CN104639351A - Processing system and method for constructing network structure deployment diagram - Google Patents

Abstract

The invention provides a processing system and method for constructing a network structure deployment diagram. The processing system and method is used for analyzing the network structure deployment of a target network. The method includes: the processing system transmits a request instruction to each network node of the target network to obtain network traffic state information, such as input/output total traffic value and input/output total packet value, of the port of each network node of the target network, the network traffic state information of the ports is matched to analyze the connection relations of the ports, and the network structure deployment diagram of the target network is generated according to the connection relations. The processing method has the advantages that the network structure deployment diagram is built by using the traffic data information of the ports of the network, and the method is easy to implement, high in operation efficiency, especially suitable for large network systems with a large number of network terminals, and the like.

Description

In order to treatment system and the method thereof of structure network structure deployment diagram

Technical field

The present invention relates to a kind of network configuration deployment analysis technology, particularly relate to a kind of data on flows information of each port in network that utilizes to generate treatment system and the method thereof of the network configuration deployment diagram of network configuration deployment diagram.

Background technology

Along with the high speed development of network technology, network management work also with become increasingly sophisticated, in order to improve the functional and operability of the network equipment and Service Management, fast and correctly draw out structure deployment diagram corresponding to network system, network management personnel's quick position network failure can be contributed to, the overall architecture of optimized network or specific region are the bases of guaranteeing network management system Effec-tive Function, and then to have become in network management an important link.

The analysis operation that existing network configuration is disposed, normally sending PING(echo Request Packet by engineer through remote computer) instruction is to each node in network, to detect the connection state of respectively this node, but, the shortcoming of the method is to detect a network node at every turn, day by day huge along with the network architecture, the quantity of network node is also doubled and redoubled, the analytical work completing the deployment of primary network structure often needs the time of at substantial, meanwhile, dynamic routing, the application of the technology such as policybased routing, also the uncertainty that network configuration is disposed is added, therefore Crosslinking Structural method of the prior art obviously cannot adapt to the development of current network technology, therefore, how one to be proposed quicker, and the Crosslinking Structural technology being applicable to catenet is the present invention to be solved is technical task.

Summary of the invention

In view of the variety of problems of above-mentioned prior art, the object of the present invention is to provide a kind for the treatment of system in order to structure network structure deployment diagram and method thereof, go out network configuration deployment diagram without the need to increasing any hardware cost and being easy to construction.

Another object of the present invention is to provide a kind for the treatment of system in order to structure network structure deployment diagram and method thereof, can fast, the high and efficiency of correctness good realize building of network configuration deployment diagram, be particularly useful for the large-scale network system of the network terminal of substantial amounts.

For achieving the above object and other relevant objects, the invention provides a kind for the treatment of system in order to structure network structure deployment diagram, dispose for evaluating objects network of network structure, described treatment system comprises: request module, for request for transport instruction to each network node of this objective network, the state of network traffic information of each port of respectively this network node of this objective network of acquisition request; Data acquisition module, for receiving the response instruction returned according to this request instruction of respectively this network node, gather identification information corresponding to the port of respectively this network node in this objective network and current state of network traffic information thereof, and above-mentioned Information Monitoring is stored in data bank; And analysis module, for according to the storing information in this data bank, the state of network traffic information current for respectively this port carries out the matching analysis, judges the annexation respectively between this port according to this, to generate the network configuration deployment diagram of this objective network.

Preferably, this request module system is according to the time interval parameter of acquiescence, and respectively this network node periodically to this objective network sends this solicited message.This data acquisition module also comprises: record the stamp of the acquisition time corresponding to state of network traffic information that respectively this port is current.

Preferably, this system is interactive through each network node of snmp protocol and this objective network.

Preferably, this data acquisition module also comprises: the network node information belonging to each port correspondence gathering respectively this network node in this objective network, and this network node and this port are in one to one or the corresponding relation of one-to-many.Corresponding relation between this network node and this port is presented in the network configuration deployment diagram that this analysis module generates.

Preferably, this analysis module is mounted with the calculus system based on Hadoop, whether it is analyzed through by the state of network traffic information of respectively this port stored in this data bank, mutually mate to analyze, and to judge between any two ports wherein whether physical connection according to this.

