CN101605076A - Test access point and data link monitoring method - Google Patents

Abstract

The invention provides a kind of test access point and data link monitoring method, described test access point comprises: at least two ports are used for receiving respectively the bi-directional data on the measured data link; At least two monitoring mouths; Dispensing unit is used to dispose the work at present pattern; Copied cells, be connected with described port, described monitoring mouth and described dispensing unit, be used for when described work at present pattern is the single port mode of operation, described bi-directional data is copied to different monitoring mouths respectively, when described work at present pattern is convergent working pattern, described bi-directional data is copied to same monitoring mouth.The application of the invention can be switched the mode of operation of TAP as required between single port mode of operation and convergent working pattern.

Description

Test access point and data link monitoring method

Technical field

The present invention relates to network service monitoring field, relate in particular to a kind of test access point and data link monitoring method.

Background technology

The major function of TAP (Test Access Point, test access point) is to finish duplicating of data on the network data link, to carry out the monitoring of data link.Be illustrated in figure 1 as the application schematic diagram of single port TAP of the prior art, single port TAP is connected with tested network node 2 with tested network node 1 respectively with port 2 by port 1, single port TAP transmits the bi-directional data between tested network node 1 and the tested network node 2, and after described bi-directional data duplicated respectively from monitoring mouthful 1 and monitoring mouthful 2 outputs, wherein, the monitoring mouthful data that the tested network node 1 of 1 output sends to tested network node 2, monitor mouthful data that the tested network node 2 of 2 outputs sends to tested network node 1, the data of monitoring mouth 1 and monitoring mouthful 2 outputs are used for data monitoring system.It is many that above-mentioned single port TAP has monitoring mouthful demand, the shortcoming that integrated level is not high.

For saving the monitoring mouth, can adopt and converge TAP and finish duplicating of data on the network data link, be illustrated in figure 2 as the application schematic diagram of the TAP of converging of the prior art, converge TAP and transmit bi-directional data between tested network node 1 and the tested network node 2, and described bi-directional data is duplicated the back export from same monitoring mouth, use for data monitoring system.Though the above-mentioned TAP of converging can save the monitoring mouth, yet when the data rate of monitored data link rose to certain flow, the data at monitoring mouthful place may be overflowed, thereby cause loss of data.

Summary of the invention

In view of this, the embodiment of the invention provides a kind of test access point and data link monitoring method, can as required the mode of operation of TAP be switched between single port mode of operation and convergent working pattern.

For addressing the above problem, the embodiment of the invention provides a kind of test access point, comprising:

At least two ports are used for receiving respectively the bi-directional data on the measured data link;

At least two monitoring mouths;

Dispensing unit is used to dispose the work at present pattern;

Copied cells, be connected with described port, described monitoring mouth and described dispensing unit, be used for when described work at present pattern is the single port mode of operation, described bi-directional data is copied to different monitoring mouths respectively, when described work at present pattern is convergent working pattern, described bi-directional data is copied to same monitoring mouth.

Described test access point also comprises:

Retransmission unit is connected with described port, is used to transmit described bi-directional data.

Described dispensing unit comprises:

Receiving element is used to receive the exterior arrangement order;

First dispensing unit is used for disposing described work at present pattern according to described exterior arrangement order.

Described dispensing unit comprises:

Judging unit is used to judge that whether the data rate of described measured data link is more than or equal to predetermined threshold value;

Second dispensing unit, when being used for data rate at described measured data link more than or equal to described predetermined threshold value, with described work at present pattern configurations is the single port mode of operation, during less than described predetermined threshold value, is convergent working pattern with described work at present pattern configurations at the data rate of described measured data link.

Described test access point also comprises:

Control unit is used at system running state just often, controls described port and is connected with described copied cells by described retransmission unit simultaneously, and when system running state was unusual, it was direct-connected to control described port.

Described test access point also comprises:

The relay switching matrix, described port connects by described relay switching matrix, is used for switching under the control of described control unit, to change the connection status of described port.

The embodiment of the invention also provides a kind of data link monitoring method, may further comprise the steps:

Configuration step: test access point configuration work at present pattern;

Receiving step: described test access point receives bi-directional data on the measured data link respectively by port;

Copy step: when described test access point is the single port mode of operation in described work at present pattern, described bi-directional data is copied to different monitoring mouths respectively, when described work at present pattern is convergent working pattern, described bi-directional data is copied to same monitoring mouth.

