CN1437358A - Relay management method of network equipment based on Telnet protocol - Google Patents

Abstract

A realization method of junction management for network equipment based on remote login Internet protocol includes the following steps: first the network equipment will receive connection request transmitted from network managing station (NMS) for setting up transmission control protocol based on remote login and connection between network equipments to be managed based on Telnet TCP; then, the network equipment will receive management data in format of remote login Internet protocol (Telnet IP) from NMS and the data will be sent to data forwarding module in network equipment after it has been processed accordingly; at last, the data forwarding module will forward the abovesaid management data to the network equipment to be managed and to receive the feedback management data which has been processed by the network equipment, also to send it to NMS.

Description

Implementation method based on the network equipment relay management of Telnet Internet protocol

Technical field

The present invention relates to a kind of management method of the network equipment, relate in particular to a kind of implementation method of the network equipment relay management based on the Telnet Internet protocol.

Background technology

Along with the continuous development of network technology, the networking of network also becomes increasingly complex, and the management of a large amount of network equipments has also become problem demanding prompt solution.At the problems referred to above, at present common solution is to realize management to the network equipment by the supervisory relay equipment with supervisory relay function, so-called supervisory relay function is meant to have the function that can transmit administration order or management data, as shown in Figure 1, net management work station (NMS) is by network equipment A managing network device B, then network equipment A is a supervisory relay equipment, only need distribute an IP address in the management process for network equipment A, and network equipment B communicates by letter by between implicit IP address and network equipment A, therefore, this relay management method not only can be saved limited IP address resource, also provides convenience for NMS to the telemanagement of the network equipment.

But, the supervisory relay function of conventional network equipment is and realizes based on the proprietary protocol of each network equipment production firm oneself, adopt proprietary protocol to realize that relay management has the shortcoming that is not easy to the network equipment of different vendor in the consolidated network is carried out unified management, cause the Internet Service Provider in a certain network, can only adopt the equipment of same manufacturer for convenient management, and for huge network, adopt the network equipment of same manufacturer to have certain difficulty, simultaneously, the Internet Service Provider is not provided by the network equipment that only adopts same manufacturer to provide in a certain network yet.

Summary of the invention

The purpose of this invention is to provide a kind of implementation method of the network equipment relay management based on the Telnet Internet protocol, the network equipment that is provided by different vendor in the network is carried out unified management to make things convenient for network operation.

The object of the present invention is achieved like this: the implementation method based on the network equipment relay management of Telnet Internet protocol comprises:

(1) the connection maintenance module in the network equipment receives foundation that the upper level network equipment sends based on Telnet transmission control protocol (Telnet TCP) connection request, and the request network equipment and the next stage network equipment connect;

(2) set up between this network equipment and the next stage network equipment the link that is connected according to above-mentioned request based on TelnetTCP;

(3) data transmit-receive module in the network equipment receives the management data of Telnet Internet protocol (Telnet IP) form that the upper level network equipment sends;

(4) data transmit-receive module is checked management data, telnet client end in the management data (Telnet client) order is directly carried out, submitted to the data forwarding module in the network equipment after all the other management datas adopt Telnet finite state machine (Telnet FSM) treatment principle to handle;

(5) data forwarding module by based on the connection link of Telnet TCP with above-mentioned management data forwarding to the next stage network equipment, and receive the management data that returns after the next stage network device processing;

(6) this management data information is returned the upper level network equipment through data transmit-receive module.

The described upper level network equipment is a network management workstation.

The described next stage network equipment is a managed networks equipment.

The described upper level network equipment is the supervisory relay network equipment.

The described next stage network equipment is the supervisory relay network equipment.

Connection maintenance module in the described network equipment also is used to receive the connection status that connects maintenance command and monitoring link.

Described connection maintenance command comprises: discharge bind command, keep bind command and hang up bind command.

The connection status of described monitoring link is by sending data function (send), reception data function (recv) and obtaining TCP connection status function (GetTcpStatus) and finish.