Preferably, this analysis module also comprises and presents its network configuration deployment diagram generated in Web mode.

Preferably, in one embodiment, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether the analysis mode of this analysis module is analyze the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis the output total flow value of this first port to be analyzed and input total flow value of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

Preferably, in another embodiment, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether the analysis mode of this analysis module is analyze the changing value of the changing value of the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis changing value of the changing value of the output total flow value of this first port to be analyzed and the input total flow value of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

Preferably, in another execution mode, this state of network traffic information comprises: input total package value of port and export total package value, and whether the analysis mode of this analysis module is analyze input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis output total package value of this first port to be analyzed and total package value of input of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

Preferably, in another execution mode, this state of network traffic information comprises: input total package value and export total package value, and whether the analysis mode of this analysis module is analyze the variable quantity of the variable quantity of input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis variable quantity of the variable quantity of output total package value of this first port to be analyzed and the total package value of input of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

The present invention also provides a kind of processing method in order to structure network structure deployment diagram, for disposing by the treatment system evaluating objects network of network structure in order to structure network structure deployment diagram, the method comprises: should in order to the treatment system request for transport instruction of structure network structure deployment diagram to each network node of this objective network, the state of network traffic information of each port of respectively this network node of this objective network of acquisition request; This treatment system in order to structure network structure deployment diagram receives the response instruction that respectively this network node returns according to this request instruction, gather the identification information that respectively this port is corresponding of respectively this network node and current state of network traffic information thereof, and above-mentioned Information Monitoring is stored in data bank; The state of network traffic information that in this database material storehouse, respectively this port is current should be analyzed, to judge the annexation respectively between this port in order to the treatment system of structure network structure deployment diagram; And the network configuration deployment diagram of this objective network should be generated according to the annexation respectively between this port in order to the treatment system of structure network structure deployment diagram.

Preferably, should in order to the treatment system of structure network structure deployment diagram through snmp protocol, and according to the time interval parameter given tacit consent to, each network node periodically to this objective network sends this solicited message, to gather the state of network traffic information of the port of respectively this network node in this objective network.

Preferably, also comprise the network node information belonging to port correspondence that this treatment system in order to structure network structure deployment diagram gathers respectively this network node in this objective network, and in the network configuration deployment diagram of this objective network of follow-up generation, generate the corresponding relation between this port and this network node.

Preferably, this treatment system in order to structure network structure deployment diagram is mounted with the calculus system program based on Hadoop, analyze through by the state of network traffic information of respectively this port stored in this data bank, whether mutually mate to analyze, to judge between any two ports wherein whether physical connection.

Preferably, in one embodiment, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether analysis mode is analyze the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis the output total flow value of this first port to be analyzed and input total flow value of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

Preferably, in another embodiment, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether analysis mode is analyze the changing value of the changing value of the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis changing value of the changing value of the output total flow value of this first port to be analyzed and the input total flow value of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

Preferably, in another execution mode, this state of network traffic information comprises: input total package value of port and export total package value, and whether analysis mode is analyze input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis output total package value of this first port to be analyzed and total package value of input of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

Preferably, in another execution mode, this state of network traffic information comprises: input total package value and export total package value, and whether analysis mode is analyze the variable quantity of the variable quantity of input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis variable quantity of the variable quantity of output total package value of this first port to be analyzed and the total package value of input of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

As mentioned above, the flow information that treatment system in order to structure network structure deployment diagram of the present invention and method thereof utilize the port of each network node in network to produce when carrying out point-to-point communication, the annexation respectively between this port can be found out, and then construction goes out the structure deployment diagram of this network, without the need to increasing any hardware cost and being easy to realize, especially, when in the face of the network node of substantial amounts, more can obtain online deployment between each node port by fast fetching, be applicable to large-scale network system.In sum, use the treatment system in order to structure network structure deployment diagram of the present invention and method thereof, user can be allowed not need to do any change to each network node of objective network, as long as have complete network node address (IP) and access SNMP communication protocol about the authority of each port unit interval total package number of this network node, then can obtain the network traffic information of all-network node, and then obtain the network configuration deployment diagram of port of all-network node.

