking to First trunking sends monitor request message；

Here, the type of the monitor request message includes：Monitor latency type and monitoring link-state type.The prison When surveying the type of request message to monitor latency type, first trunking at least monitors the transmitter and described first Time delay between link connected state and the monitoring transmitter and first trunking between trunking；The prison Survey request message type for monitoring link-state type when, first trunking at least monitor the transmitter with it is described Link connected state between first trunking.

Step S104, the transmitter receive the monitoring response message that first trunking is sent；

Here, the monitoring response message is the response message of the monitor request message.Correspondingly, response message is monitored Type include：Monitor latency type and monitoring link-state type.Monitor and at least wrapped in the monitoring response message of latency type Include：Link connected state and the monitoring transmitter and described first between the transmitter and first trunking Time delay between trunking；When the type of the monitoring response message is monitors link-state type, the monitoring response message Comprise at least：Monitor the link connected state between the transmitter and first trunking.

Step S105, the transmitter send the monitoring response message to the webmaster.

In the embodiment of the present invention, transmitter receives the first message for the startup monitoring that webmaster is sent；The transmitter determines The identification information of the first trunking monitored is needed, wherein, first trunking is joined directly together with the transmitter Trunking；First message described in the transmitter response, according to the identification information of first trunking in first Monitor request message is sent after equipment；The transmitter receives the monitoring response message that first trunking is sent, wherein, The monitoring response message is the response message of the monitor request message；The transmitter sends the monitoring to the webmaster Response message；It so, it is possible to realize delay in phases performance monitoring, and then can effectively implement to chase after customer service flow direction Track, and realize quick segment failure analysis and positioning.

Embodiment two

The embodiment of the present invention provides a kind of Network monitoring method again, and applied to network service monitoring system, Fig. 2 is this The implementation process schematic diagram of the Network monitoring method of inventive embodiments two, as shown in Fig. 2 methods described includes：

Step S201, transmitter receive the first message for the startup monitoring that webmaster is sent；

Here, first trunking is the trunking being joined directly together with the transmitter, the transmitter storage There is a Label Forwarding Information Base, the Label Forwarding Information Base is used for the identification information of recording transmitter the machine and first relaying is set Standby identification information.

Step S202, the transmitter determine the identification information for the first trunking that needs monitor；

Here, first trunking is the trunking being joined directly together with the transmitter, the transmitter storage There is a Label Forwarding Information Base, the Label Forwarding Information Base is used for the identification information of recording transmitter the machine and first relaying is set Standby identification information.

Step S203, first message described in the transmitter response, according to the identification information of first trunking to First trunking sends monitor request message；

Step S204, first trunking receives the monitor request message, and determines the monitor request message Type；

Step S205, first trunking judge whether the type of the monitor request message is monitoring time delay class Type；

Step S206, if the type of the monitor request message is monitoring latency type, first trunking is extremely Monitor less link connected state between the transmitter and first trunking and the monitoring transmitter with it is described Time delay between first trunking；

Step S207, if the type of the monitor request message is monitoring link-state type, first relaying is set The standby link connected state monitored between the transmitter and first trunking；

Step S208, first trunking send monitoring response message to the transmitter；

Here, the monitoring response message is the response message of the monitor request message.Correspondingly, response message is monitored Type include：Monitor latency type and monitoring link-state type.Monitor and at least wrapped in the monitoring response message of latency type Include：Link connected state and the monitoring transmitter and described first between the transmitter and first trunking Time delay between trunking；When the type of the monitoring response message is monitors link-state type, the monitoring response message Comprise at least：Monitor the link connected state between the transmitter and first trunking.

Step S209, first trunking determine the identification information of the next-hop device of first trunking；

Here, the next-hop device of first trunking can be that the second trunking can also be purpose equipment.