Also comprise after the described receiving step:

Transmit step: described test access point is transmitted described bi-directional data.

Described configuration step is specially:

Described test access point receives the exterior arrangement order;

Described test access point disposes described work at present pattern according to described exterior arrangement order.

Described configuration step is specially:

Described test access point judges that whether the data rate of described measured data link is more than or equal to predetermined threshold value;

Described test access point during more than or equal to described predetermined threshold value, is a single port mode of operation with described work at present pattern configurations at the data rate of described measured data link;

Described test access point during less than described predetermined threshold value, is a convergent working pattern with described work at present pattern configurations at the data rate of described measured data link.

Embodiments of the invention have following beneficial effect:

Test access point can be as required, realize the switching between convergent working pattern and the single port mode of operation, with the bi-directional data on the measured data link that receives, copy to different monitoring mouths respectively or copy to same monitoring mouth, thereby realize the flexible deployment of data monitoring system, the engineering maintenance of reduced data monitoring system has improved the availability of data monitoring system.

Description of drawings

Fig. 1 is the application schematic diagram of single port TAP of the prior art;

Fig. 2 is the application schematic diagram that converges TAP of the prior art;

Fig. 3 is the structural representation of the test access point of the embodiment of the invention;

Another structural representation of the test access point of Fig. 4 embodiment of the invention;

The another structural representation of the test access point of Fig. 5 embodiment of the invention;

A structural representation again of the test access point of Fig. 6 embodiment of the invention;

Fig. 7 is a concrete application scenarios schematic diagram of the test access point of the embodiment of the invention;

Fig. 8 is the schematic flow sheet of the data link monitoring method of the embodiment of the invention;

Fig. 9 is another schematic flow sheet of the data link monitoring method of the embodiment of the invention.

Embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.

Be illustrated in figure 3 as the structural representation of the test access point of the embodiment of the invention, described test access point comprises:

At least two monitoring mouths 301; Described monitoring mouthfuls 301 is connected with data monitoring system, and the data on the measured data link that is used for described test access point is duplicated output to described data monitoring system;

Dispensing unit 302 is used to dispose the work at present pattern; The work at present pattern of the described test access point of described dispensing unit 302 configurations is single port mode of operation or convergent working pattern, when the work at present pattern of described test access point is the single port mode of operation, described test access point is single port TAP, when the work at present pattern of described test access point was convergent working pattern, described test access point was and converges TAP;

At least two ports 303 are used for receiving respectively the bi-directional data on the measured data link; Described two ports 303 are connected with the second tested network node with the first tested network node of described measured data both link ends respectively, wherein, one port receives first data that the described first tested network node sends to the described second tested network node, another port receives second data that the described second tested network node sends to the described first tested network node, and described first data and second data are the bi-directional data on the described measured data link;

Copied cells 304, be used for being connected with described port 303, described monitoring mouth 301 and described dispensing unit 302, be used for when described work at present pattern is the single port mode of operation, described bi-directional data is copied to different monitoring mouths 301 respectively, when described work at present pattern is convergent working pattern, described bi-directional data is copied to same monitoring mouth 301.Described bi-directional data is copied to different monitoring mouths 301 respectively, after described first data that are about to receive and second data are duplicated, send to different monitoring mouths 301; Described bi-directional data is copied to different monitoring mouths 301 respectively, after described first data that are about to receive and described second data are duplicated, send to same monitoring mouth 301.

The test access point that provides by the foregoing description, can be as required, realize the switching between convergent working pattern and the single port mode of operation, with the bi-directional data on the measured data link that receives, copy to different monitoring mouths respectively or copy to same monitoring mouth, thereby realize the flexible deployment of data monitoring system, the engineering maintenance of reduced data monitoring system has improved the availability of data monitoring system.

In addition, for can be so that the first tested network node of measured data both link ends and the second tested network node can proper communications, be illustrated in figure 4 as another structural representation of the test access point of the embodiment of the invention, on the basis of embodiment shown in Figure 3, described test access point also comprises:

Retransmission unit 305 is used for being connected with described port 303, is used to transmit described bi-directional data; That is, first data forwarding that the described first tested network node that receives is sent is to the described second tested network node, and second data forwarding that the described second tested network node that receives is sent is to the described first tested network node.

In the foregoing description, described test access point can also provide a network management interface, be connected with the extranets guard system, and according to the order that network management system sends, configuration work at present pattern, as shown in Figure 4, described dispensing unit 302 comprises:

Receiving element 3021 is used to receive the exterior arrangement order;

First dispensing unit 3022 is used for disposing described work at present pattern according to described exterior arrangement order.