Accompanying drawing explanation

The basic system architecture figure of Fig. 1 treatment system in order to structure network structure deployment diagram of the present invention.

One embodiment schematic diagram of the network configuration deployment diagram generated in order to the treatment system of structure network structure deployment diagram of Fig. 2 application drawing 1.

The operation workflow figure of Fig. 3 network configuration deployment analysis of the present invention method.

Fig. 4 A to Fig. 4 D illustrates for the network configuration deployment diagram shown in Fig. 2 the curve chart whether the port A1 of network node IP01 mates for the lower state of network traffic information presented that is connected with the port A2 of network node IP02.

Fig. 5 A to Fig. 5 D illustrates for the network configuration deployment diagram shown in Fig. 2 the curve chart whether the state of network traffic information presented under the port A1 of network node IP01 and the port A1 of network node IP03 are not connected mates.

Element numbers explanation

100 in order to the treatment system of structure network structure deployment diagram

101 data bank

103 network configuration deployment diagrams

110 request module

120 data acquisition modules

130 analysis modules

200 objective networks

S301 ~ S307 step

Embodiment

Below by way of specific instantiation, embodiments of the present invention are described, those skilled in the art the content disclosed by this specification can understand other advantages of the present invention and effect easily.The present invention can also be implemented or be applied by embodiments different in addition, and the every details in this specification also can based on different viewpoints and application, carries out various modification or change not deviating under spirit of the present invention.

It should be noted that, the diagram provided in the present embodiment only illustrates basic conception of the present invention in a schematic way, then only the assembly relevant with the present invention is shown in graphic but not component count, shape and size when implementing according to reality is drawn, it is actual when implementing, and the kenel of each assembly, quantity and ratio can be a kind of change arbitrarily, and its assembly layout kenel also may be more complicated.

Refer to the basic system architecture figure of Fig. 1 treatment system in order to structure network structure deployment diagram of the present invention, as shown in the figure, treatment system 100 in order to structure network structure deployment diagram of the present invention is disposed for the network configuration of evaluating objects network 200, i.e. network topology.In the present embodiment, this objective network 200 comprises multiple network node, treatment system 100 such as management server in order to structure network structure deployment diagram of the present invention, in order to interactive with the plurality of network node, goes out the network configuration deployment diagram of this objective network 200 with construction.Wherein, this treatment system 100 at least comprises: request module 110, data acquisition module 120 and analysis module 130.

Described request module 110 for request for transport instruction to each network node of this objective network 200, with the state of network traffic information of each port (port) of acquisition request respectively belonging to this network node, in the present embodiment, the port network flow status information of this request module 110 acquisition request can comprise following compound mode: the input total flow value of this port and the combination of output total flow value, input total package value of this port and export the combination of total package value, or the input total flow value of this port, export total flow value, input total package value and export the combination (please be detailed later) of total package value.What remark additionally is, the request module 110 of the treatment system 100 in order to structure network structure deployment diagram of the present invention is before each network node this request instruction being sent to this objective network 200, learn the network address of respectively this network node in advance, interaction can be carried out with each network node of this objective network 200.In addition, between the treatment system 100 in order to structure network structure deployment diagram of the present invention and each network node of this objective network 200 based on Simple Network Management Protocol (Simple Network Management Protocol; SNMP) agreement carries out interaction, specifically, each network node of this objective network 200 is after receiving the request instruction transmitted by this request module 110 in order to the treatment system 100 of structure network structure deployment diagram, if agree to this request instruction, namely a response instruction is replied to the treatment system 100 of being somebody's turn to do in order to structure network structure deployment diagram, in other words, each network node of this objective network 200 authorizes this treatment system 100 in order to structure network structure deployment diagram to carry out accessing process to it.

The response instruction that described data acquisition module 120 returns according to this request instruction for receiving respectively this network node, the identification information corresponding with each port gathering respectively this network node in this objective network 200 and current state of network traffic information thereof.As previously mentioned, because this data acquisition module 120 gathers based on snmp protocol the state of network traffic information that in this objective network 200, each port is current, therefore, this data acquisition module 120 detects for the assigned ip list in this objective network 200 or the all-network resource in this objective network 200, below to carry out detecting being described for the all-network resource in this objective network 200.