The present invention is owing to adopt the relay management function that standard internet protocol is realized the network equipment, the advantage that makes network device management method provided by the present invention not only keep legacy network equipment relay management method to exist has also overcome the existing shortcoming of network equipment relay management function that realized based on proprietary protocol originally.The present invention not only can save limited IP address resource, be convenient to the telemanagement of the network equipment, also guaranteed the interoperability of network device management, make the network equipment in the consolidated network that different vendor provides to unify to manage, be convenient to the management of Internet Service Provider, also make the Internet Service Provider more flexible simultaneously the selection of the network equipment to the network equipment.

Description of drawings

Fig. 1 is the schematic diagram of the network equipment relay management of internet protocol-based;

Fig. 2 is the flow chart based on the implementation method of the network equipment relay management of Telnet Internet protocol;

Fig. 3 successively transmits the schematic diagram of management for network equipment relay management.

Embodiment

Referring to Fig. 1, NMS is undertaken by network equipment A the management of the network equipment B in the IP network, like this network equipment in this IP network is only managed and need get final product for network equipment A provides public ip address, and the IP address of an inside only need be provided for the other network equipment.For NMS can be managed network equipment B by network equipment A, need network equipment A to have the supervisory relay function, promptly network equipment A can transmit administration order and management data between NMS and network equipment B.

The invention provides a kind of implementation method of IP-based network equipment relay management, to realize that NMS can manage the network equipment by network equipment A, the embodiment of this method is described below:

In network equipment A, set up IP-based connection maintenance module, data forwarding module and data transmit-receive module, wherein:

Connecting maintenance module is used to set up and is connected link based on Telnet transmission control protocol (Telnet TCP) between network equipment A and network equipment B;

Data transmit-receive module is used to receive the message of Telnet Internet protocol (Telnet IP) form that NMS sends, and message is sent to data forwarding module;

Data forwarding module is used to connect the Telnet IP form message that data transmit-receive module is sent, and is transmitted to network equipment B after doing simple process.

The process that realizes network equipment relay management by network equipment A is as follows:

Step 1: the foundation that the connection maintenance module reception NMS in the network equipment sends is based on Telnet transmission control protocol (Telnet TCP) connection request;

This request is used to set up the data transmission link between network equipment A and network equipment B, also is responsible for the maintenance work of the link of setting up simultaneously; If connecting, Telnet TCP will cause between network equipment A and the network equipment B transceive data normally unusually;

Network equipment A plays the agency's effect that connects; Application layer protocol adopts the Telnet agreement of standard, and port numbers is 23; For Administrative Security, its port numbers also can provide the different services based on the TCP connection for other ports or by different port numbers; Connecting the process of setting up will call the socket of standard or socket interface function " socket (creating a socket iSocket sign) " and " connect (the initiation company of building asks on the iSocket socket) " and finish; The maintenance of the connection of Telnet TCP mainly is to finish by calling " send (sending data on the iSocket socket) ", " recv (receiving data on the iSocket socket) " and " GetTcpStatus (obtaining the state that TelnetTCP is connected) " function, show that connection is unusual if send data or receive data failure, also the abnormality that can obtain connecting by the state that obtains Telnet TCP connection.The maintenance module that while Telnet TCP connects is also checked the maintenance command that is connected from user and network equipment B, and these orders mainly are orders such as release, maintenance, hang-up connection.The maintenance work that Telnet TCP connects be exactly obtain at first that state that Telnet TCP connects and user close bind command (import CTRL+ such as the user]) or network equipment B be connected maintenance command (such as the aborted process), and then they are done respective handling.

Step 2: set up between this network equipment A and the level network equipment B the link that is connected according to above-mentioned request, provide path based on the transfer of data that is established as between network equipment A and the network equipment B of the connection link of Telnet TCP based on Telnet TCP;

Step 3: the management data of Telnet Internet protocol (Telnet IP) form that the data transmit-receive module reception NMS among the network equipment A sends, management data comprises common management data and administration order;

Step 4: data transmit-receive module is checked management data, telnet client end in the management data (Telnet client) order is directly carried out on network equipment A, Telnet client order does not need to be transmitted to network equipment B, as input CTRL+] represent that NMS wants to stop Telnet TCP and connects; After adopting Telnet finite state machine (Telnet FSM) treatment principle to handle, all the other management datas submit to the data forwarding module among the network equipment B;