In addition, described test access point also can self detect the data rate of measured data link, during more than or equal to predetermined threshold value, can be the single port mode of operation at the data rate that detects the measured data link with the work at present pattern configurations, prevents that monitoring mouthful data from overflowing; During less than predetermined threshold value, can be convergent working pattern at the data rate that detects the measured data link with the work at present pattern configurations, reduces the demand of monitoring mouthful.

Be illustrated in figure 5 as the another structural representation of the test access point of the embodiment of the invention, on the basis of embodiment shown in Figure 4, described dispensing unit 302 comprises:

Judging unit 3023 is used to judge that whether the data rate of described measured data link is more than or equal to predetermined threshold value;

Second dispensing unit 3024, when being used for data rate at described measured data link more than or equal to described predetermined threshold value, with described work at present pattern configurations is the single port mode of operation, during less than described predetermined threshold value, is convergent working pattern with described work at present pattern configurations at the data rate of described measured data link.

Test access point in the course of the work, might power down or generation systems internal fault, when power down or generation systems internal fault, then need the operation of halt system, and need the transmission of the data between assurance and the link-attached port 303 of measured data unaffected.

Be illustrated in figure 6 as a structural representation again of the test access point of the embodiment of the invention, on the basis of embodiment shown in Figure 4, described test access point also comprises:

Control unit 306 is used at system running state just often, controls described port and is connected with described copied cells 304 by described retransmission unit 305 simultaneously, and when system running state was unusual, it was direct-connected to control described port 303.Described port 303 is direct-connected, and the internal element in the promptly described test access point no longer carries out any processing to the data on the described measured data link, data direct transparent transmission between described port 303.

In addition, described test access point can also comprise a relay switching matrix 307, and described port 303 connects by described relay switching matrix 307, is used for switching under the control of described control unit 306, to change the connection status of described port 303.

Described control unit 306 can be according to the order of extranets guard system transmission, carry out above-mentioned control operation, certainly, described test access point also can self be monitored the running status of system, carry out above-mentioned control operation according to monitoring result, as shown in Figure 6, described test access point can also comprise:

Monitoring unit 308 is connected with described control unit 306, is used for the supervisory control system running state, and monitored results is sent to described control unit 306.

In addition, each internal element of above-mentioned test access point all needs to power on when work, and therefore, described test access point also comprises: power supply unit is used to provide the system works power supply.Described power supply unit can provide the power supply of different voltages for each internal element of described test access point.

For example above-mentioned test access point is described below.

Be illustrated in figure 7 as a concrete application scenarios schematic diagram of the test access point of the embodiment of the invention, described test access point comprises: power supply unit, interface unit, central control unit, physical chip interface unit, exchange layer chip processing unit and logic control element.

Power supply unit provides each unit of internal system required various voltage sources, for example can provide voltage sources such as 3.3V, 2.5V, 1.8V, 1.2V or 1.0V.

Interface unit comprises plurality of ports, and those port parts are configured to port, is used for being connected with the tested network node of measured data both link ends, and a part is configured to the monitoring mouth, is used for being connected with data monitoring system; Described interface unit also comprises the relay switching matrix, and described relay switching matrix is similar to a single-pole double-throw switch (SPDT), is connected by this relay switching matrix with 8 heart yearns of the link-attached port of measured data.When system running state is unusual, as power down or generation systems internal fault, interface unit is according to the control level of logic control element output, the control relay switching matrix switches, the port that connects the measured data link is switched to direct-connected state, and promptly data are without any processing of the internal element of described test access point, directly transparent transmission, thereby guarantee the test access point power down or when breaking down, the transmission to the data on the measured data link does not impact.When system running state just often, interface unit control relay switching matrix switches, the data that port is received switch to physical chip interface unit and exchange layer chip processing unit, thereby realize test access point duplicating the data on the measured data link.In addition, also have the network interface protective circuit in the interface unit of the embodiment of the invention, have antistatic and anti-lightning strike protective effect.