Please refer to Fig. 2, in the present embodiment, in this objective network 200, be provided with multiple network node (IP01, IP02, IP03, IP04, IP05, IP06, IP07, IP08 and IP09), each network node has one or more port, and with the embodiment shown in Fig. 2, network node IP01 has 6 ports, and it is respectively A1, B1, C1, D1, E1 and F1, network node IP02 has 2 port: A2 and B2, respectively this port all has a unique identification information, therefore, after the response instruction that each network node of data acquisition module 120 in this objective network 200 of reception returns, namely all of the port resource in this objective network 200 of automatic detection and affiliated network node resource thereof, gather identification information and affiliated network node information thereof that respectively this port is corresponding, and obtaining the state of network traffic information that respectively this port is current, this state of network traffic information can comprise: the input total flow value of this port and the combination of output total flow value, input total package value of this port and export the combination of total package value, or the input total flow value of this port, export total flow value, input total package value and export the combination of total package value, and above-mentioned data acquisition information is all stored in data bank 101.

In a preferred embodiment, request module 110 can according to the time interval parameter of acquiescence, each network node repeatedly to this objective network 200 sends this solicited message, make this data acquisition module 120 periodically gather the current network flow state information of the port of respectively this network node in this objective network 200 and acquisition time stamp (timestamp) of record correspondence, use and improve the correctness of the present invention in order to the analysis result of the treatment system 100 of structure network structure deployment diagram.

Described analysis module 130 is for according to the storing information in this data bank 101, the input total flow value current for respectively this port and export the combination of total flow value, input total package value of this port and the matching analysis of variable quantity is carried out in the combination that exports the combination of total package value or input total flow value, export total flow value, input total package value and export total package value, judges the annexation respectively between this port according to this.Specifically, if for the port to be measured judging a network under test node, be connected with certain Single port of other network nodes, then must by the distance definition between this port to be measured of this network under test node and each port of these other network nodes out, with this port to be measured of this network under test node apart from certain Single port of minimum some network nodes, be then considered to connected two ends.In the present invention, distance algorithm between port, have employed the data assemblies of above-mentioned three kinds of modes: the input total flow value of port and export the combination of total flow value, input total package value of port and export the combination of total package value or port input total flow value, export total flow value, input total package value and export the combination of total package value.During for Fig. 2, the variable quantity of analysis module 130 according to the input total flow value of port A1 within some periods of network node IP01 stored in data bank 101 and the acquisition time stamp of correspondence thereof, the port whether existing within the same period and export the variable quantity of total flow and the variable quantity of this input total flow and match is inquired about in this data bank 101, the port A2 of network node IP02 is the port A1 appropriate ports with network node IP01, then find out within the same period (such as T1), when the variable quantity of the variable quantity of input total flow value of the port A2 of network node IP02 and the output total flow value of the port A1 of network node IP01 matches, physical couplings is there is between the port A2 of network node IP02 and the port A1 of network node IP01 when assert, certainly, for improving the correctness of judged result, more can analyze further under aforesaid same period (T1), whether the variable quantity of output total package value of the port A2 of network node IP02 matches with the variable quantity of the total package value of the input of the port A1 of network node IP01, if when also mutually mating both judging, correctly can judge to there is physical couplings between the port A2 of network node IP02 and the port A1 of network node IP01.Moreover, a set of calculus system based on Hadoop is equipped with in analysis module 130, it utilizes this calculus system carry out the current network flow state information of each port of respectively this network node in evaluating objects network 200 and mate, therefore, namely, when the network node quantity in convenient objective network 200 is very huge, the present invention also can obtain the online deployment between each port rapidly.

After all of the port in objective network 200 all completes analysis coupling, analysis module 130 can according to the annexation analysis result between each port, the network configuration drawing out this objective network 200 correspondence disposes Figure 103, in the present embodiment, analysis module 130 presents this network configuration generated in the mode of Web and disposes Figure 103 (as shown in Figure 2), and the network configuration that the corresponding relation between each port and each network node is also presented in this generation is disposed in Figure 103.