Described Telnet FSM has defined the processing rule of data, and these processing rules are that the order rule according to the Telnet agreement defines, and mainly comprise two classes: command process rule and data processing rule; Wherein the command process rule comprises the general orders processing rule, consult order as option negotiation order, option, these command process rules are mainly safeguarded the state redirect of finite state machine (FSM), finish configuration and state synchronized between network equipment A or user and the network equipment B, as activating or forbid the order of certain option, network equipment A sends to network equipment B with these orders, allows network equipment B do some processing or action; Except that the above order of Telnet definition, remaining all is that general data can directly be transmitted to network equipment B processing.

Step 5: the data forwarding module of network equipment A by based on the connection link of Telnet TCP with above-mentioned management data forwarding to network equipment B, and receive the management data that returns after network equipment B handles;

Data forwarding module is used for giving network equipment B with the data forwarding from the user, the data that network equipment B is sent send to the user simultaneously, data forwarding module be the user with network equipment B between the bridge of communicating by letter, the repeating process of data forwarding module is based on the ICP/IP protocol stack, and the ICP/IP protocol stack provides reception forwarding interface and encapsulation;

What data forwarding module was transmitted is the Telnet IP form message of standard, the message of this form can be understood by IP-based network equipment, be convenient to the exchange of LA Management Room message, the IP datagram literary composition calls " send " or " recv " function by data forwarding module and generates automatically according to protocol stack;

Step 6: this management data information is returned NMS through data transmit-receive module.

When NMS passes through network equipment A managing network device B, at first import telnet command logging in network equipment B by the command line interface of network equipment A, thereby realize the supervisory relay function, the order of being imported is:

DEVICE_A＞telnet DEVICE_B (the telnet order of input logging in network equipment B on the order line of network equipment A)

Trying DEVICE_B ... (connecting network equipment B)

Connected to DEVICE_B. (being connected to network equipment B)

Service port is 23. (service port number is the Telnet serve port 23 of standard)

Please input^] to escape from telnet client (user can import ^] connect to stop telnet client end (Telnet Client))

……

DEVICE_B〉(having entered the order line of network equipment B)

So far, NMS can pass through order line managing network device B.Wherein: " telnet " is the order of visit telnet server end (Telnet Server), its form is " telnet hostname[port] ", " hostname " can also can be the IP address of equipment for the title of equipment, " [port] " sets up the port numbers that TCP connects, be optional parameters, the user can select input, and default port number is 23 when not importing." ^] " be control character, equal " CTRL_] " Macintosh.

If on the network equipment, realize telnet client end (Telnet Client) function, promptly can be the management that the user carries out other network equipments standard relay services and means are provided; Make the user also can use other telnet server ends (Telnet Server) of this function access criteria, such as BBS (bulletin board system); And on the network equipment, realized Telnet Client function then need not being publicly-owned management ip address of each managed network devices allocation of network internal, solved the problem of IPv4 address resource anxiety.

Telnet Client has forwarding capability successively, and therefore, above-mentioned relay management method can produce ripple effect; As shown in Figure 3, have A, B, four network equipments of C, D in one network, NMS can directly see network equipment A, can't see network equipment B, C, D; Network equipment A can see network equipment B, can't see network equipment C, D; Network equipment B can see network equipment A, C, can't see network equipment D; Network equipment C can see network equipment B, D, can't see network equipment A; Network equipment D can only see network equipment C.In such network, it is that relaying is carried out in the management to NMS successively in network equipment A, B, the C network equipment that NMS manages network equipment D, reach the purpose of managing network device D, network equipment A, B, C are supervisory relay equipment here, and network equipment D is a managed device.