Step S210, first trunking according to the identification information of the next-hop device of first trunking to The next-hop device of first trunking sends the monitor request message；

Step S211, the transmitter judge that first trunking whether is received within the time set in advance to be sent Monitoring response message；

Step S212, if the transmitter receives the prison that first trunking is sent within the time set in advance Response message is surveyed, the monitoring response message is sent to webmaster by the transmitter；

Step S213, if the transmitter does not receive first trunking within the time set in advance and sent Monitoring response message, the transmitter to webmaster send the second message；

Here, second message is used to notify transmitter described in the webmaster not receive the first trunking hair The monitoring response message sent.

Embodiment three

The embodiment of the present invention first provides a kind of method of Network monitoring, applied to Network monitoring system.Specifically Method is as follows：

The sectional monitoring function of relevant device is configured on webmaster, the relevant device includes TWAMP transmitter, reflects The MIP ends of device and intermediate P-node.After TWAMP transmitters receive the message for starting sectional monitoring function, to the reflection The MIP ends of device or intermediate P-node send sectional monitoring request message, and the destination specified to webmaster carries out quality of service segmentation prison Brake.The node that the quality of service sectional monitoring request message arrives end returns to sectional monitoring response to TWAMP transmitters Message, message include the port information of arrived node, and the timestamp information (being selected according to type of message) of message. TWAMP transmitters (select according to sectional monitoring response message to webmaster reporting links information and two-way time delay according to type of functionality Select).

Here, according to monitoring delay performance whether is configured on webmaster, the sectional monitoring request message is divided into two kinds：It is a kind of To monitor the sectional monitoring request message of delay performance, the message needs to stamp timestamp information, not only needs to monitor link company Logical state, node adjacency relation, also need to monitor delay in phases performance；A kind of sectional monitoring message for monitoring Link State, should Message only needs to monitor link connected state, node adjacency relation, it is not necessary to monitor delay in phases performance.The destination can be The reflector end of PE nodes, or the MIP ends of P node.

Fig. 3-1 is the implementation process schematic diagram of the PE node reflector sectional monitoring Message processings of the embodiment of the present invention three, such as Shown in Fig. 3-1, the implementation process includes：

Step S311, all devices TWAMP sectional monitoring function is configured on webmaster；

Here, all devices include TWAMP transmitters, PE node TWAMP reflectors and TWAMP intermediate nodes.

Step S312, TWAMP sectional monitoring function is opened on webmaster, when the TWAMP transmitters receive segmentation prison After the startup order of brake, sectional monitoring request message is sent to PE node TWAMP reflectors；

Here, whether monitoring delay performance is configured with according to webmaster, this monitor request message is divided into two kinds：One kind is monitoring The sectional monitoring request message of delay performance, the message need to stamp timestamp information, not only need to monitor link connected state, Node adjacency relation, also need to monitor delay in phases performance；A kind of sectional monitoring message for monitoring Link State, the message only need Monitor link connected state, node adjacency relation, it is not necessary to monitor delay in phases performance.

Step S313, PE node TWAMP reflector ends receive the sectional monitoring request message that the TWAMP transmitters are sent Afterwards, whether Delay is carried according in sectional monitoring request message, corresponding segmentation prison is sent to the TWAMP transmitters Survey response message；

Step S314, TWAMP transmitter judges sectional monitoring response message whether is received within the time set in advance, is When, into step S315；When no, into step S317；

The sectional monitoring response message that step S315, TWAMP transmitter is sent according to PE node TWAMP reflectors obtains chain The two-way time delay of road information and monitoring section；

Step S316, TWAMP transmitter sends the nodal information of response, link information, and two-way time delay to webmaster；

Step S317, as TWAMP transmitters directly send sectional monitoring failure information to webmaster.

Fig. 3-2 is the implementation process schematic diagram of the intermediate P-node MIP sectional monitoring Message processings of the embodiment of the present invention three, such as Shown in Fig. 3-2, the implementation process includes：

Step S321, all devices node TWAMP sectional monitoring function is configured on webmaster；

Here, all devices include the MIP ends of TWAMP transmitters, TWAMP reflectors and P node TWAMP.