The operation workflow figure of Fig. 3 processing method in order to structure network structure deployment diagram of the present invention, wherein, the method is analyzed to dispose for the network configuration of objective network 200 by the aforementioned treatment system 100 in order to structure network structure deployment diagram.

As shown in the figure, first step S301 is performed, should in order to the treatment system request for transport instruction of structure network structure deployment diagram to each network node of this objective network, the state of network traffic information of each each port of this network node in this objective network of acquisition request, in the present embodiment, the state of network traffic information of this acquisition request comprises the data assemblies of following three kinds of modes: the input total flow value of port and the combination of output total flow value, input total package value of port and export the combination of total package value, or the input total flow value of port, export total flow value, input total package value and export the combination of total package value, then step S303 is carried out.

In step S303, this treatment system in order to structure network structure deployment diagram receives the response instruction that respectively this network node returns according to this request instruction, gather identification information corresponding to each port of respectively this network node in this objective network and current state of network traffic information thereof, namely this state of network traffic information comprise the data assemblies of above-mentioned three kinds of modes, and above-mentioned Information Monitoring be stored in data bank.In the present embodiment, this network node is after receiving the request instruction transmitted in order to the treatment system of structure network structure deployment diagram, if agree to, namely this request instruction replys a response instruction to the treatment system of being somebody's turn to do in order to structure network structure deployment diagram, can to detect the port resource in this objective network based on snmp protocol to make this treatment system in order to structure network structure deployment diagram and obtain the state of network traffic information of respectively this port, as shown in Figure 2, in one embodiment of the invention, this objective network is provided with multiple network node (IP01, IP02, IP03, IP04, IP05, IP06, IP07, IP08 and IP09), respectively this network node has one or more port, such as network node IP01 has 6 ports, it is respectively A1, B1, C1, D1, E1 and F1, network node IP02 has 2 ports, be respectively A2 and B2, therefore, in order to the treatment system of structure network structure deployment diagram after receiving response instruction that respectively this network node returns, namely the port resource that in this objective network of active probe, respectively this network node is all and affiliated network node resource thereof, gather identification information (mac address information that such as port is corresponding) and affiliated network node information thereof that respectively this port is corresponding, and obtain the state of network traffic information that respectively this port is current, and above-mentioned data acquisition information is stored in data bank.In another embodiment, for improving the correctness of the present invention in order to the analysis result of the treatment system 100 of structure network structure deployment diagram, the present invention can be designed to the time interval parameter of the treatment system foundation acquiescence made in order to structure network structure deployment diagram, periodically to respectively this network node transmission request information of this objective network with the state of network traffic information of each respectively this port of this network node in this objective network of multi collect, to improve precision of analysis through the mode increasing collecting sample, then carry out step S305.

In step S305, the current input total flow value of respectively this port stored in this database material storehouse should be analyzed in order to the treatment system of structure network structure deployment diagram and exported the combination of total flow value, input total package value of port and export the combination of total package value or input total flow value, export total flow value, input total package value and export the combination of total package value, to judge the annexation respectively between this port, then carry out step S307.Specifically, in order to the treatment system of structure network structure deployment diagram through the state of network traffic information by each port stored in this data bank, and whether current input total flow value and output total flow value two data analyzing two ports mate mutually, or whether current input total package value of these two ports and the total package value of output two data mate mutually, or the input total flow value of these two ports, export total flow value, input total package value and export total package value four data and whether mate, to judge between these two ports whether physical connection according to this.Such as, treatment system in order to structure network structure deployment diagram can according to the acquisition time stamp of the input total flow value of the port A1 of network node IP01 stored in data bank and correspondence thereof, inquires about the port whether existing within the same period and export total flow value and this input total flow value and match in data bank, the port A2 of network node IP02 is the port A1 appropriate ports with network node IP01, when the input total flow value then obtaining the output total flow value of the port A2 of network node IP 02 within a certain period (such as T2) and the port A1 of network node IP01 matches, the total flow value curve L1 of the port A2 of the port A1 total flow value curve L2 and network node IP02 of network node IP01 as shown in fig. 4 a and fig. 4b, from Fig. 4 A and 4B, physical couplings is there is between the port A2 of network node IP02 and the port A1 of network node IP01 when assert, in addition, for asking higher correctness, when the total package value of input of output total package value whether port A1 of same and network node IP01 of the port A2 that can analyze this network node IP02 in aforesaid a certain period (T2) further matches, if when also mutually mating both judging, namely there is physical couplings between the port A2 of deducibility network node IP02 and the port A1 of network node IP01, and mode analyzes the annexation of all of the port according to this.Also have, also can find out in aforesaid a certain period (T2), whether the variable quantity of output total flow value of the port A2 of network node IP02 mates with the variable quantity of the input total flow value of the port A1 of network node IP01, as shown in Fig. 4 C and Fig. 4 D, the total flow value variable quantity curve L1 phase of the port A2 of the port A1 total flow value variable quantity curve L2 and network node IP02 of network node IP01 overlaps, and more can assert to there is physical couplings between the port A2 of network node IP02 and the port A1 of network node IP01.