Central control unit is by PCI (Pedpherd Component Interconnect, peripheral element extension interface) bus is connected with exchange layer chip processing unit, configuration register and status register by pci bus read-write exchange layer chip processing unit, finish configuration to the mode of operation of exchange layer chip processing unit, the mode of operation of exchange layer chip processing unit is configured to single port mode of operation or convergent working pattern, promptly carries out the function of the dispensing unit 302 in the foregoing description; Described central control unit can also provide network management interface, be used to receive the order that network management system sends, finish a configuration according to described order, promptly carry out the receiving element 3021 in the foregoing description and the function of first dispensing unit 3022 mode of operation of exchange layer chip processing unit; Central control unit also provides the control interface to logic control element, thus the connection status of the port in the control interface unit; In addition, described central control unit can also be monitored the running status of system, the operating state of other each unit in the polling system, and when system running state was unusual, alarm report was given network management system.

The physical chip interface unit is handled receiving data, finish the recovery of data link clock, the processing capacities such as conversion of analog and digital signal, interface between physical chip interface unit and the exchange layer chip processing unit is SGMII (Serial Gigabit Media Independent Interface, a serial gigabit Media Independent Interface) interface.

Exchange layer chip processing unit is forced to transmit to the data that receive, and execution mirror image operation (being the operation that above-mentioned copied cells 304 is carried out), when the work at present pattern of test access point is the single port mode of operation, the bi-directional data of port is mirrored to different monitoring mouths respectively, when the work at present pattern of test access point is convergent working pattern, the bi-directional data of port is mirrored to same monitoring mouthful.

Logic control element is provided with register and latch, be used to receive the control command of central control unit, judge the operation that needs execution, output control corresponding level, the relay switching matrix of control interface unit switches, thereby the connection status of Control Network mouth is promptly carried out the function of the control unit 306 in the foregoing description.Logic control element is by reading the system status monitoring register of central control unit, whether normal with the running status of judging system, in case find that system running state is unusual, for preventing the frequent switching of relay switching matrix, the bypass operating state of logic control element lock-up relay switching matrix, make with the link-attached port of measured data direct-connectedly, no longer switch.

In the foregoing description, the QUICC processor that can adopt MOTOLORA company is as above-mentioned central control unit, and this preparation implement has that performance is good, integrated level is high and the cost performance advantages of higher; The chip that can adopt BROADCOM company is as above-mentioned exchange layer chip processing unit, and this chip can provide MAC (Media Access Control, the media interviews control) layer data of maximum 24 ports to handle; Can use 3 BROADCOM chips that 4 tunnel physical layer process functions are provided as above-mentioned physical chip interface unit, finish the processing of 12 physical ports altogether.The interface unit of supposing the embodiment of the invention has 12 ports, when the mode of operation of test access point is configured to convergent working pattern, generally, the 1-8 port of interface unit is set to port, the 9-12 port is set to the monitoring mouth, when the mode of operation of test access point was configured to the single port mode of operation, the 1-6 port was set to port, and the 7-12 port is set to the monitoring mouth.

Be illustrated in figure 8 as the schematic flow sheet of the data link monitoring method of the embodiment of the invention, described data link monitoring method may further comprise the steps:

Step 801 is a configuration step, test access point configuration work at present pattern;

Step 802 is a receiving step, and described test access point receives bi-directional data on the measured data link respectively by port;

Step 803 is a copy step: when described test access point is the single port mode of operation in described work at present pattern, described bi-directional data is copied to different monitoring mouths respectively, when described work at present pattern is convergent working pattern, described bi-directional data is copied to same monitoring mouth.

In addition, for can be so that the first tested network node of measured data both link ends and the second tested network node can proper communications, also comprise after the above-mentioned steps 802: transmit step: described test access point be transmitted described bi-directional data.

In the foregoing description, described test access point can also provide a network management interface, is connected with the extranets guard system, according to the order of network management system transmission, configuration work at present pattern, this moment, described configuration step can be specially: described test access point receives the exterior arrangement order; Described test access point disposes described work at present pattern according to described exterior arrangement order.

In addition, described test access point also can self detect the data rate of measured data link, during more than or equal to predetermined threshold value, can be the single port mode of operation at the data rate that detects the measured data link with the work at present pattern configurations, prevents that monitoring mouthful data from overflowing; During less than predetermined threshold value, can be convergent working pattern at the data rate that detects the measured data link with the work at present pattern configurations, reduces the demand of monitoring mouthful.At this moment, described configuration step can be specially: described test access point judges that whether the data rate of described measured data link is more than or equal to predetermined threshold value; Described test access point during more than or equal to described predetermined threshold value, is a single port mode of operation with described work at present pattern configurations at the data rate of described measured data link; Described test access point during less than described predetermined threshold value, is a convergent working pattern with described work at present pattern configurations at the data rate of described measured data link.