Step S322, TWAMP sectional monitoring function is opened on webmaster, when the TWAMP transmitters receive segmentation prison After the startup order of brake, sectional monitoring request message is sent,

Here, whether delay performance is monitored according to the configuration of webmaster, this monitoring message is divided into two kinds：One kind is monitoring time delay The sectional monitoring request message of performance, the message need to stamp timestamp information, not only need to monitor link connected state, node Syntople, also need to monitor delay in phases performance；A kind of sectional monitoring message for monitoring Link State, the message only need to supervise Surveyor's chain road connected state, node adjacency relation, it is not necessary to monitor delay in phases performance.

Step S323, P node TWAMP MIP terminations receive the sectional monitoring request message that the TWAMP transmitters are sent Afterwards, according to Delay whether is carried in sectional monitoring request message, to TWAMP transmitters transmission, segmentation is supervised accordingly Survey response message；

The sectional monitoring request message is pass-through to next-hop service node by step S324, P node TWAMP MIP ends；

Step S325, TWAMP transmitter judges sectional monitoring response message whether is received within the time set in advance, is When, into step S326；When no, into step S328；

Step S326, the TWAMP transmitters obtain pair of link information and monitoring section according to sectional monitoring response message To time delay；

Step S327, the TWAMP report the nodal information of response, link information, and two-way time delay to webmaster；

Step S328, such as described TWAMP transmitters directly send sectional monitoring failed message to webmaster.

Fig. 3-3 is the implementation process schematic diagram of three layer of two PE node sectional monitoring Message processing of the embodiment of the present invention, is such as schemed Shown in 3-3, the implementation process includes：

Step S331：All devices node TWAMP sectional monitoring function is configured on webmaster；

Here, all devices include TWAMP transmitters, the PE nodes TWAMP of layer two reflector and P node TWAMP MIP ends.

Step S332：All devices node TWAMP sectional monitoring function is opened on webmaster, when the TWAMP is sent After device receives the startup order of sectional monitoring function, sectional monitoring request message is actively initiated；

Here, whether delay performance is monitored according to the configuration of webmaster, this monitoring message is divided into two kinds：One kind is monitoring time delay The sectional monitoring request message of performance, the message need to stamp timestamp information, not only need to monitor link connected state, node Syntople, also need to monitor delay in phases performance；A kind of sectional monitoring message for monitoring Link State, the message only need to supervise Surveyor's chain road connected state, node adjacency relation, it is not necessary to monitor delay in phases performance.

Step S333：The reflector of the PE nodes TWAMP of layer two receives the segmentation prison that the TWAMP transmitters are sent Survey after request message, the MAC Address of message is analyzed, without analyzing IP address；

Step S334, when whether the reflector of the PE nodes TWAMP of layer two in sectional monitoring request message according to carrying Prolong information and send corresponding segmentation response message to transmitter；

Step S335, TWAMP transmitter judges sectional monitoring response message whether is received within the time set in advance, is When, into step S336；When no, into step S338；

Step S336, the sectional monitoring that the TWAMP transmitters are sent according to two layers of PE nodes TWAMP reflector respond The two-way time delay of Receive message link information and monitoring section；

Step S337, the TWAMP transmitters report the nodal information of response to webmaster, link information, and it is two-way when Prolong；

Step S338, the TWAMP transmitters directly send sectional monitoring failed message to webmaster.

Using the method described in the embodiment of the present invention, in current PTN device quality of service TWAMP functions enrich more Newly, increase sectional monitoring function, can effectively reflect actual connected state, the adjacent pass of node of current TWAMP function services System, can interpolate that whether the business of estimated TWAMP tests is consistent with practical business flow direction, and link bidirectional time delay, in order to Network manager carries out accident analysis and positioning.