For more clearly demonstrating, at this still for the network configuration deployment diagram shown in Fig. 2, illustrate that the port of network node is not connected the lower state of network traffic information matches presented whether result, as shown in Fig. 5 A to Fig. 5 D.Within a unit interval (such as T3), the output total flow value curve L1 of the port A2 of the port A1 input total flow value curve L2 and network node IP02 of the network node IP01 shown in Fig. 5 A is overlapping state, physical couplings is there is between the port A2 of network node IP02 and the port A1 of network node IP01 when assert, but, the output total flow value curve L3 of the port A3 of network node IP03 does not mate with curve L1 and L2 in superposed relationship, should assert that the port A1 of network node IP01 is not connected with the port A3 of network node IP03, for refinement is true, more can analyze another group network flow status information within the same unit interval (T3), as known in Fig. 5 B, the input total flow value curve L1 of the port A2 of the port A1 output total flow value curve L2 and network node IP02 of network node IP01 is matching relationship, but the input total flow value curve L3 of the port A3 of network node IP03 does not mate with curve L1 and L2 in matching relationship, in addition, more can analyze further in aforesaid same unit interval (T3), the changing value of the total flow value of two-port, as Fig. 5 C and Fig. 5 D, therefore, be not connected with the port A3 of network node IP03 from the port A1 of Fig. 5 A to Fig. 5 D, network node IP01.

In addition, treatment system in order to structure network structure deployment diagram is also equipped with a set of calculus system based on Hadoop, it utilizes this calculus system to analyze the current network flow state information of each port in data bank and to mate, therefore network node quantity namely in convenient objective network 200 very huge time, the present invention also can analyze the online deployment between each port rapidly.

In step S307, the treatment system in order to structure network structure deployment diagram is dependent on the annexation respectively between this port analyzed in step S305, the corresponding network configuration deployment diagram generating this objective network.In the present embodiment, treatment system in order to structure network structure deployment diagram presents this network configuration deployment diagram generated in WEB mode, and according to the network node belonging to aforementioned detected each port correspondence, also the corresponding relation between this port and this network node is presented in this network configuration deployment diagram.

Another supplementary notes be, in the application of the processing method in order to structure network structure deployment diagram of the present invention, can pass through and be positioned at long-range any client electronic device and directly perform network configuration deployment analysis method of the present invention as described in Figure 3, namely, the client electronic device long-range through this and network system (network such as such as internet) are analyzed each port of each network node in this objective network 200, therefore, the present invention more can provide a kind of computer program of interior storage network configuration deployment analysis program, the client electronic device such as this computer program such as Website server, it performs each step as described in Figure 3 by this network configuration deployment analysis program.In addition, the execution of the processing method in order to structure network structure deployment diagram of the present invention is not also limit and is applied to the computer program of previous example as Website server etc., that is, the terminal installation (such as computer) that user can be positioned at local terminal directly performs the processing method in order to structure network structure deployment diagram of the present invention, and the mode that this terminal equipment directly can perform the processing method in order to structure network structure deployment diagram of the present invention is through this terminal installation and reads and perform the such as hard disk be electrically connected with this terminal installation, floppy disk, the computer-readable medium storing such as disc or Portable disk in storage network configuration deployment analysis program, therefore, in the present invention, the computer program of storage network configuration deployment analysis program more can comprise: hard disk, floppy disk, the computer-readable medium storing of disc or Portable disk etc., in other words, the implementation that concrete enforcement kenel makes network configuration deployment diagram build is different.