Test access point in the course of the work, might power down or generation systems internal fault, when power down or generation systems internal fault, then need the operation of halt system, and need the transmission of the data between assurance and the link-attached port of measured data unaffected.

Be illustrated in figure 9 as another schematic flow sheet of the data link monitoring method of the embodiment of the invention, described data link monitoring method may further comprise the steps:

Step 901, test access point configuration work at present pattern;

Step 902, described test access point receives bi-directional data on the measured data link respectively by port;

Step 903, described test access point supervisory control system running state, at system running state just often, and execution in step 905, when the running status of system is unusual, execution in step 904;

Step 904, it is direct-connected that described test access point is controlled described port;

Step 905, described test access point is transmitted described bi-directional data;

Step 906, described test access point is judged the work at present pattern, when described work at present pattern is the single port mode of operation, execution in step 907, when described work at present pattern is convergent working pattern, execution in step 908;

Step 907, described test access point copies to different monitoring mouths respectively with described bi-directional data;

Step 908, described test access point copies to same monitoring mouth with described bi-directional data.

The data link monitoring method that provides by the foregoing description, can be as required, the mode of operation that realizes test access point is switched between convergent working pattern and single port mode of operation, with the bi-directional data on the measured data link that receives, copy to different monitoring mouths respectively or copy to same monitoring mouth, thereby realize the flexible deployment of data monitoring system, the engineering maintenance of reduced data monitoring system has improved the availability of data monitoring system.

The above only is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. a test access point is characterized in that, comprising:

At least two ports are used for receiving respectively the bi-directional data on the measured data link;

At least two monitoring mouths;

Dispensing unit is used to dispose the work at present pattern;

Copied cells, be connected with described port, described monitoring mouth and described dispensing unit, be used for when described work at present pattern is the single port mode of operation, described bi-directional data is copied to different monitoring mouths respectively, when described work at present pattern is convergent working pattern, described bi-directional data is copied to same monitoring mouth.

2. test access point according to claim 1 is characterized in that, also comprises:

Retransmission unit is connected with described port, is used to transmit described bi-directional data.

3. test access point according to claim 1 is characterized in that, described dispensing unit comprises:

Receiving element is used to receive the exterior arrangement order;

First dispensing unit is used for disposing described work at present pattern according to described exterior arrangement order.

4. test access point according to claim 1 is characterized in that, described dispensing unit comprises:

Judging unit is used to judge that whether the data rate of described measured data link is more than or equal to predetermined threshold value;

Second dispensing unit, when being used for data rate at described measured data link more than or equal to described predetermined threshold value, with described work at present pattern configurations is the single port mode of operation, during less than described predetermined threshold value, is convergent working pattern with described work at present pattern configurations at the data rate of described measured data link.

5. test access point according to claim 1 is characterized in that, also comprises:

Control unit is used at system running state just often, controls described port and is connected with described copied cells by described retransmission unit simultaneously, and when system running state was unusual, it was direct-connected to control described port.

6. test access point according to claim 5 is characterized in that, also comprises:

The relay switching matrix, described port connects by described relay switching matrix, is used for switching under the control of described control unit, to change the connection status of described port.

7. a data link monitoring method is characterized in that, may further comprise the steps:

Configuration step: test access point configuration work at present pattern;

Receiving step: described test access point receives bi-directional data on the measured data link respectively by port;

Copy step: when described test access point is the single port mode of operation in described work at present pattern, described bi-directional data is copied to different monitoring mouths respectively, when described work at present pattern is convergent working pattern, described bi-directional data is copied to same monitoring mouth.

8. data link monitoring method according to claim 7 is characterized in that, also comprises after the described receiving step:

Transmit step: described test access point is transmitted described bi-directional data.

9. data link monitoring method according to claim 7 is characterized in that, described configuration step is specially:

Described test access point receives the exterior arrangement order;

Described test access point disposes described work at present pattern according to described exterior arrangement order.

10. data link monitoring method according to claim 7 is characterized in that, described configuration step is specially:

Described test access point judges that whether the data rate of described measured data link is more than or equal to predetermined threshold value;

Described test access point during more than or equal to described predetermined threshold value, is a single port mode of operation with described work at present pattern configurations at the data rate of described measured data link;

Described test access point during less than described predetermined threshold value, is a convergent working pattern with described work at present pattern configurations at the data rate of described measured data link.

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