Example IV

The present embodiment provides a kind of Network monitoring system, and Fig. 4 is the Network monitoring system of the embodiment of the present invention four Composition structural representation, as shown in figure 4, the system includes the trunking 42 of transmitter 41 and first, the transmitter bag Include：First receiving module 411, the first determining module 412, the first sending module 413, the second receiving module 414, first judge mould Block 415, the second sending module 416 and the 3rd sending module 417；First trunking includes：3rd receiving module 421, Second determining module 422, the 4th sending module 423, the 3rd determining module 424 and the 5th sending module 425, wherein：

First receiving module 411, the first message of the startup monitoring for receiving webmaster transmission；

First determining module 412, the identification information of the first trunking monitored for determining needs, wherein, institute It is the trunking being joined directly together with the transmitter to state the first trunking；

First sending module 413, for responding the first message, believed according to the mark of first trunking Cease to the first trunking and send monitor request message；

3rd receiving module 421, the monitor request message sent for receiver transmitter；

Second determining module 422, for parsing the monitor request message, determine the class of the monitor request message Type, wherein, the type of the monitor request message includes：Monitor latency type and monitoring link-state type；

4th sending module 423, for the type according to the monitor request message, send and supervise to the transmitter Survey response message；

Here, the monitoring response message is the response message of the monitor request message；4th sending module 423 Further comprise：First judging unit, for judging whether the type of the monitor request message is monitoring latency type；First Monitoring unit, if the type for the monitor request message is monitoring latency type, at least monitor the transmitter and institute State the link connected state between the first trunking and monitor time delay between the transmitter and first trunking； First transmitting element, for sending monitoring response message to the transmitter, wherein, the monitoring response message carries described Link connected state and the monitoring transmitter between transmitter and first trunking are set with the described first relaying Time delay between standby；Second monitoring unit, it is described if the type for the monitor request message is monitoring link-state type First trunking monitors the link connected state between the transmitter and first trunking；Second transmitting element, For to the transmitter send monitoring response message, wherein, it is described monitoring response message carry the transmitter with it is described Link connected state between first trunking.

3rd determining module 424, the identification information of the next-hop device for determining first trunking, its Described in the next-hop device of the first trunking be the second trunking or purpose equipment；

5th sending module 425, for the next-hop device according to first trunking identification information to The next-hop device of first trunking sends the monitor request message；

Second receiving module 414, the monitoring response message sent for receiving first trunking, wherein, The monitoring response message is the response message of the monitor request message；

First judge module 415, for judging that first relaying whether is received within the time set in advance to be set The monitoring response message that preparation is sent；

Second sending module 416, if for receiving the first trunking hair within the time set in advance The monitoring response message sent, the monitoring response message is sent to the webmaster；

3rd sending module 417, if set for not receiving first relaying within the time set in advance The monitoring response message that preparation is sent, the second message is sent to webmaster；

Here, second message is used to notify transmitter described in the webmaster not receive the first trunking hair The monitoring response message sent.

It need to be noted that be：The description of above Network monitoring system embodiment, with above method embodiment Description is similar, has the beneficial effect similar with embodiment of the method, therefore do not repeat.Supervised for inventive network business The ins and outs not disclosed in examining system embodiment, it refer to the description of the inventive method embodiment and understand, to save length, Therefore repeat no more.

It should be understood that " one embodiment " or " embodiment " that specification is mentioned in the whole text mean it is relevant with embodiment During special characteristic, structure or characteristic are included at least one embodiment of the present invention.Therefore, occur everywhere in entire disclosure " in one embodiment " or " in one embodiment " identical embodiment is not necessarily referred to.In addition, these specific feature, knots Structure or characteristic can combine in one or more embodiments in any suitable manner.It should be understood that in the various implementations of the present invention In example, the size of the sequence number of above-mentioned each process is not meant to the priority of execution sequence, and the execution sequence of each process should be with its work( It can be determined with internal logic, the implementation process without tackling the embodiment of the present invention forms any restriction.The embodiments of the present invention Sequence number is for illustration only, does not represent the quality of embodiment.