Administration order row login process among Fig. 3 is as follows: NMS logging device ADEVICE_A at first〉telnet DEVICE_B, (the telnet order of input logging device B on the order line of device A) Trying DEVICE_B ... (just at connection device B) Connected to DEVICE_B., (being connected to equipment B) Service port is 23., (service port number is the Telnet serve port 23 of standard) Please input^] to escape from telnet client, (user can import ^] connect to stop TelnetClient)

DEVICE_B〉(order line of access arrangement B) so far, NMS can pass through order line management equipment B; DEVICE_B〉telnet DEVICE_C (the telnet order of input logging device C on the order line of equipment B) Trying DEVICE_C ... (just at connection device C) Connected to DEVICE_C. (being connected to equipment C) Service port is 23. (service port number is the Telnet serve port 23 of standard) Please input^] to escape from telnet client (user can import ^] connect to stop TelnetClient)

DEVICE_C〉(order line of access arrangement C) so far, NMS can pass through order line management equipment C; DEVICE_C〉telnet DEVICE_D (the telnet order of input logging device D on the order line of equipment C) Trying DEVICE_D ... (just at connection device D) Connected to DEVICE_D. (being connected to equipment D) Service port is23. (service port number is the Telnet serve port 23 of standard) Please input^] to escape from telnet client (user can import ^] connect to stop TelnetClient)

DEVICE_D〉(order line of access arrangement D) so far, NMS can pass through order line management equipment D.

If the user is at DEVICE_B〉this state property input next time " reset " order equipment B that resets, key in order and be:

DEVICE_B〉reset network equipment A data forwarding module then can with " reset " character string one by one character be packaged into the IP message, the character of " reset " is filled into respectively one by one in " user data " territory of IP message and is transmitted to equipment B, simultaneously equipment B can according to order rule process " reset " character string of own definition and with it also be packaged into the IP message one by one echo to device A.So, can not see at once after the user input " reset " that " reset " shows but understand some delay on screen, this time of delay is very short, and the user is difficult for feeling; Here we emphasize " one by one " two words, be because the user once can only import a character, and the telnet agreement are the character stream processing protocol, once only a user inputs character are handled.

Claims (8)

1, a kind of implementation method of the network equipment relay management based on the Telnet Internet protocol comprises:

(1) the connection maintenance module in the network equipment receives foundation that the upper level network equipment sends based on Telnet transmission control protocol (Telnet TCP) connection request, and the request network equipment and the next stage network equipment connect;

(2) set up between this network equipment and the next stage network equipment the link that is connected according to above-mentioned request based on TelnetTCP;

(3) data transmit-receive module in the network equipment receives the management data of Telnet Internet protocol (Telnet IP) form that the upper level network equipment sends;

(4) data transmit-receive module is checked management data, telnet client end in the management data (Telnet client) order is directly carried out, submitted to the data forwarding module in the network equipment after all the other management datas adopt Telnet finite state machine (Telnet FSM) treatment principle to handle;

(5) data forwarding module by based on the connection link of Telnet TCP with above-mentioned management data forwarding to the next stage network equipment, and receive the management data that returns after the next stage network device processing;

(6) this management data information is returned the upper level network equipment through data transmit-receive module.

2, the implementation method of the network equipment relay management based on the Telnet Internet protocol according to claim 1 is characterized in that the described upper level network equipment is a network management workstation.

3, the implementation method of the network equipment relay management based on the Telnet Internet protocol according to claim 1 is characterized in that the described next stage network equipment is a managed networks equipment.

4, the implementation method of the network equipment relay management based on the Telnet Internet protocol according to claim 1 is characterized in that the described upper level network equipment is the supervisory relay network equipment.

5, the implementation method of the network equipment relay management based on the Telnet Internet protocol according to claim 1 is characterized in that the described next stage network equipment is the supervisory relay network equipment.

6, the implementation method of the network equipment relay management based on the Telnet Internet protocol according to claim 1 is characterized in that the connection maintenance module in the described network equipment also is used to receive the connection status that connects maintenance command and monitoring link.

7, the implementation method of the network equipment relay management based on the Telnet Internet protocol according to claim 6 is characterized in that described connection maintenance command comprises: discharge bind command, keep bind command and hang up bind command.

8, the implementation method of the network equipment relay management based on the Telnet Internet protocol according to claim 6, the connection status that it is characterized in that described monitoring link is by sending data function (send), receiving data function (recv) and obtain TCP connection status function (GetTcpStatus) and finish.

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