In sum, treatment system in order to structure network structure deployment diagram of the present invention and method thereof are being carried out flow information that point-to-point communication produces through port each in collection network and are carrying out analysis coupling, to find out the annexation between each port, not only without the need to increasing any hardware cost, being easy to obtain network configuration deployment diagram, and there is the high advantage of operational paradigm, be particularly useful for the large-scale network system of the network terminal with vast number.

Above-described embodiment is illustrative principle of the present invention and effect thereof only, but not for limiting the present invention.Any person skilled in the art scholar all without prejudice under spirit of the present invention and category, can modify above-described embodiment or changes.Therefore, such as have in art usually know the knowledgeable do not depart from complete under disclosed spirit and technological thought all equivalence modify or change, must be contained by claim of the present invention.

Claims (20)

1., in order to a treatment system for structure network structure deployment diagram, dispose for evaluating objects network of network structure, it is characterized in that, described treatment system comprises:

Request module, for request for transport instruction to each network node of this objective network, the state of network traffic information of each port of respectively this network node of this objective network of acquisition request;

Data acquisition module, for receiving the response instruction returned according to this request instruction of respectively this network node, gather identification information corresponding to the port of respectively this network node in this objective network and current state of network traffic information thereof, and above-mentioned Information Monitoring is stored in data bank; And

Analysis module, for according to the storing information in this data bank, the state of network traffic information current for respectively this port carries out the matching analysis, judges the annexation respectively between this port according to this, to generate the network configuration deployment diagram of this objective network.

2. the treatment system in order to structure network structure deployment diagram according to claim 1, is characterized in that, this request module is according to the time interval parameter of acquiescence, and respectively this network node periodically to this objective network sends this solicited message.

3. the treatment system in order to structure network structure deployment diagram according to claim 2, is characterized in that, this data acquisition module also comprises: record the stamp of the acquisition time corresponding to state of network traffic information that respectively this port is current.

4. the treatment system in order to structure network structure deployment diagram according to claim 1, is characterized in that, this system is interactive through each network node of snmp protocol and this objective network.

5. the treatment system in order to structure network structure deployment diagram according to claim 1, it is characterized in that, this data acquisition module also comprises: the network node information belonging to each port correspondence gathering respectively this network node in this objective network, and this network node and this port are in one to one or the corresponding relation of one-to-many.

6. the treatment system in order to structure network structure deployment diagram according to claim 5, is characterized in that, the corresponding relation between this network node and this port is presented in the network configuration deployment diagram that this analysis module generates.

7. the treatment system in order to structure network structure deployment diagram according to claim 1, it is characterized in that, this analysis module is mounted with the calculus system based on Hadoop, it is analyzed through by the state of network traffic information of respectively this port stored in this data bank, whether mutually mate to analyze, to judge between any two ports wherein whether physical connection according to this.

8. the treatment system in order to structure network structure deployment diagram according to claim 1, is characterized in that, this analysis module also comprises and presents its network configuration deployment diagram generated in Web mode.

9. according to claim 1, 2, 3, 4, 5, 6, the treatment system in order to structure network structure deployment diagram described in 7 or 8, it is characterized in that, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether the analysis mode of this analysis module is analyze the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis the output total flow value of this first port to be analyzed and input total flow value of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

10. according to claim 1, 2, 3, 4, 5, 6, the treatment system in order to structure network structure deployment diagram described in 7 or 8, it is characterized in that, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether the analysis mode of this analysis module is analyze the changing value of the changing value of the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis changing value of the changing value of the output total flow value of this first port to be analyzed and the input total flow value of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