It should be noted that herein, term " comprising ", "comprising" or its any other variant are intended to non-row His property includes, so that process, method, article or device including a series of elements not only include those key elements, and And also include the other element being not expressly set out, or also include for this process, method, article or device institute inherently Key element.In the absence of more restrictions, the key element limited by sentence "including a ...", it is not excluded that including this Other identical element also be present in the process of key element, method, article or device.

In several embodiments provided herein, it should be understood that disclosed apparatus and method, it can be passed through Its mode is realized.Apparatus embodiments described above are only schematical, for example, the division of the unit, is only A kind of division of logic function, there can be other dividing mode when actually realizing, such as：Multiple units or component can combine, or Another system is desirably integrated into, or some features can be ignored, or do not perform.In addition, shown or discussed each composition portion Point mutual coupling or direct-coupling or communication connection can be the INDIRECT COUPLINGs by some interfaces, equipment or unit Or communication connection, can be electrical, mechanical or other forms.

The above-mentioned unit illustrated as separating component can be or may not be physically separate, show as unit The part shown can be or may not be physical location；Both a place can be located at, multiple network lists can also be distributed to In member；Partly or entirely unit therein can be selected to realize the purpose of this embodiment scheme according to the actual needs.

In addition, each functional unit in various embodiments of the present invention can be fully integrated into a processing unit, also may be used To be each unit individually as a unit, can also two or more units it is integrated in a unit；It is above-mentioned Integrated unit can both be realized in the form of hardware, can also be realized in the form of hardware adds SFU software functional unit.

One of ordinary skill in the art will appreciate that：Realizing all or part of step of above method embodiment can pass through Programmed instruction related hardware is completed, and foregoing program can be stored in computer read/write memory medium, and the program exists During execution, execution the step of including above method embodiment；And foregoing storage medium includes：Movable storage device, read-only deposit Reservoir (Read Only Memory, ROM), magnetic disc or CD etc. are various can be with the medium of store program codes.

Or if the above-mentioned integrated unit of the present invention is realized in the form of software function module and is used as independent product Sale in use, can also be stored in a computer read/write memory medium.Based on such understanding, the present invention is implemented The part that the technical scheme of example substantially contributes to prior art in other words can be embodied in the form of software product, The computer software product is stored in a storage medium, including some instructions are causing a computer equipment (can be with It is personal computer, server or network equipment etc.) perform all or part of each embodiment methods described of the present invention. And foregoing storage medium includes：Movable storage device, ROM, magnetic disc or CD etc. are various can be with Jie of store program codes Matter.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (10)

1. A kind of 1. method of network servicequality monitoring, it is characterised in that methods described includes：

   Transmitter receives the first message for the startup monitoring that webmaster is sent；

   The transmitter determines to need the identification information of the first trunking monitored, wherein, first trunking be with The trunking that the transmitter is joined directly together；

   First message described in the transmitter response, sent out according to the identification information of first trunking to the first trunking Send monitor request message；

   The transmitter receives the monitoring response message that first trunking is sent, wherein, the monitoring response message is The response message of the monitor request message；

   The transmitter sends the monitoring response message to the webmaster.
2. 2. according to the method described in claim 1, it is characterised in that methods described also includes：

   The transmitter judges the monitoring response report that first trunking is sent whether is received within the time set in advance Text；

   If the transmitter does not receive the monitoring response report that first trunking is sent within the time set in advance Text, the second message is sent to webmaster, wherein second message is for notifying that it is described that transmitter described in the webmaster does not receive The monitoring response message that first trunking is sent.
3. A kind of 3. method of network servicequality sectional monitoring, it is characterised in that methods described includes：

   The monitor request message that first trunking receiver transmitter is sent；

   First trunking parses the monitor request message, determines the type of the monitor request message；

   First trunking sends monitoring response message according to the type of the monitor request message to the transmitter, Wherein, the monitoring response message is the response message of the monitor request message；

   First trunking determines the identification information of the next-hop device of first trunking, wherein in described first After the next-hop device of equipment be the second trunking or purpose equipment；

   First trunking relays according to the identification information of the next-hop device of first trunking to described first The next-hop device of equipment sends the monitor request message.
4. 4. according to the method described in claim 3, it is characterised in that first trunking is according to the monitoring request report The type of text, sending monitoring response message to the transmitter includes：

   First trunking judges whether the type of the monitor request message is monitoring latency type；

   If the type of the monitor request message is monitoring latency type, first trunking at least monitors the transmission Link connected state between device and first trunking and the monitoring transmitter and first trunking it Between time delay；

   First trunking sends monitoring response message to the transmitter, wherein, the monitoring response message carries In link connected state and the monitoring transmitter and described first between the transmitter and first trunking After time delay between equipment.
5. 5. according to the method described in claim 4, it is characterised in that first trunking is according to the monitoring request report The type of text, sending monitoring response message to the transmitter also includes：

   If the type of the monitor request message is monitoring link-state type, first trunking monitors the transmission Link connected state between device and first trunking；

   First trunking sends monitoring response message to the transmitter, wherein, the monitoring response message carries Link connected state between the transmitter and first trunking.
6. 6. a kind of transmitter of network servicequality monitoring system, it is characterised in that the transmitter includes：

   First receiving module, the first message of the startup monitoring for receiving webmaster transmission；

   First determining module, the identification information of the first trunking monitored for determining needs, wherein, first relaying is set Standby is the trunking being joined directly together with the transmitter；

   First sending module, for responding the first message, according to the identification information of first trunking in first Monitor request message is sent after equipment；

   Second receiving module, the monitoring response message sent for receiving first trunking, wherein, the monitoring response Message is the response message of the monitor request message；

   Second sending module, for sending the monitoring response message to the webmaster.
7. 7. according to the transmitter described in claim 6, it is characterised in that the transmitter also includes：

   First judge module, the monitoring sent for judging whether to receive first trunking within the time set in advance Response message；

   3rd sending module, if the monitoring sent for not receiving first trunking within the time set in advance Response message, the second message is sent to webmaster, wherein second message is used to notify transmitter described in the webmaster not receive The monitoring response message sent to first trunking.
8. 8. a kind of trunking of network servicequality sectional monitoring system, it is characterised in that first trunking includes：

   3rd receiving module, the monitor request message sent for receiver transmitter；

   Second determining module, for parsing the monitor request message, determine the type of the monitor request message；

   4th sending module, for the type according to the monitor request message, monitoring response message is sent to the transmitter, Wherein, the monitoring response message is the response message of the monitor request message；

   3rd determining module, the identification information of the next-hop device for determining first trunking, wherein described first The next-hop device of trunking is the second trunking or purpose equipment；

   5th sending module, the identification information for the next-hop device according to first trunking relay to described first The next-hop device of equipment sends the monitor request message.
9. 9. according to the trunking described in claim 8, it is characterised in that the 4th sending module includes：

   First judging unit, for judging whether the type of the monitor request message is monitoring latency type；

   First monitoring unit, if the type for the monitor request message is monitoring latency type, at least monitor the hair Send the link connected state and the monitoring transmitter and first trunking between device and first trunking Between time delay；

   First transmitting element, for sending monitoring response message to the transmitter, wherein, the monitoring response message carries In link connected state and the monitoring transmitter and described first between the transmitter and first trunking After time delay between equipment.
10. 10. according to the trunking described in claim 9, it is characterised in that the 4th sending module also includes：

    Second monitoring unit, if the type for the monitor request message is monitoring link-state type, in described first Link connected state between transmitter described in monitoring of equipment and first trunking；

    Second transmitting element, for sending monitoring response message to the transmitter, wherein, the monitoring response message carries Link connected state between the transmitter and first trunking.