11. according to claim 1, 2, 3, 4, 5, 6, the treatment system in order to structure network structure deployment diagram described in 7 or 8, it is characterized in that, this state of network traffic information comprises: input total package value of port and export total package value, and whether the analysis mode of this analysis module is analyze input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis output total package value of this first port to be analyzed and total package value of input of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

12. according to claim 1, 2, 3, 4, 5, 6, the treatment system in order to structure network structure deployment diagram described in 7 or 8, it is characterized in that, this state of network traffic information comprises: input total package value and export total package value, and whether the analysis mode of this analysis module is analyze the variable quantity of the variable quantity of input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis variable quantity of the variable quantity of output total package value of this first port to be analyzed and the total package value of input of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

13. 1 kinds of processing methods in order to structure network structure deployment diagram, for disposing by the treatment system evaluating objects network of network structure in order to structure network structure deployment diagram, it is characterized in that, the method comprises:

Should in order to the treatment system request for transport instruction of structure network structure deployment diagram to each network node of this objective network, the state of network traffic information of each port of respectively this network node of this objective network of acquisition request;

This treatment system in order to structure network structure deployment diagram receives the response instruction that respectively this network node returns according to this request instruction, gather the identification information that respectively this port is corresponding of respectively this network node and current state of network traffic information thereof, and above-mentioned Information Monitoring is stored in data bank;

The state of network traffic information that in this database material storehouse, respectively this port is current should be analyzed, to judge the annexation respectively between this port in order to the treatment system of structure network structure deployment diagram; And the network configuration deployment diagram of this objective network should be generated according to the annexation respectively between this port in order to the treatment system of structure network structure deployment diagram.

14. processing methods in order to structure network structure deployment diagram according to claim 13, it is characterized in that, should in order to the treatment system of structure network structure deployment diagram through snmp protocol, and according to the time interval parameter given tacit consent to, each network node periodically to this objective network sends this solicited message, to gather the state of network traffic information of the port of respectively this network node in this objective network.

15. processing methods in order to structure network structure deployment diagram according to claim 13, also comprise the network node information belonging to port correspondence that this treatment system in order to structure network structure deployment diagram gathers respectively this network node in this objective network, and in the network configuration deployment diagram of this objective network of follow-up generation, generate the corresponding relation between this port and this network node.

16. processing methods in order to structure network structure deployment diagram according to claim 13, it is characterized in that, this treatment system in order to structure network structure deployment diagram is mounted with the calculus system program based on Hadoop, analyze through by the state of network traffic information of respectively this port stored in this data bank, whether mutually mate to analyze, to judge between any two ports wherein whether physical connection.

17. according to claim 13, 14, the processing method in order to structure network structure deployment diagram described in 15 or 16, it is characterized in that, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether analysis mode is analyze the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis the output total flow value of this first port to be analyzed and input total flow value of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

18. according to claim 13, 14, the processing method in order to structure network structure deployment diagram described in 15 or 16, it is characterized in that, this state of network traffic information comprises: the input total flow value of port and output total flow value, and whether analysis mode is analyze the changing value of the changing value of the input total flow value of the first port to be analyzed and the output total flow value of the second port to be analyzed within a unit interval to match, and whether analysis changing value of the changing value of the output total flow value of this first port to be analyzed and the input total flow value of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

19. according to claim 13, 14, the processing method in order to structure network structure deployment diagram described in 15 or 16, it is characterized in that, this state of network traffic information comprises: input total package value of port and export total package value, and whether analysis mode is analyze input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis output total package value of this first port to be analyzed and total package value of input of this second port to be analyzed within the aforesaid unit interval match, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.

20. according to claim 13, 14, the processing method in order to structure network structure deployment diagram described in 15 or 16, it is characterized in that, this state of network traffic information comprises: input total package value and export total package value, and whether analysis mode is analyze the variable quantity of the variable quantity of input total package value of the first port to be analyzed and the total package value of output of the second port to be analyzed within a unit interval to match, and whether analysis variable quantity of the variable quantity of output total package value of this first port to be analyzed and the total package value of input of this second port to be analyzed within the aforesaid unit interval matches, analyze be match time, then judge that this first port to be analyzed and this second port to be analyzed are as being connected.